Development of a Cytosolic pH Reporter for Tobacco By2 Cells

Urbanowski, Michael E

01 January 2012

The regulation of pH is a critical homeostatic function of plant cells. In addition to acting as the primary cationic species responsible for energizing the plasma membrane, protons likely act as an important regulator and messenger. Despite this importance, few studies have thoroughly described cytosolic pH patterns as the plant cell progresses through the cell cycle. To investigate pH in plant cells, I chose Nicotiana tabacum (tobacco) Bright Yellow-2 (BY-2) cells as a model system. My research has two aims. First, I will measure and report the interphase cytosolic pH of BY-2 cells. Next, I will assay the cytosolic pH as BY-2 cells progress through mitosis and cytokinesis. I hypothesize that pH patterns are be temporally or spatially associated with structures such as the mitotic spindle or the phragmoplast. To investigate cytosolic pH in BY-2 cells, I will develop a cytosolic pH reporter based on a pH sensitive ratiometric fluorescent dye. This dye will be able to resolve both temporal and spatial changes in pH throughout the cytosol while imposing a minimal amount of stress on BY-2 cells. I found that pH-GFP, a variant of eGFP, had qualities of a robust pH reporter. To introduce the dye, explored biolistic bombardment, Agrobacterium mediated transient transformation, and polyethylene glycol mediated transformation as methods for introducing the pH-GFP gene into BY-2 cells. I observed very few transformation events using these methods and my observations did not support these approaches as suitable for introducing pH-GFP into BY-2 cells.

BY-2

pH

plant cell physiology

cytosolic pH

pH sensitive GFP

Other Plant Sciences

Plant Biology

Mouse Pancreas Tissue Slice Culture Facilitates Long-Term Studies of Exocrine and Endocrine Cell Physiology in situ

Speier, Stephan, Marciniak, Anja, Selck, Claudia, Friedrich, Betty

02 December 2015

Studies on pancreatic cell physiology rely on the investigation of exocrine and endocrine cells in vitro. Particularly, in the case of the exocrine tissue these studies have suffered from a reduced functional viability of acinar cells in culture. As a result not only investigations on dispersed acinar cells and isolated acini were limited in their potential, but also prolonged studies on pancreatic exocrine and endocrine cells in an intact pancreatic tissue environment were unfeasible. To overcome these limitations, we aimed to establish a pancreas tissue slice culture platform to allow long-term studies on exocrine and endocrine cells in the intact pancreatic environment. Mouse pancreas tissue slice morphology was assessed to determine optimal long-term culture settings for intact pancreatic tissue. Utilizing optimized culture conditions, cell specificity and function of exocrine acinar cells and endocrine beta cells were characterized over a culture period of 7 days. We found pancreas tissue slices cultured under optimized conditions to have intact tissue specific morphology for the entire culture period. Amylase positive intact acini were present at all time points of culture and acinar cells displayed a typical strong cell polarity. Amylase release from pancreas tissue slices decreased during culture, but maintained the characteristic bell-shaped dose-response curve to increasing caerulein concentrations and a ca. 4-fold maximal over basal release. Additionally, endocrine beta cell viability and function was well preserved until the end of the observation period. Our results show that the tissue slice culture platform provides unprecedented maintenance of pancreatic tissue specific morphology and function over a culture period for at least 4 days and in part even up to 1 week. This analytical advancement now allows mid -to long-term studies on the cell biology of pancreatic disorder pathogenesis and therapy in an intact surrounding in situ.

Pankreas

regenertative Therapie

Diabetes

Pancreas

Insulin

Cell physiology

Endocrine cells

Glucose

Endocrine physiology

Secretion

Cell staining

ddc:610

rvk:XA 10000

A kinetic model of glucose catabolism in Plasmodium falciparum

Penkler, Gerald Patrick

03 1900

Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Malaria infects over 200 million individuals and leads to the death of over 600 000 people annually. Currently artemisinin combination therapy treatments are effective in treating the disease, but resistance has started to emerge in Cambodia and it is suspected in parts of Vietnam. To maintain the drive to eradicate malaria globally, a great deal of research is aimed at identifying novel prevention strategies, vaccines and antimalarial compounds. Plasmodium falciparum, the most deadly of the malaria parasites, is entirely dependent on glycolysis for ATP. Several of the enzymes within this pathway have been proposed as drug targets and studied in isolation, but the pathway as a whole has not been considered. In this study we employ a bottom up approach for drug target identification in P. falciparum glycolysis. In this thesis we present the biochemical characterisation each of the glycolytic enzymes in P. falciparum trophozoites. The kinetic rate equations, which described the kinetic behaviour of the individual enzymes, were incorporated into a kinetic model. The unfitted model was validated in its ability to predict experimentally measured steady state metabolite concentrations and fluxes as well as the experimental inhibition of the glucose transporter. The validated model provided a tool for drug target identification in P. falciparum glycolysis. Metabolic control analysis and differential control analysis identified the glucose transporter, PfHT1, as a drug target based on its high control of glycolytic flux in the parasite, but low control of flux in the host erythrocyte. This differential control makes the transporter an attractive drug target, as even if both the erythrocyte and parasite glucose transporters are inhibited to the same degree, it is expected that the parasite glycolytic flux would be inhibited to a much greater degree. To demonstrate the differential control of the glucose transporter on the flux and provide further evidence that PfHT1 is an attractive drug target, we investigated the inhibition of the glucose transporter in isolated trophozoites by cytochalasin B. We also measured the inhibition of lactate production flux by cytochalasin B in both isolated P. falciparum trophozoites as well as in erythrocytes. Our findings demonstrated that differential control analysis can be used as a tool for drug target identification and that PfHT1 is an attractive drug target. In this study the fields of biochemistry and systems biology were merged to create a detailed kinetic model of asexual P. falciparum glycolysis and identify several drug targets in the pathway. The model prediction and experimental evidence of differential flux control of the glucose transporter in the host and parasite, has highlighted PfHT1 as a drug target and also demonstrates the strength of differential control analysis in identifying drug targets within a system. The kinetic model is a valuable tool for furthering our understanding of P. falciparum glycolysis and it provides a good foundation for expansion to identify drug targets in the entire central carbon metabolism of P. falciparum. / AFRIKAANSE OPSOMMING: Malaria infekteer meer as 200 miljoen mense en veroorsaak jaarliks tot 600 000 sterftes. Tans is die artemisinien-kombinasieterapie effektief in die bestryding van die siekte, maar weerstandbiedendheid van die parasiet teen die middel blyk reeds ’n merkbare effek in Kambodja en vermoedelik ook in dele van Viëtnam te hê. Om ’n wêreldwye bestryding van malaria moontlik te maak, is ’n groot deel van die huidige navorsing gemik op die identifisering van nuwe voorkomingsstrategieë, entstowwe en malariateenmiddels. Plasmodium falciparum, die dodelikste van die malaria-parasiete, is geheel en al afhanklik van glikolise vir ATP vorming. Verskeie van die ensieme in hierdie metaboliese pad is as teenmiddelteikens voorgestel, en in isolasie bestudeer, maar die pad as ’n geheel is nie bestudeer nie. In hierdie studie het ons ’n ’bottom-up’ benadering vir teenmiddel teikenidentifisering in P. falciparum glikolise gebruik. In hierdie tesis bied ons die biochemiese karakterisering van elk van die glikolitiese ensieme in P. falciparum trofozoïete aan. Die kinetiese vergelykings wat die kinetiese gedrag van die individuele ensieme beskryf, is geintegreer in ’n enkele kinetiese model. Die model waarop geen datapassing toegepas is nie, is gevalideer om eksperimenteel bepaalde bestendige-toestand metabolietkonsentrasies en fluksiewaardes, asook die eksperimentele inhibisie van die glukose transporter, te voorspel. Die gevalideerde model verskaf ’n bykomende hulpmiddel om teenmiddelteikens te identifiseer in P. falciparum glikolise. Metaboliese kontrole-analise en differensiële kontrole-analise het die glukose transporter, PfHT1, as ’n teenmiddelteiken geïdentifiseer, gebaseer op sy hoë kontrole van glikolitiese fluksie in die parasiet, tesame met ’n lae beheer van die glukose transporter op die fluksie in die gasheer eritrosiet. Dié differensiële kontrole maak die glukose transporter ’n aantreklike teenmiddelteiken, want selfs as beide die eritrosiet en die parasiet glukose transporters tot dieselfde mate geïnhibeer word, sal dit steeds ’n hoër glikolietiese fluksieinhibisie van die parasiet tot gevolg hê. Om die differensiële kontrole van die glukose transporter op die fluks te demonstreer en verdere bewyse te lewer dat PfHT1 ’n teenmiddelteiken kan wees, het ons die inhibisie van die glukosetransporter in geïsoleerde trofozoïete deur sitokalasien B ondersoek. Ons het ook die inhibisie van die laktaatproduksiefluksie deur sitokalasien B in beide geïsoleerde P. falciparum trofozoïete sowel as in eritrosiete ondersoek. Ons bevindings bewys dat differensiële kontroleanalise as ’n hulpmiddel vir teenmiddelteikenidentifikasie gebruik kan word en dat PfHT1 ’n aantreklike teenmiddelteiken is. In hierdie studie is die velde van biochemie en sisteembiologie gekombineer om ’n gedetaileerde kinetiese model van ongeslagtelike P. falciparum glikolise te konstueer en verskeie teenmiddelteikens in die metaboliese pad te identifiseer. Die modelvoorspelling sowel as eksperimentele bewyse van die differensiële flukskontrole van die glukose transporter in die gasheer en parasiet het PfHT1 uitgelig as ’n teenmiddelteiken en demonstreer ook die krag van differensiële kontrole analise in die identifisering van teenmiddelteikens binne ’n biologiese stelsel. Die kinetiese model is ’n waardevolle hulpmiddel vir die bevordering van ons begrip van P. falciparum glikolise en dit bied ’n goeie basis vir uitbreiding om teenmiddelteikens in die hele sentrale koolstofmetabolisme van P. falciparum te identifiseer.

Malaria

Kinetic model

Drug target indentification

Systems biology

Molecular Approaches To understand Cellular Differentiation - A Study Using BeWo Choriocarcinoma Cells

Neelima, P S

08 1900

Cellular differentiation is a complex but fascinating process in all multicellular organisms. Differentiation can involve changes in numerous aspects of cell physiology; size, shape, polarity, metabolic activity, responsiveness to signals, and changes in gene expression profiles. These changes form the basis for differentiation to occur. The human hemochorial placenta is an intricate apposition of fetal and maternal tissues that is strategically juxtaposed at the interface, with its widespread ‘villous’ or tree-like projections, directly in contact with maternal blood. It is therefore, ideally suited to perform life-sustaining functions such as exchange of nutrients, respiratory gases and metabolic wastes, with the maternal supply. It also plays a central role in the maintenance of the immunologically privileged status of the fetal semi-allograft. Placental development is directed towards the establishment of a continuous nutrient supply to the developing fetus. This requires efficient access of maternal blood to a transporting surface, the multinucleate syncytiotrophoblast layer. This is made possible by the rapid proliferation and ensuing invasion of mononuclear trophoblasts into the maternal uterus and remodeling of the spiral arteries therein. It is interesting to note that in early pregnancy, it is the placenta that first engages its active growth and proliferation and only then, permits the logarithmic growth phase of the embryo. As a developing organ, the placenta undergoes constant tissue remodeling, which is characterized by the functional loss of trophoblast cells by apoptosis. Most of these changes occur at the trophoblast layer of the placental villous that is composed of two cell types: cytotrophoblasts (CT) and syncytiotrophoblasts (ST). The mononuclear cytotrophoblast cells, which are located between the syncytiotrophoblast layer and its basement membrane, proliferate and fuse during trophoblast differentiation to form the overlying multinucleated syncytium. CT are highly proliferating and invasive cells, in contrast to the ST which are non proliferative less invasive and functionally very active. Syncytiotrophoblast cells form the continuous, uninterrupted, multinucleated, epithelium-like surface of the placental villous that separates maternal blood from the villous interior. ST performs a crucial role in feto-maternal exchanges and serves as an endocrine tissue by its ability to synthesize and secrete a variety of hormones such as GnRH, chorionic gonadotrophin (CG), placental lactogen (PL) and steroid hormones involved in the homeostasis during pregnancy. Thus, differentiation of CT into ST serves as an ideal model to study cellular differentiation as morphologically and functionally these cells exhibit highly contrasting features. The molecular basis of cytotrophoblast differentiation has been studied using primary cultures of human trophoblast cells as a model system. Highly purified preparations of mononucleated cytotrophoblast cells can be isolated from preterm and term placental tissue by enzymatic dispersion. The isolated cells from term placental tissue aggregate spontaneously in culture and fuse to form a multinucleated syncytiotrophoblast which synthesizes and secretes placental lactogen (hPL), chorionic gonadotropin (hCG) and other syncytiotrophoblast-specific protein and steroid hormones . These in vitro changes, which recapitulate important activities accomplished by normal cytotrophoblast cells during in vivo maturation, implicate a critical relationship between the differentiation of cytotrophoblast cells into syncytiotrophoblast cells. Though primary cell culture is an ideal model to study these changes, it comes inherently associated with various problems like health risk of handling human tissues, time involved, variability in each placental samples depending on health status of the subject and quite often lack of history of the subject which makes the results from these experiments difficult to reproduce and assess. One way to overcome this is the cell culture model which is a reproducible experimental system and permits the direct observation of time-dependent processes and their experimental manipulation. BeWo cells, the cells which we have used in our study, were derived from human gestational choriocarcinoma. These cells are the highly invasive malignant counterparts of the normal human trophoblast wherein, the limited capacity for cell proliferation is far exceeded. However, they still retain important features of their normal counterpart, like the potential of hormone production and induced differentiation. Differentiation of CT to ST is precisely controlled by different agents such as transcription factors, hormones, growth factors, cytokines and oxygen levels. BeWo cells have been used by other investigators as well as by us and it has been shown that these cells can be induced to differentiate with the agents mentioned above and terminally differentiate into cells which express typical characteristics of the normal differentiating trophoblast; like morphological transition from cytotrophoblast to syncytiotrophoblast-like cells, increased production of protein and steroid hormones (hCG, hPL, estrogens, progesterone); increased activity of cellular alkaline phosphatase and arrested cell proliferation. Since these cells can be triggered by external agents to differentiate, they serve as a useful model for the study of changes that occur during differentiation. Using primary cells and various cell lines including BeWo cells, various groups have attempted to study trophoblast differentiation and the regulators that control this process. The results of such study have only come out with a list of genes or proteins which might be having a role in this process and no functional correlation has been drawn so far from these studies. The members of the syncytin protein family, ADAM (a disintegrin and metalloprotease) proteins may well be some of the main players in the process of trophoblast fusion; some of the requisites of trophoblast fusion being redistribution of phosphatidylserine to the outer leaflet of the plasma membrane and activity of certain intracellular proteases. Clearly, further studies on trophoblast differentiation are needed to answer the question of the precise identity of regulatory proteins and role of these proteins during differentiation. The present study is aimed at gaining insights into the process of trophoblast differentiation and the molecular events which occur during this process. Our aim is also to study the regulated process of differentiation using BeWo cell model and identify the differentially expressed genes and relate the known function of these gene products to changes seen during differentiation process. We have employed the Differential Display Reverse Transcriptase Polymerase Chain Reaction (DD-RTPCR) and Microarray analysis to monitor the changes in gene expression. In CHAPTER 1, a brief account of morphological, biochemical and physiological changes which occur during placentation and trophoblast differentiation is discussed. Various aspects of placental function are discussed in brief, with special reference to the many unique abilities of trophoblast cells that contribute to a successful pregnancy. Detailed accounts of molecular mechanism of cellular differentiation, the models used in these studies and the advantages and drawbacks have been highlighted. The results of the previous studies from our laboratory using different model system and the outcome of the study are also outlined in this chapter. The advantages and disadvantages of the primary cell lines and the ease of handling of continuous cell culture model, BeWo is also presented in this chapter. The aim and objective of our study is to understand the molecular mechanisms underlying the trophoblast differentiation and the literature available is reviewed in the light of the objective and the aims and scope of the present study. The details regarding the materials used and the techniques employed during the entire study are outlined in CHAPTER 2-‘Materials and Methods’. The conditions for culture of BeWo human choriocarcinoma cell line are described and details of procedures employed for the validation of BeWo cells as a model system for monitoring the process of cellular differentiation are mentioned in this chapter. The details of the procedures employed for isolation of RNA, Reverse Transcriptase Polymerase Chain Reaction (RTPCR), Differential Display RT-PCR (DD-RT-PCR), Microarray analysis, Northern Blot analysis and Western Blot analysis are also described. The principle of the MTT assay used for verifying the viability of cells following various treatments is provided along with the working protocol. This chapter also includes protocols of the in vivo studies in rat, the methods employed for rat uterine mince cultures and isolation of rat uterine epithelial cells and dose and duration of the various treatments with steroid hormones and their inhibitors, treatment with protein kinase inhibitors in cell culture system are also described. In addition, this chapter also describes the procedures for transfection of hTERT, silencing of SLPI gene using SiRNA approach, gelatin zymography, MAP Kinase assay, FACS, cloning and expression of SLPI protein and procedure employed for raising antibodies to SLPI in rabbit. Finally, details of statistical tests employed fro anlaysis of data are presented. The results obtained in the present study are presented in 4 chapters(Chapters 3-6), CHAPTER 3 describes the characterization and validation of model system employed- BeWo cells to study human trophoblastic differentiation. BeWo cells under normal culture conditions resemble cytotrophoblasts like cells and when treated with various effectors of differentiation can be induced ot differentiate into syncytiotrophoblasts. We used 10 µM Forskolin to induce differentiation in BeWo cells. Forskollin is known to induce characteristic changes associated with human trophoblast differentiation in these cells. Incubation of BeWo cultures in the presence of 10 µM Forskolin resulted in dramatic morphological biochemical changes intheir cytotrophoblast-like phenotype. Mononuclear cells were seen to fuse to form multinucleate syncytial structures over a period of 72-96 hours in culture. This process was also associated with an increased production of β-hCG, Endoglin and hTERT thereby validating this model system for study of human trophoblastic differentiation. Analysis of cell cycle genes in this system established the arrest of proliferation thus further validating the system. The viability of these cells, during the entire period of culture, was verified using the MTT assay. This chapter discusses the importance of in vitro cell culture systems in the study of human placental development, and also addresses the suitability of these model systems for the study of human trophoblast proliferation and differentiation. One of the important finding of our earlier studies was that arrest of proliferation was a prerequisite for trophoblast differentiation to occur. This conclusion was based on the fact that telomerase expression which is a hallmark of all proliferating cells was down regulated in BeWo cells by 48h as assessed by TRAP (Telomere Repeat Amplification Protocol) assay or RT-PCR analysis for hTERT which is the catalytic subunit of telomerase. Telomerase activity was undetectable by about 96th by which time syncytium formation is normally completed after the addition of differentiation inducing agents like Forskolin, TGF β etc. Although the telomeric holo enzyme consists of many components the subunits which are critical for enzyme action are hTERT and hTR; hTR; hTR which is the RNA component of telomerase is ubiquitously expressed in most cell types including telomerase negative cells such as differentiated somatic cells. Since the BeWo cells can be induced to differentiate into multinucleated ST by addition of Forskolin and periodically the aged ST are eliminated by apoptosis. It is very well documented that the life span of ST is very limited and the ST have to be replaced by the freshly formed ST out of fusion of CT. Considering this, it was of interest to test whether differentiation can be prevented or delayed by extending the expression of telomerase activity. This would further validate our system that one of the requisites for cells to differentiate is down regulation of hTERT in BeWo cells. This was achieved by transfection of BeWo cells with hTERT expression vector. The results of the study clearly established that we were able to over express hTERT in BeWo cells; we also noticed an increase in the proliferation of BeWo cells as assessed by BrdU incorporation. In agreement with this observation is the fact that, in contrast to the empty vector transfected cells, in hTERT transfected group, the cell density appeared to be clearly more at 72 h. That the decrease in the hTERT expression in the control (empty vector transfected) is not due to cell death was established by MTT assay, which indicated that there was no difference in the viability between control and hTERT transfected cells. Further more, results of analysis for a variety of cell proliferation and differentiation markers by RT-PCR and Western blot analysis clearly supports the conclusion that hTERT over expression delays syncytium formation. Although reports are available on the differential expression of genes during differentiation of CT to ST with both primary cell lines as well as BeWo cell line, relatively less is known about the functional importance of differentially expressed genes. In CHAPTER 4, results of our studies to profile the differentially expressed genes during Forskolin induced differentiation in BeWo cells by two approaches DD-RTPCR and microarray analysis and relate the known functions of these genes to changes that occur during the differentiation of CT to ST are presented. We identified several genes that had robust change during differentiation by DD RTPCR and the differential expression of ten transcripts was confirmed by Northern blot analysis. The genes which we identified were SLPI, Elongation factor-1 alpha -1, Prolyl hydroxylase beta, LIMO-4 etc. These genes were either shown to have a role during differentiation of cells or have functional role in the syncytiotrophoblasts. Secretory Leucocyte Protease Inhibitor was one of the differentially expressed transcripts which were significantly up regulated during Forskolin induced differentiation of BeWo cells. SLPI which is a 12 KDa protein reported to exhibit a variety of activities which include inhibition of proteases and elastase, in addition to antibacterial and anti inflammatory activities. It was chosen for our further studies because of its multifunctional role in placenta and also during implantation. Micro array analysis revealed the up-regulation of hCG, hCS, and Endoglin thus validating the experimental system. Several candidate genes that could influence trophoblast differentiation, cell adhesion and cellular proliferation were identified. Genes involved in cellular proliferation include cyclin M3, replication factor 3, signal-induced proliferation-associated gene 1, osteonectin, clusterin, etc clearly indicating a growth-arrested phenotype for the differentiating BeWo cells. Trophoblastic differentiation associated genes included adipose differentiation-related protein, GADD45A, PPAR binding protein, galectin 3, tubulins, collagen, stathmin, etc. The p53 tumor suppressor protein plays a major role in cellular response to DNA damage and other genomic aberrations. Activation of p53 can lead to either cell cycle arrest or DNA repair or apoptosis. Although we did not observe any change in the p53 mRNA levels, the total protein level as well the phosphorylation status of p53 was up regulated upon differentiation. We confirmed the down regulation of Cyclin D1, D2 and PCNA in differentiated cells and up regulation of CDK inhibitors, P27kip1, P21cip1which are p53 induced genes by RT-PCR and Western blot analysis. Phosphorylation of ser 20 leads to reduced interaction of p53 with its negative regulator MDM2. MDM2 inhibits the accumulation of p53 by targeting it for ubiquitination and proteosomal degradation. Analysis for the phosphorylated status of p53 revealed that specifically the ser 20 phosphorylated p53, was increased upon differentiation. Phosphorylation of ser-392 has been reported to influence the growth repressor function, DNA binding and transcriptional activation of p53 and in agreement with this, western blot analysis revealed an increase in the ser-392 phosphorylated p53. These results suggest that p53, a nuclear protein regulating several genes involved in proliferation and differentiation is playing a pivotal role in growth arrest during trophoblast differentiation. We also noticed that several components of the apoptotic cascade are differentially expressed in cytotrophoblast and the syncytiotrophoblasts layer, and these changes appear to be associated with the stage of apoptosis. Apoptosis is involved in the removal of aging syncytiotrophoblasts and it also promotes cytotrophoblast fusion and formation of the syncytial layer. We found that various apoptosis related genes are up regulated and anti apoptotic genes suppressed following differentiation in our micro array analysis. We identified the involvement of p53 in this process also and chapter 4 deals with this aspect. Genes which regulate the invasive behaviour of trophoblasts which include MMP2, cathepsin K, cystatin N, SLPI and cysterine-rich angiogenic inducer 61, etc. were found to be up regulated following differentiation in our micro array analysis, which establishes these differences in gene expression reflects the physiological changes that occur during placentation. The Co-ordinated regulation of ptoteases and protease inhibitors I (for example SLPI, cystatin B and MMP2) suggests that these genes play an important role in the regulation trophoblast invasion at the uterine-placenta interface in vivo. Our studies revealed that one of the transcripts,namely, SLPI(Secretory leukocyte protease inhibitor) was robustly up regulated as assessed in DDRT-PCR, micro-array, Northern blot and RT-PCR analysis. Considering its importance in implantation, placentation and maintenance of pregnancy several aspects of this multifunctional protein were studied in detail and the results are presented in CHAPTER 5. Studies on the regulation of this transcript in Be-Wo cells revealed that SLPI mRNA is regulated by progesterone in Be-Wo cells. The up regulation of SLPI mRNA by progesterone was specifically inhibited by Progesterone receptor antagonist, RU 486 and estradiol 17β did not have any effect on the expression of SLPI mRNA expression in BeWo cells. The absence of regulation of SLPI by estradiol in BeWo cells was also established by the fact that simultaneous addition of progesterone and aromatase inhibitor, fadrazole did not block the increase in SLPI expression. Interestingly in vivo and in vitro studies using rat uterine minces and rat epithelial cells revealed that SLPI mRNA is regulated by Estradiol 17β and the effect is specifically inhibited by estrogen receptor antagonists such as ICI 182780, Tamoxifen, and Centchorman. Promoter analysis of rat and human SLPI revealed the absence of a consensus progesterone responsive element (PRE) in human and estrogen responsive element (ERE) in rat, suggesting the possibility of a non-genomic action of progesterone or estrogen in the induction of SLPI mRNA. This was confirmed by the observation that induction of SLPI mRNA could be effectively blocked by the addition of Staurosporine, an inhibitor of protein kinase C along with progesterone and estrogen to either BeWo cells or rat uterine epithelial cells. These results suggest that the non-genomic action of steroid hormones may be involved in the induction of SLPI. In the present study, we have also identified the intracellular signaling pathway that regulates SLPI gene expression by using various protein kinase inhibitors. We have also shown that activation of MAP kinase pathway upon progesterone treatment and the involvement of protein kinases in this activation, permitting us to conclude the non genomic action of progesterone in induction of SLPI mRNA in BeWo cells. The results of these studies are presented in detail in Chapter 5. The observation that SLPI expression is markedly increased during differentiation and differentially regulated by progesterone and estradiol, and induction by non genomic pathway prompted us to undertake studies to investigate its role during differentiation. This was accomplished by using SiRNA to silence the expression of SLPI in Forskolin induced differentiating BeWo cells and the results of this study are presented in CHAPTER 6. Different concentrations and combinations of oligos were used to silence the SLPI gene and we found that effective knockdown (>80%) was achieved with SiRNA concentrations ranging from 5-25nM. A combination of oligos also increased the knockdown from 50% to 90% as assessed by RT-PCR and western blot analysis for mRNA and protein levels of SLPI respectively. We found that inhibition of SLPI expression by SiRNA also inhibited the morphological differentiation of BeWo cells. Functionally this was reflected, by increase in the protease activity as assessed by gelatin zymography. It should be noted that SLPI is a protease inhibitor; it inhibits a variety of proteases, including proteases from neutrophils, pancreatic acinar cells and mast cells and SLPI present in the syncytiotrophoblast may have a crucial role in controlling protease activity associated with invasiveness and differentiation. Inhibition of differentiation by silencing the expression of SLPI provides an opportunity to monitor the changes in gene expression where in a single gene has been silenced in contrast to the model employed in chapter 4. We carried out microarray analysis using control (Forskolin treated) and SLPI silenced (Forskolin treated) samples. The results revealed that proliferation and differentiation, apoptosis and inflammatory pathways genes are affected due to SLPI silencing and the results of this study are presented in CHAPTER 7. We confirmed the changes in gene expression by semi quantitative RT-PCR analysis of the some important genes in each pathway. A comparison of the results obtained with that of our earlier microarray analysis which is described in chapter 4 revealed that the changes in levels of expression of the genes involved in cell proliferation, differentiation, apoptosis and inflammation were completely reversed after silencing the expression of SLPI. We have presented in chapter 5 the importance of MAP kinase pathway in Forskolin induced differentiation and the activation of this pathway when SLPI expression is increased following progesterone treatment. Interestingly after silencing the expression of SLPI we found that MAP kinase pathway is affected. It was observed that silencing of SLPI expression resulted in inhibition of activation of MAP kinase as assessed by the phosphorylation status by ELISA and no activation of MAP kinase was observed in SLPI silenced Forskolin treated cells. CHAPTER 8 provides a general discussion of the results obtained in the present study in the light of current understanding the type of genes involved, changes during human trophoblastic proliferation and differentiation and the key players during this process. This chapter also brings out the importance of SLPI during trophoblastic differentiation, placentation, implantation and its regulation by steroid hormones. The highlights and salient features of the present study are summarized in this chapter. In CONCLUSION, the present investigation has led to the identification of specific genes involved in trophoblast differentiation, human placental growth and development. Also evident from this study is the usefulness of the trophoblastic cell culture system for the study of cellular differentiation. We have attempted to relate the gene expression changes to physiological changes that occur during placentation, implantation and pregnancy. Many of the regulatory events that we have described during human trophoblastic differentiation, may not only be restricted to these cells, but may represent common principles/features of cellular differentiation in general. Loss of differentiation is a wide-spread feature of tumor progression, and frequently accompanies aggressive neoplastic behavior. Our studies provide unequivocal evidence to support cellular differentiation as a natural barrier to malignant transformation. Most importantly we have shown that silencing of a single gene can disrupt this differentiation process and the importance of SLPI during differentiation process perse.

Cell Differentiation

BeWo Choriocarcinoma Cells

Trophoblast Differentiation

Gene Expression

Placentation

Cell Physiology

Uso de microalgas com potencial para produção de biodiesel e mitigação de impactos ambientais

Sassi , Patrícia Giulianna Petraglia

29 April 2016

Submitted by Cristhiane Guerra (cristhiane.guerra@gmail.com) on 2017-01-26T13:46:12Z No. of bitstreams: 1 arquivototal.pdf: 2351125 bytes, checksum: 8c803897c206bd195b74d9a1414c0a1a (MD5) / Made available in DSpace on 2017-01-26T13:46:12Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 2351125 bytes, checksum: 8c803897c206bd195b74d9a1414c0a1a (MD5) Previous issue date: 2016-04-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Microalgae have been the focus of great interest for the biofuels production due to its enormous capacity to produce biomass, and because many species produce fatty acids in amounts many times the various oleaginous plants. Many microalgae also act as efficient bioremediators domestic and industrial residues, so integrated cultivation of promising microalgae for biofuels coupled to wastewater treatment systems can provide several benefits including cost reductions in effluents treatment and biomass microalgal production, cheapening the culture, promoting nutrient removal and minimizing environmental impacts. This research aimed to evaluate the effectiveness of regional microalgae act in the bioremediation of three types of effluents: biodiesel washing water, shrimp wastewater and agricultural drainage water using potentially promising species for the production of biodiesel that can grow in these effluents as a culture medium . Were used 12 isolated species of microalgae various aquatic environments in northeastern Brazil with 11 freshwater and 1 marine. The selection of species was made considering those which produce substantial amounts of fatty acids, with some even superior to soy. The experiments were performed in chambre culture (25 ± 1 ° C, photoperiod of 12h) in balloons 6L capacity with continuous aeration. The growth of the species under the conditions tested was accompanied by cell counts and measurement of fluorescence in vivo and the physiological responses by flow cytometry. In the effluent were determined NO3, NO2, PO4, pH, COD, turbidity, electrical conductivity and total solids using analytical procedures and/or multiparameter probe. In biodiesel washing water 11 species were tested, only two of which showed good growth. Of these, Monoraphidium contortum was selected for the bioremediation tests due to its higher capacity for growth and be the second species with a higher content of fatty acids. It was found that the species reduces the concentration of NO3, PO4, and COD in percentages of 25.8%, 7.2% and 31.2%, respectively. In shrimp farming water the genus Amphora sp. it showed considerable growth, but lower than the control, but with higher production lipids. Removal PO4, NO3 and NO2 in this species in this effluent was 73.357%, 72.572% and 66.667%, respectively. In agricultural drainage water were tested of which 11 species. Monoraphidium contortum was selected for the bioremediation test and biomass production and yield of the final number of cells in this experimental condition were lower than the control. In this kind effluent removed approximately 73% and 100% for respectively NO3 and PO4. Comparisons of physiological responses showed cell concentrations, florescence chlorophyll and activity of higher esterase in control and increased production of lipids in the drainage water The data show it is possible to use these effluents in the cultivation of microalgae important for biodiesel production with effective reduction of nutrients present in wastewater and that, depending on the species, the effluent may offer favorable conditions for increased production of lipids. However, microalgal cultures in these effluents can be double interest: to minimize environmental impact and producing microalgal biomass that can be used to produce biodiesel, or other byproducts of interest to the biotechnology, thereby reducing production costs in mass culture. / As microalgas têm sido foco de grande interesse para a produção de biocombustíveis devido a sua enorme capacidade de produzir biomassa, e pelo fato de muitas espécies produzirem ácidos graxos em quantidades muitas vezes superiores à várias oleaginosas. Muitas microalgas também atuam como eficientes biorremediadores de resíduos domésticos e agroindustriais, de maneira que sistemas integrados de cultivo de microalgas promissoras para a produção de biocombustíveis acoplados ao tratamento de efluentes podem apresentar vários benefícios incluindo redução de custos no tratamento de águas residuais e produção de biomassa microalgal, barateando os cultivos, promovendo remoção de nutrientes e minimizando impactos ambientais. Esta pesquisa visou avaliar a efetividade de microalgas regionais atuarem na biorremediação de três tipos de efluentes: água de lavagem de biodiesel, efluente de carcinicultura e água de drenagem agrícola, utilizando espécies potencialmente promissoras à produção de biodiesel que podem crescer nesses efluentes como meio de cultura. Foram utilizadas 12 espécies de microalgas isoladas de vários ambientes aquáticos do Nordeste do Brasil sendo 11 dulcícolas e uma marinha. A seleção das espécies foi feita considerando-se aquelas que produzem substanciais quantidades de ácidos graxos, com algumas inclusive superiores à soja. Os experimentos foram realizados em câmara de cultura climatizada (25 ± 1 ºC, fotoperíodo de 12h) em balões de 6L de capacidade com aeração contínua. O crescimento das espécies nas condições testadas foi acompanhado por contagens celular e medidas da fluorescência in vivo e as respostas fisiológicas por citometria de fluxo. Nos efluentes foram determinados os teores de NO3, NO2, PO4, pH, DQO, turbidez, condutividade elétrica e sólidos totais usando procedimentos analíticos e/ou sonda multiparâmetros. Em água de lavagem de biodiesel foram testadas 11 espécies, das quais apenas duas apresentaram bom crescimento. Destas, Monoraphidium contortum foi selecionada para os testes de biorremediação por apresentar maior capacidade de crescimento e ser a segunda espécie com maior teor de ácidos graxos. Constatou-se que esta espécie reduz as concentrações de NO3, PO4, e DQO nas porcentagens de 25,8%, 7,2% e 31,2%, respectivamente. Em água de carcinicultura o gênero Amphora sp. mostrou crescimento considerável, porém inferior ao controle com produção de lipídeos superior. A remoção de PO4, NO3 e NO2 por esta espécie nesse efluente foi de 73,357%, 72,572% e 66,667%, respectivamente. Em água de drenagem agrícola foram testadas 11 espécies das quais M. contortum foi selecionada para o ensaio de biorremediação e sua produção de biomassa e o rendimento final em número de células nesta condição experimental foram inferiores ao controle. Neste efluente essa espécie removeu aproximadamente 73% de NO3 e 100% de PO4. As comparações das respostas fisiológicas demonstraram concentrações celulares, florescência da clorofila e atividade da esterase mais elevadas no controle e maior produção de lipídeos no efluente. Os dados mostram ser possível a utilização desses efluentes no cultivo de microalgas importantes à produção de biodiesel com reduções efetivas dos nutrientes presentes na água residual e que, dependendo da espécie, os efluentes podem oferecer condições favoráveis a uma maior produção de lipídeos. Contudo, os cultivos de microalgas nesses efluentes podem ter duplo interesse: minimizar impactos ambientais e produzir biomassa microalgal que pode ser usada para produção de biodiesel ou outros coprodutos de interesse à biotecnologia, reduzindo assim os custos de produção em cultivos em massa.

Ácidos Graxos

Citometria de Fluxo

Fisiologia Celular

Meio Alternativo

Fatty Acids

Flow Cytometer

Cell Physiology

Alternative Medium

ENGENHARIAS

Mesures non invasives de l'activité electrophysiologique des cellules sensorielles et des neurones auditifs. Applications au diagnostic de pathologies de l'oreille interne. / Noninvasive measurements of the electrophysiological activity of sensory cells and auditory neurons. Applications to the diagnosis of diseases of the inner ear.

Gerenton, Grégory

07 December 2015

Grâce à la miniaturisation de la technologie ainsi qu'a l'augmentation constante des capacités de calcul numérique, les méthodes objectives et les appareils de mesures de la physiologie auditive évoluent. C'est dans l'optique de créer de nouveaux outils diagnostics que la société Echodia a été créée en 2009. Celle-ci finance aujourd'hui mes recherches sous convention CIFRE.Les présents travaux proposent, dans une première partie, de présenter comment deux méthodes de mesures non invasives ont été mises en oeuvre pour être applicables au diagnostic de l'hydrops cochléaire. Les méthodes sont basées sur le fait que les réponses des cellules ciliées de la cochlée à des stimuli sonores dépendent de la position au repos de leur touffe de stéréocils. Or, l'hydrops cochléaire, l'une des principales caractéristiques de la maladie de Menière, est susceptible de venir perturber cet environnement. Une variation chimique ou mécanique de celui-ci peut ainsi être mise en évidence par différentes méthodes d'exploration objectives. La première est basée sur un enregistrement électrophysiologique. En étudiant le Potentiel de sommation (SP) de l'ÉlectroCochléoGraphie (ECochG), nous allons recueillir une image du tour basal de la cochlée. La deuxième méthode est basée sur un enregistrement acoustique dans le méat acoustique externe. En monitorant le déphasage des Produits de distorsion desoto-émissions acoustiques (DPOAE), nous allons enregistrer les réponses du tour apical de la cochlée.La deuxième partie est consacrée à une étude au cours de laquelle nous avons enregistré de manière concomitante le SP (basal) ainsi que le DPOAE (apical) chez 73 patients souffrant de vertiges de Menière, à proximité d'une attaque (n = 40) ou entre les attaques, sans symptômes cliniques (n = 33). Dans le cas des DPOAE, c'est la phase du produit de distorsion (PDA) à 2*f1-f2 qui a été étudiée en réponse à des sons stimulants de fréquence f1 = 1 kHz et f2 = 1,2 kHz. La puissance des deux fondamentaux a été fixée entre 70 et 75dB SPL en fonction du niveau du DPOAE. Le rapport entre SP et le Potentiel d’action global (AP) a, quant à lui, été mesuré de manière extra-tympanique en réponse à des clics de 95dB nHL. Ces deux mesures ont été effectuées plusieurs fois pendant un test de posture afin d'évaluer leur stabilité.Les limites normales de déphasage du DPOAE en réponse à la posture [-18 °, +38 °] ont été dépassées chez 75% des patients étant venus consulter à proximité d'une crise. Sur ces mêmes sujets, l'étude du ratio entre SP et AP a dépassé la valeur normale (<0,40) dans 60% des cas. De plus, chez les patients à proximité d'une crise de vertige, les deux types de mesures révèlent des fluctuations entre deux répétitions. Ces écarts mettent en évidence combien l'hydrops entrave le bon fonctionnement de la mécanique cochléaire. Le fait de constater des variations sur des échelles de temps aussi courtes pourrait expliquer la sensibilité imparfaite des tests diagnostics. En effet, les protocoles de mesure du SP ou des DPOAE nécessitent un moyennage des acquisitions qui, par définition, a tendance à niveler les fluctuations transitoires. / Thanks to technology miniaturization as well as digital computing abilities steadily increasing, objective measurement methods and their related devices evolve. Echodia company was created in 2009 with the goal to create new diagnostic tools. The company currently supports my research work through a CIFRE convention.The first part of this thesis presents two non-invasive measurement methods that have been implemented to the diagnosis of cochlear hydrops. The methods are based on the responses of cochlear hair cells to sound stimuli, depending themselves on the resting position of their stereocilia bundles. Cochlear hydrops, a hallmark of Meniere's disease, is likely to disturb this environment. A chemical or mechanical variation of this environment may be observed by various objective exploration methods. The first method is based on an electrophysiological recording. By studying the Summating Potential (SP) of the Electrocochleography (ECOG) we will register activity in the basal part of the cochlea. The second method is based on a sound recording in the external acoustic meatus. By monitoring the phase shifts of Distortion-Product OtoAcoustic Emissions (DPOAE), we will record the apical responses of the cochlea.The second part of this thesis focuses on a study in which we recorded concomitantly the SP (basal) and the DPOAE (apical) in 73 patients with Menière's disease, close to an attack (n = 40) or between attacks without clinical symptoms (n = 33). In the case of DPOAE, the phase at 2*f1-f2 has been studied in response to pure sinusoidal sounds at frequency f1 = 1 kHz and f2 = 1,2 kHz. The power of the two primary was set between 70 and 75dB SPL based on the level of the DPOAE. The SP to Action Potential (AP) ratio has been measured by extra-tympanic electrode in response to 95dB nHL clicks. These two measurements were performed several times during a postural test to evaluate their stability.The normal limit of the phase shift of the DPOAE during a postural test [-18 °, +38 °] was exceeded in 75% of patients near an attack. On these subjects, the study of the SP/AP ratio exceeded the normal value (<0.40) in 60% of cases. In addition, the two types of measurements made on patients near a vertigo attack reveal fluctuations between reiteration. These differences highlight how hydrops hinders the proper functioning of the cochlear mechanics. This short time scales fluctuations might explain the imperfect diagnostic sensitivity of SP and DPOAE tests, as averaging procedures would tend to level out transient fluctuations characteristic of hydrops.

Électrocochléographie,

Oto-émissions acoustiques

Physiologie des cellules ciliées,

Hydrops cochléaire

Endocochlear hydrops

Electrocochleography,

Otoacoustic emission

Hair cell physiology

617.51

Edmond Rogers Dissertation, Elucidating pathological correlations between traumatic brain injury and Alzheimer’s Disease

Edmond Rogers (15212116)

19 April 2023

<p>  </p> <p>Traumatic Brain Injuries (TBI) are a major cause of disability and death in the United States. One of the greatest consequences of the disease is the resulting long-term damage, especially in milder injury cases where the damage is initially subclinical and thus lacking acutely observable manifestations that over time can compound significantly. Among these chronic issues, Alzheimer’s Disease (AD) is one of the most serious. While multiple studies demonstrate an increased likelihood of developing neurodegenerative diseases in response to TBI, the underlying mechanisms remain undefined and no current treatment options are available. Multiple hypotheses have been postulated based on various animal and clinical models, which have contributed a great deal to our current knowledge base and implicated several targets of interest in this pathway (i.g. oxidative stress, inflammation, disruptions in proteostasis). While extremely valuable, these <em>in vivo</em> procedures and analyses are physiologically and ethically complex: there is currently no model capable of separating and visualizing TBI-induced sub-cellular damage in the moments (seconds) immediately following injury, and the subsequent associated long-term changes (AD). In addition, no mechanistic study has been performed to link mechanical-trauma independently with neurodegeneration initiation via protein aggregation. It is clear that additional investigative tools are needed to rectify these intricate issues, and while <em>in vitro </em>methodologies generally offer the type of resolution required, no such model replicates these phenomena. Therefore, we introduce the “TBI-on-a-chip” <em>in vitro </em>concussive model, with a series of concomitant targeted-experiments to address this urgent, currently unmet need. This dissertation work describes the development of our cellular trauma model, featuring a multi-disciplinary approach that provides investigatory opportunities into cellular mechanics, molecular biology, functional alterations (electrophysiology), and morphology, in both primary and secondary injury. Utilizing this model, we directly observe evidence of impact-induced electrical/functional and biochemical consequences, in addition to isolating oxidative stress as a key, contributing component. Taken together, these collective efforts suggest that oxidative stress may be a viable target for both acute and chronic potential therapeutic interventions.</p>

Cell physiology

Biofabrication

Biomechanical engineering

Computational physiology

Neural engineering

Traumatic Brain Injury

Neurodegeneration

Alzheimer's Disease

Electrophysiology

in vitro

Rat umbilical cord derived stromal cells maintain markers of pluripotency: Oct4, Nanog, Sox2, and alkaline phosphatase in mouse embryonic stem cells in the absence of LIF and 2‐MCE

Hong, James S.

January 1900

Master of Science / Department of Anatomy and Physiology / Mark L. Weiss / When mouse embryonic stem cells (ESCs) were grown on mitotically inactivated rat umbilical cord-derived stromal cells (RUCs) in the absence of leukemia inhibitory factor (LIF) and 2-mercaptoethanol (2-MCE), the ESCs showed alkaline phosphatase (AP) staining. ESCs cultured on RUCs maintain expression of the following pluripotency genes, Nanog, Sox2 and Oct4 and grow at a slower rate when compared with ESCs grown on mitotically inactivated mouse embryonic fibroblasts (MEFs). Differences in gene expression for the markers of pluripotency Oct4, Sox2 and Nanog, AP staining and ESC growth rate were also observed after LIF and 2-MCE were removed from the co-cultures. Reverse transcriptase polymerase chain reaction (RT-PCR) suggested differences in Sox2 and Nanog mRNA expression, with both genes being expressed at higher levels in the ESCs cultured on RUCs in the absence of LIF/2-MCE as compared to ESCs cultured on MEFs. Semi-quantitative RT-PCR indicated that Nanog expression was higher when ESCs were grown on RUCs in the absence of LIF and 2-MCE as compared to MEFs in the same treatment conditions. Bisulfite-mediated methylation analysis of the Nanog proximal promoter suggested that the maintenance of Nanog gene expression found in ESCs grown on RUCs after culture for 96 hours in the absence of LIF/2-MCE may be due to prevention of methylation of the CpG dinucleotides in the Nanog proximal promoter as compared to ESCs grown on MEFs. Thus, RUCs may release factors into the medium that maintain the pluripotent state of mouse ESCs in the absence of LIF and 2-MCE.

Mouse embryonic stem cell physiology

epigenetic regulation of pluripotency

cell culture

Biology, Cell (0379)

Biology, Molecular (0307)

Biology, Veterinary Science (0778)

Molecular and Genetic Strategies to Enhance Functional Expression of Recombinant Protein in Escherichia coli

Narayanan, Niju

January 2009

The versatile Escherichia coli facilitates protein expression with relative simplicity, high cell density on inexpensive substrates, well known genetics, variety of expression vectors, mutant strains, co-overexpression technology, extracytoplasmic secretion systems, and recombinant protein fusion partners. Although, the protocol is rather simple for soluble proteins, heterologous protein expression is frequently encountered by major technical limitations including inefficient translation, formation of insoluble inclusion bodies, lack of posttranslational modification mechanisms, degradation by host proteases, and impaired cell physiology due to host/protein toxicity, in achieving functional expression of stable, soluble, and bioactive protein.. In this thesis, model protein expression systems are used to address the technical issues for enhancing recombinant protein expression in E. coli. When yellow fluorescence protein (YFP) was displayed on E. coli cell surface, the integrity of the cell envelope was compromised and cell physiology was severely impaired, resulting in poor display performance, which was restored by the coexpression of Skp, a periplasmic chaperone. On the basis of monitoring the promoter activities of degP, rpoH, and cpxP under various culture conditions, it was demonstrated that the cell-surface display induced the σE extracytoplasmic stress response, and PdegP::lacZ was proposed to be a suitable “sensor” for monitoring extracytoplasmic stress. Intracellular proteolysis has been recognized as one of the key factors limiting recombinant protein production, particularly for eukaryotic proteins heterologously expressed in the prokaryotic expression systems of E. coli. Two amino acids, Leu149 and Val223, were identified as proteolytically sensitive when Pseudozyma antarctica lipase (PalB) was heterologously expressed in Escherichia coli. The functional expression was enhanced using the double mutant for cultivation. However, the recombinant protein production was still limited by PalB misfolding, which was resolved by DsbA coexpression. The study offers an alternative genetic strategy in molecular manipulation to enhance recombinant protein production in E. coli. To overcome the technical limitations of protein misfolding, ineffective disulfide bond formation, and protein instability associated with intracellular proteolysis in the functional expression of recombinant Pseudozyma antarctica lipase B (PalB) in Escherichia coli, an alternative approach was explored by extracellular secretion of PalB via two Sec-independent secretion systems, i.e. the α-hemolysin (Type I) and the modified flagellar (Type III) secretion systems, which can export proteins of interest from the cytoplasm directly to the exterior of the cell. Bioactive PalB was expressed and secreted extracellularly either as HlyA fusion (i.e. PalB-HlyA via Type I system) or an intact protein (via Type III system) with minimum impact on cell physiology. However, the secretion intermediates in the intracellular fraction of culture samples were non-bioactive even though they were soluble, suggesting that the extracellular secretion did mediate the development of PalB activity. PalB secretion via Type I system was fast with higher specific PalB activities but poor cell growth. On the other hand, the secretion via Type III system was slow with lower specific PalB activities but effective cell growth. Functional expression of lipase from Burkholderia sp. C20 (Lip) in various cellular compartments of Escherichia coli was explored. The poor expression in the cytoplasm was improved by several strategies, including coexpression of the cytoplasmic chaperone GroEL/ES, using a mutant E. coli host strain with an oxidative cytoplasm, and protein fusion technology. Fusing Lip with the N-terminal peptide tags of T7PK, DsbA, and DsbC was effective in boosting the solubility and biological activity. Non-fused Lip or Lip fusions heterologously expressed in the periplasm formed insoluble aggregates with a minimum activity. Biologically active and intact Lip was obtained upon the secretion into the extracellular medium using the native signal peptide and the expression performance was further improved by coexpression of the periplasmic chaperon Skp. The extracellular expression was even more effective when Lip was secreted as a Lip-HlyA fusion via the α-hemolysin transporter. Finally, Lip could be functionally displayed on the E. coli cell surface when fused with the carrier EstA.

Escherichia coli

recombinant protein expression

cell-surface display

protein secretion

inclusion bodies

proteolysis

mutagenesis

chaperone

fusion tags

cell physiology

stress pathways

Chemical Engineering

Molecular and Genetic Strategies to Enhance Functional Expression of Recombinant Protein in Escherichia coli

Narayanan, Niju

January 2009

The versatile Escherichia coli facilitates protein expression with relative simplicity, high cell density on inexpensive substrates, well known genetics, variety of expression vectors, mutant strains, co-overexpression technology, extracytoplasmic secretion systems, and recombinant protein fusion partners. Although, the protocol is rather simple for soluble proteins, heterologous protein expression is frequently encountered by major technical limitations including inefficient translation, formation of insoluble inclusion bodies, lack of posttranslational modification mechanisms, degradation by host proteases, and impaired cell physiology due to host/protein toxicity, in achieving functional expression of stable, soluble, and bioactive protein.. In this thesis, model protein expression systems are used to address the technical issues for enhancing recombinant protein expression in E. coli. When yellow fluorescence protein (YFP) was displayed on E. coli cell surface, the integrity of the cell envelope was compromised and cell physiology was severely impaired, resulting in poor display performance, which was restored by the coexpression of Skp, a periplasmic chaperone. On the basis of monitoring the promoter activities of degP, rpoH, and cpxP under various culture conditions, it was demonstrated that the cell-surface display induced the σE extracytoplasmic stress response, and PdegP::lacZ was proposed to be a suitable “sensor” for monitoring extracytoplasmic stress. Intracellular proteolysis has been recognized as one of the key factors limiting recombinant protein production, particularly for eukaryotic proteins heterologously expressed in the prokaryotic expression systems of E. coli. Two amino acids, Leu149 and Val223, were identified as proteolytically sensitive when Pseudozyma antarctica lipase (PalB) was heterologously expressed in Escherichia coli. The functional expression was enhanced using the double mutant for cultivation. However, the recombinant protein production was still limited by PalB misfolding, which was resolved by DsbA coexpression. The study offers an alternative genetic strategy in molecular manipulation to enhance recombinant protein production in E. coli. To overcome the technical limitations of protein misfolding, ineffective disulfide bond formation, and protein instability associated with intracellular proteolysis in the functional expression of recombinant Pseudozyma antarctica lipase B (PalB) in Escherichia coli, an alternative approach was explored by extracellular secretion of PalB via two Sec-independent secretion systems, i.e. the α-hemolysin (Type I) and the modified flagellar (Type III) secretion systems, which can export proteins of interest from the cytoplasm directly to the exterior of the cell. Bioactive PalB was expressed and secreted extracellularly either as HlyA fusion (i.e. PalB-HlyA via Type I system) or an intact protein (via Type III system) with minimum impact on cell physiology. However, the secretion intermediates in the intracellular fraction of culture samples were non-bioactive even though they were soluble, suggesting that the extracellular secretion did mediate the development of PalB activity. PalB secretion via Type I system was fast with higher specific PalB activities but poor cell growth. On the other hand, the secretion via Type III system was slow with lower specific PalB activities but effective cell growth. Functional expression of lipase from Burkholderia sp. C20 (Lip) in various cellular compartments of Escherichia coli was explored. The poor expression in the cytoplasm was improved by several strategies, including coexpression of the cytoplasmic chaperone GroEL/ES, using a mutant E. coli host strain with an oxidative cytoplasm, and protein fusion technology. Fusing Lip with the N-terminal peptide tags of T7PK, DsbA, and DsbC was effective in boosting the solubility and biological activity. Non-fused Lip or Lip fusions heterologously expressed in the periplasm formed insoluble aggregates with a minimum activity. Biologically active and intact Lip was obtained upon the secretion into the extracellular medium using the native signal peptide and the expression performance was further improved by coexpression of the periplasmic chaperon Skp. The extracellular expression was even more effective when Lip was secreted as a Lip-HlyA fusion via the α-hemolysin transporter. Finally, Lip could be functionally displayed on the E. coli cell surface when fused with the carrier EstA.

Escherichia coli

recombinant protein expression

cell-surface display

protein secretion

inclusion bodies

proteolysis

mutagenesis

chaperone

fusion tags

cell physiology

stress pathways

Chemical Engineering