Perceptions of student section leaders in selected collegiate marching bands

Warfield, Duane Allen

01 December 2013

The purpose of this study was to examine student section leaders and their leadership practices in collegiate marching band organizations. Through the use of the Student Leadership Practices Inventory (SLPI), the study surveyed members and staff of five collegiate marching bands: band directors, assistant band directors, graduate teaching assistants, student leaders, and student followers (N=447). In addition to the SLPI, a Marching Band Leadership Practices Questionnaire was completed by the marching band directors to gain insight about each marching band organization used in this study and to determine whether the marching bands practiced distributed leadership. The SLPI assessment tool measured five leadership practices to identify exceptional student leaders through a 360-degree feedback survey process: Challenge the Process, Inspire a Shared Vision, Enable Others to Act, Model the Way, and Encourage the Heart. Increased understanding of student leaders and the five leadership practices in marching band could inform the organization's process of selecting leaders. Student follower evaluations indicated a significant difference among the five practices, showing that Enable Others to Act was the least effective practice and Model the Way was the most effective practice for student leaders. Independent Samples t-tests of Student Leader vs. Student Follower SLPI scores showed that student leaders often perceived themselves displaying higher levels of leadership practice than did their student followers. Results indicated a significant difference for student follower characteristics and perceptions of student leaders: gender, music major status, and years of participation in a collegiate marching band. Results from the Marching Band Leadership Practices Questionnaire indicated that the student leaders in all five universities interact together with other leaders in a marching band, which is an important feature of distributed leadership.

Band

Leader

Marching

Perceptions

SLPI

Student

Music

O papel da concentração salivar e sérica da proteína SLPI (inibidor de protease secretada por leucócitos) na progressão do carcinoma epidermoide da cavidade bucal / The Role of Tumor Expression and Salivary and Serum Concentration of Protein SLPI (Protein Inhibitor Secreted by Leukocytes) in Progression of Squamous Cell Carcinoma of the Oral Cavity

Silva, Tarsila Guimarães Vieira da

27 February 2018

Introdução: A avaliação dos processos inflamatórios em pacientes com tumores de boca é assunto atual na literatura científica. Poucos estudos, entretanto avaliaram a expressão da Proteína Inibidora de Protease Secretada por Leucócito (SLPI), marcador específico de inflamação, em pacientes com câncer de boca Objetivos: 1.Descrever a frequência da concentração de SLPI salivar e sérica em pacientes com câncer bucal. 2. Avaliar a associação dessas concentrações com características clínicas, sociodemográficas e de estilo de vida. Metodologia: Realizou-se a quantificação de SLPI em soro por meio do teste ELISA em pacientes com carcinoma epidermoide da cavidade bucal atendidos no Hospital Heliópolis da Secretaria de Estado da Saúde do Estado de São Paulo no período entre 2011 e 2017. Dados relativos a estadiamento do tumor, características sócio demográficas dos pacientes, hábitos alimentares e estilo de vida foram coletados por meio de prontuários médicos e questionários aplicados aos pacientes. Foram realizados teste de correlação de Spearman e teste qui-quadrado para testar possíveis associações. Resultados: Foram encontradas: correlação positiva entre SLPI em saliva maços-ano de tabagismo (p=0,03) e correlação negativa entre SLPI bochecho para frequência no consumo de carne vermelha (p=0,01). A quantificação de SLPI em soro por quartis apresentou associação com significância estatística para escolaridade (maior proporção de pessoas com ensino médio completo no quartil mais baixo de SLPI), frequência de escovação dentária (maior proporção de pessoas que escovam os dentes mais do que uma vez por dia no quartil com maior SLPI) e estadiamento patológico (2º quartil com maior proporção de estadiamentos 3 e 4). Na avaliação de SLPI em saliva e bochecho, houve associação com o consumo de carne vermelha, havendo indivíduos com consumo mais baixo apenas nos quartis mais superiores de SLPI Conclusão: Este estudo concorda com a hipótese de que o SLPI em pacientes com câncer de boca se relaciona com estilo de vida e estadiamento da lesão. / Introduction: The evaluation of inflammatory processes in patients with oral tumors is a current topic in the scientific literature. Few studies, however, have evaluated the expression of the Leukocyte Secreted Protein Inhibitor Protein (SLPI), a specific marker of inflammation in patients with oral cancer. Objectives: 1. To describe the frequency of salivary and serum SLPI in patients with oral cancer. 2. To evaluate the association of these concentrations with clinical, sociodemographic and lifestyle characteristics. Methodology: Serum SLPI was quantified by ELISA in patients with squamous cell carcinoma of the oral cavity treated at the Hospital Heliópolis of the State Health Department of the State of São Paulo in the period between 2011 and 2017. Data on staging of the tumor, socio-demographic characteristics of patients, eating habits and lifestyle were collected through medical records and questionnaires applied to patients. Spearman\'s correlation test and chi-square test were performed to test possible associations. Results: There was a positive correlation between SLPI in saliva and malnutrition SLPI (p = 0.03). The quantification of SLPI in serum by quartiles was associated with statistical significance for schooling (higher proportion of people with complete secondary education in the lowest quartile of SLPI), frequency of toothbrushing (a higher proportion of people brushing their teeth more than once per day in quartile with higher SLPI) and pathological staging (2nd quartile with a higher proportion of stages 3 and 4). In the evaluation of SLPI in saliva and mouthwash, there was an association with red meat consumption, with individuals with lower consumption only in the higher quartiles of SLPI. Conclusion: This study agrees with the hypothesis that SLPI in patients with oral cancer is related to lifestyle and staging of the lesion.

Câncer de boca

Carcinoma Epidermoide

Metástase

Metastasis

Oral Cancer

SLPI

SLPI

Squamous Cell Carcinoma

O papel da concentração salivar e sérica da proteína SLPI (inibidor de protease secretada por leucócitos) na progressão do carcinoma epidermoide da cavidade bucal / The Role of Tumor Expression and Salivary and Serum Concentration of Protein SLPI (Protein Inhibitor Secreted by Leukocytes) in Progression of Squamous Cell Carcinoma of the Oral Cavity

Tarsila Guimarães Vieira da Silva

27 February 2018

Introdução: A avaliação dos processos inflamatórios em pacientes com tumores de boca é assunto atual na literatura científica. Poucos estudos, entretanto avaliaram a expressão da Proteína Inibidora de Protease Secretada por Leucócito (SLPI), marcador específico de inflamação, em pacientes com câncer de boca Objetivos: 1.Descrever a frequência da concentração de SLPI salivar e sérica em pacientes com câncer bucal. 2. Avaliar a associação dessas concentrações com características clínicas, sociodemográficas e de estilo de vida. Metodologia: Realizou-se a quantificação de SLPI em soro por meio do teste ELISA em pacientes com carcinoma epidermoide da cavidade bucal atendidos no Hospital Heliópolis da Secretaria de Estado da Saúde do Estado de São Paulo no período entre 2011 e 2017. Dados relativos a estadiamento do tumor, características sócio demográficas dos pacientes, hábitos alimentares e estilo de vida foram coletados por meio de prontuários médicos e questionários aplicados aos pacientes. Foram realizados teste de correlação de Spearman e teste qui-quadrado para testar possíveis associações. Resultados: Foram encontradas: correlação positiva entre SLPI em saliva maços-ano de tabagismo (p=0,03) e correlação negativa entre SLPI bochecho para frequência no consumo de carne vermelha (p=0,01). A quantificação de SLPI em soro por quartis apresentou associação com significância estatística para escolaridade (maior proporção de pessoas com ensino médio completo no quartil mais baixo de SLPI), frequência de escovação dentária (maior proporção de pessoas que escovam os dentes mais do que uma vez por dia no quartil com maior SLPI) e estadiamento patológico (2º quartil com maior proporção de estadiamentos 3 e 4). Na avaliação de SLPI em saliva e bochecho, houve associação com o consumo de carne vermelha, havendo indivíduos com consumo mais baixo apenas nos quartis mais superiores de SLPI Conclusão: Este estudo concorda com a hipótese de que o SLPI em pacientes com câncer de boca se relaciona com estilo de vida e estadiamento da lesão. / Introduction: The evaluation of inflammatory processes in patients with oral tumors is a current topic in the scientific literature. Few studies, however, have evaluated the expression of the Leukocyte Secreted Protein Inhibitor Protein (SLPI), a specific marker of inflammation in patients with oral cancer. Objectives: 1. To describe the frequency of salivary and serum SLPI in patients with oral cancer. 2. To evaluate the association of these concentrations with clinical, sociodemographic and lifestyle characteristics. Methodology: Serum SLPI was quantified by ELISA in patients with squamous cell carcinoma of the oral cavity treated at the Hospital Heliópolis of the State Health Department of the State of São Paulo in the period between 2011 and 2017. Data on staging of the tumor, socio-demographic characteristics of patients, eating habits and lifestyle were collected through medical records and questionnaires applied to patients. Spearman\'s correlation test and chi-square test were performed to test possible associations. Results: There was a positive correlation between SLPI in saliva and malnutrition SLPI (p = 0.03). The quantification of SLPI in serum by quartiles was associated with statistical significance for schooling (higher proportion of people with complete secondary education in the lowest quartile of SLPI), frequency of toothbrushing (a higher proportion of people brushing their teeth more than once per day in quartile with higher SLPI) and pathological staging (2nd quartile with a higher proportion of stages 3 and 4). In the evaluation of SLPI in saliva and mouthwash, there was an association with red meat consumption, with individuals with lower consumption only in the higher quartiles of SLPI. Conclusion: This study agrees with the hypothesis that SLPI in patients with oral cancer is related to lifestyle and staging of the lesion.

Câncer de boca

Carcinoma Epidermoide

Metástase

SLPI

Metastasis

Oral Cancer

SLPI

Squamous Cell Carcinoma

The role of Secretory Leukocyte Protease Inhibitor (SLPI) in progranulin regulation and neurodegeneration

Toulson, Gregory

January 2013

Frontotemporal lobar degeneration (FTLD) is an early onset neurodegenerative disorder which selectively destroys frontal and temporal cortical neurones. The resulting damage leads to a range of language and behavioural deficits, however, episodic memory is generally maintained. Around 10% of FTLD cases are caused by progranulin gene mutations that lead to haploinsufficiency and reduced expression of progranulin. Secretory leukocyte protease inhibitor (SLPI) has been shown to have a key protective effect over progranulin, inhibiting enzymatic cleavage by neutrophil elastase. Previous work demonstrating this role of SLPI is largely from in vitro studies and scenarios with above-physiological SLPI concentrations. To ascertain a role for endogenous SLPI in the regulation of progranulin a murine SLPI knockout model was used and tonic progranulin measurements taken. No change in circulating progranulin levels were seen in SLPI null mice (at 6, 12 or 20 months of age) when compared to non-transgenic controls, though significant differences were observed between male and female SLPI null animals. Similarly, tissue (brain and lung) levels of progranulin were comparable between wild-type and SLPI null mice, despite the presence of active neutrophil elastase. Behavioural analysis of SLPI null mice revealed no major phenotype when compared to wild-type, over a range of behavioural tests. However primary neuronal cultures taken from SLPI null mice did display an elevated progranulin response to bacterial lipopolysaccharide (LPS). These data suggest that, although SLPI may play a role in progranulin regulation during an inflammatory event, it is unlikely to play a major role in progranulin regulation under basal conditions, as reported previously. Therefore under disease conditions regulation of extracellular progranulin is likely through other modulatory factors that have yet to be described.

616.89

Natural antimicrobials in pregnancy

Stock, Sarah J. E.

January 2008

Natural antimicrobials are peptides that are essential components of the innate immune system, providing broad-spectrum protection against bacteria, yeasts and some viruses. In addition to their innate immune activity, they exhibit properties suggesting they interact with the adaptive immune system. These functions imply they may be of particular importance in pregnancy. Intrauterine infection is responsible for approximately one third of cases of preterm labour, and normal labour is considered an inflammatory process, associated with leukocyte invasion of the uterine tissues and increased cytokine production. Little is known, however, about natural antimicrobial expression in pregnant reproductive tract. The aim of this thesis was thus to characterize natural antimicrobial production in pregnancy. The study focused on two main areas - the lower genital tract, comprised of the vagina and cervix; and the innermost fetal membrane, the amnion. In the lower genital tract, levels of natural antimicrobials were determined in samples of cervicovaginal secretions collected from pregnant women, using enzyme linked immunosorbance assay (ELISA). In addition Taqman quantitative PCR and ELISAs were used to investigate natural antimicrobial production by cell lines derived from endocervical, ectocervical and vaginal epithelium. It was found that elafin and secretory leucocyte protease inhibitor (SLPI) were found at high concentrations in cervicovaginal secretions, but levels were diminished in women with the common vaginal infection bacterial vaginosis (p<0.05). Cells derived from the vaginal epithelium expressed greater amounts of elafin than cervically derived cells. However, elafin and SLPI production could be stimulated in endocervical cells by the bacterial product lipopolysaccharide, a response that was not seen in the vaginal cell line. Natural antimicrobial production in the amnion was examined in tissue explants and primary cultured amnion cells, using a combination of Taqman PCR and ELISAs. In addition, cDNA microarray was carried out to investigate factors controlling amniotic antimicrobial production, and the involvement of signalling pathways was studied using specific pathway inhibitors. It was shown that the amnion expressed five antimicrobials: human beta defensins (HBD) 1, 2 and 3, SLPI and elafin. Expression of HBD2 was significantly upregulated following normal labour (p<0.05), with production in primary amnion epithelial cells dramatically increased by IL-1ß. The pattern of HBD2 expression in response to IL-1ß was biphasic, which suggested involvement of a secondary gene product. Several putative influential factors were identified by cDNA micorarray, including the NF-kappaB cofactor NFkappaBinhibitorζ. Its relationship to HBD2 was explored. The involvement of both NF-kappaB and mitogen activated protein (MAP) kinase p38 signalling appeared crucial in the response. This work has shown that natural antimicrobials are expressed by both the lower genital tract, where infections that are associated with preterm labour originate, and in the amnion, which is the fetus last line of defence to infection. They may have an important role in the prevention of infection associated preterm labour. Further characterization of these responses may increase understanding of the physiology, and pathophysiology of labour, and lead to strategies for the prevention of premature delivery.

572

Modulation of dendritic cells by human neutrophil elastase and its inhibitors in pulmonary inflammation

Roghanian, Ali

January 2007

Dendritic cells (DC) are sentinels of the immune system that display an extraordinary capacity to present antigen to naïve T cells and initiate immune responses. DCs are distributed throughout the lungs in the conducting airways of the tracheobronchial tree and in the parenchymal lung, and play a pivotal role in controlling the immune response to inhaled antigens. The respiratory surface is continually exposed to potentially injurious particulates and pathogenic organisms, to which tightly regulated innate and adaptive immunological responses are made. The airways are usually sterile in healthy individuals. However, patients with chronic obstructive pulmonary disease (COPD) and cystic fibrosis (CF) have increased susceptibility to microbial infections and increased neutrophil elastase (NE) in lung secretions. This thesis was designed to test the hypotheses that; (i) excess NE may result in a dysregulation of lung DCs function in pulmonary chronic diseases, and (ii) the natural NE inhibitors in the respiratory system are able to rescue the NE-mediated dysregulation of DCs and potentially enhance their antigen presenting activity. The data in this thesis demonstrate that purified human NE down-regulated murine bone marrow (BM)-derived DC co-stimulatory molecules (CSM; CD40, CD80 and CD86), which was due to its proteolytic activity. NE-treated LPS-matured DCs were less efficient at presenting ovalbumin (OVA) peptide to naïve OVAspecific transgenic (D011.10) T cells. In addition, immature DCs (iDC) simultaneously treated with LPS and NE failed to mature fully and produced significantly less IL-12 and TNF-α than DCs matured in the presence of LPS alone. Similarly, treatment of mature DC (mDC) with pooled and individual COPD and CF sputum samples caused a reduction in CD80 and CD86 levels (but not CD40) which positively correlated with the NE concentration present in the samples. The demonstration that NE could adversely affect DC phenotype and function suggested that augmentation of NE inhibitors could reverse this process and preserve DC function in inflammatory microenvironments. Over-expression of an NE specific inhibitor (elafin) in the lungs of mice (using either replication-deficient adenovirus [Ad] or elafin transgenic [eTg] mice) increased the number (immunofluorescence) and activation status (flow cytometric measurement) of CD11c+/MHCII+ lung DCs in in vivo models. Replication-deficient Ad vectors encoding NE inhibitors, namely elafin, secretory leukocyte protease inhibitor (SLPI) and α1-protease inhibitor (α1-PI), were also used to infect DCs in vitro, to further study the effect of these NE-inhibitors on DCs in isolation. These findings suggest that purified NE and NE-containing lung inflammatory secretions are powerful down-regulators of DC maturation, resulting in reduced capacity of these potent APCs to efficiently present antigens; whereas, NE inhibitors could boost immunity by increasing the activation state and/or number of DCs.

616.079

Inflammatory responses of gingival fibroblasts in the interaction with the periodontal pathogen Porphyromonas gingivalis

Palm, Eleonor

January 2015

No description available.

Porphyromonas gingivalis

fibroblasts

CXCL8

TGF-β1

IL-6

SLPI

IDO

c-JUN

PKC

p38

periodontitis

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