Effect of probiotics or high incubation temperature on gene expression and cell organization of the small intestine and yolk sac of chicks

Jia, Meiting

30 November 2021

The small intestine and yolk sac (YS) are important organs for nutrient absorption and innate immunity in chickens during the post-hatch or prehatch periods. These organs share a similar structure of epithelial cell-lined villi with tight junctions between adjacent cells. Probiotics have been reported to improve chicken growth performance and gut health including promotion of intestinal morphology. However, there are few studies that show the effect of probiotics on ontogeny of intestinal epithelial cells and antimicrobial peptides, or intestinal integrity in young healthy chicks. Heat stress during incubation was shown to increase mortality and decrease hatchability of chicks, while no studies have investigated the effect of heat stress on the integrity of the YS, which might be related to hatching performance. There were four studies conducted in this research: 1) a comparison of the effect of two probiotics on the ontogeny of small intestinal epithelial cells in young chicks; 2) the effect of two probiotics on mRNA abundance of tight junction proteins in the small intestine of young chicks; 3) the effect of high incubation temperature on mRNA abundance of tight junction proteins in the YS of broiler embryos; and 4) comparison of avian defense peptide mRNA abundance in the YS of broilers and layers. In study 1, Probiotics transiently decreased body weight gain (BWG) from day 2 to day 4, but did not affect body weight (BW) from day 2 to day 8, and small intestinal weight and intestinal morphology from day 2 to day 6. Probiotics did not affect marker gene expression of intestinal stem cells (Olfm4) and goblet cells (Muc2) in all small intestinal segments, but did increase expression of a marker gene of proliferating cells (Ki67), and decreased an antimicrobial peptide (liver-enriched antimicrobial peptide 2, LEAP2) in the jejunum at day 4. Probiotic 1 decreased PepT1, a marker of enterocytes in the duodenum at day 4. These results suggest that probiotics did not improve growth performance and intestinal morphology in young healthy chicks, but temporarily promoted intestinal epithelial cell proliferation and decreased LEAP2 antimicrobial peptide expression in the jejunum. In situ hybridization (ISH) showed that Ki67+ proliferating cells were mainly located in the crypt region and the blood vessels of villi. In study 2, Probiotic supplementation to newly hatched chicks for less than one week did not affect mRNA abundance of the tight junction proteins in the small intestine. Occludin (OCLN) mRNA, which was detected by ISH to be expressed in intestinal epithelial cells in both the villus and crypt regions, was greater in the duodenum of female chicks than males. In study 3, high incubation temperature starting from embryonic day 12 (E12) affected mRNA abundance of the tight junction proteins in the YS, including increased zonula occluden 1 (ZO1) at E13, increased junctional adhesion molecule A (JAMA) and heat shock protein 90 (HSP90) at E17, but decreased tight junction protein JAMA at E19 and OCLN at day of hatch (DOH). These results showed that the YS tight junction proteins were increased by short term heat exposure but decreased by long term heat exposure. In study 4, the expression of avian β defensin 10 (AvBD10), CATHs and toll-like receptors in the YS was examined. Toll-like receptors were highly expressed in the YS at early incubation stages (E7), while CATHs showed a peak expression from E9 to E13, which was similar to the expression pattern of AvBD10. CATHs and AvBD10 mRNA temporal expression patterns were similar in broilers and layers, while their expression levels were different. Layers, especially brown layers, had greater mRNA abundance for antimicrobial peptides such as AvBD10, CATH1, and CATH2 in the YS. These results demonstrate that the antimicrobial peptide temporal expression patterns in the YS are not affected by breed, but their expression levels are affected by breed. In summary, the small intestine and the YS are essential for nutrient uptake, innate immunity, and maintenance of integrity. The ontogeny of intestinal epithelial cells, such as proliferating cells can be modulated by probiotic supplementation. Similar to the small intestine, the YS can also express tight junction proteins, which can be affected by high incubation temperature. Antimicrobial peptide expression in the intestine of healthy young chicks is also transiently decreased by probiotic supplements. Avian defensin and cathelicidin expression patterns in the YS were not affected by breed. / Doctor of Philosophy / The small intestine and yolk sac are important organs for nutrient absorption in hatched chicks or embryonic chicks. These organs also serve as a barrier to prevent pathogens from entering the blood circulation. Intestinal epithelial cells along the villi renew rapidly by proliferation and differentiation. In this research, probiotics which are also known as direct fed microbials temporarily increased expression of the proliferating cell marker Ki67 in the jejunum of healthy young chicks, which suggests that probiotics promote intestinal epithelial cell proliferation. However, probiotics transiently decreased expression of an antimicrobial peptide, which may reduce immune protection in the gut. The yolk sac can also express tight junction proteins. The expression of tight junction proteins was affected by elevated incubation temperature in broiler embryos, which might be related to low hatchability of eggs exposed to heat stress. Avian defense peptides and pathogen recognition receptors were expressed in the YS, which implied that the yolk sac contained an innate immune function. The expression pattern of avian defense peptides was affected by breed (broilers and layers), while the expression level of avian defense peptides was greater in layers than broilers. In summary, the small intestine and the yolk sac are multifunctional organs. Their cell composition, structural integrity, and secretion of antimicrobial peptides can be affected by environmental factors, such as probiotic supplementation or high incubation temperature.

probiotic

high incubation temperature

epithelial cells

tight junction

small intestine

yolk sac

chicken

Managing Poultry Gut Integrity, Immunity and Microbial Balance During Necrotic Enteritis

Khodambashi Emami, Nima

12 August 2020

Necrotic enteritis (NE) is a major enteric disease in commercial poultry and manifests itself in clinical and subclinical forms. Despite years of research, NE is still among the leading diseases with the greatest economic impact on poultry production. Subclinical forms lead to poor performance (reduced feed intake, weight gain and eventually higher feed conversion ratio) but usually occurs with low mortality rates. The use of antibiotic growth promoters (AGPs) is proving to be an effective tool in maintaining gut health and modifying gut microbiota, thus improving broiler performance and reducing NE. Removal of AGPs has led to an increase in NE occurrence, particularly the subclinical forms. The lack of alternative strategies to control NE is mainly due to limited insight into the relationship between NE pathogenesis, the host microbiome and its immune responses. Therefore, key to overcoming NE is to define the cellular and molecular mechanisms that are involved in the progression of the disease, especially with regard to mucosal immune responses and gut microbiome. Also, assessing the impact of these changes on gut cell metabolism and function is of great importance. This information would be a valuable guide to prevent the onset or alleviate the negative impact of NE on bird's health and performance. In a series of experiments conducted for this project, the effect of single or multi-strain probiotics as well as multi-component additives were tested during NE challenge in order to define the cellular and molecular mechanisms that are involved in the progression of the disease. Results of these experiments revealed that challenging broilers with a 'naturally occurring' NE led to differential expression of tight junction (TJ) proteins in the jejunum compared to non-challenged birds. Supplementation of certain additives reduced NE lesion scores, improved performance and increased mRNA abundance of claudin-3, a key epithelial TJ protein. Multi-strain probiotics and multi-component additives (including a symbiotic and a product containing probiotics, prebiotics and essential oils) were more effective than single-strain probiotics or prebiotics. The aforementioned additives were also more effective in modulating immune responses to NE, especially by decreasing the mRNA abundance of IFN-γ and IL-10 in the jejunum. Furthermore, supplementation of these additives led to an increase in the expression of nutrient transporters (SGLT-1) and regulators of energy metabolism (PGC-1α, mTOR and AMPK); thus, improving nutrients absorption and metabolism. Microbial profiling using 16S rRNA sequencing showed that supplementation of each specific additive led to a signature-like microbiome in the ileal scrapings of broilers. However, supplementation of multi-component additives (including a symbiotic and a product containing probiotics, prebiotics and essential oils) modified the ileal microbiome in association with lower NE lesion scores, better performance and modulated immune responses. These additives reduced the relative abundance of bacteria such as ASF356, Bacteroides, Clostridium sensu stricto 1, Faecalibaculum, Lachnospiraceae UCG-001, Muribaculum, Oscillibacter, Parabacteroides, Rikenellaceae RC9 gut group, Ruminococcaceae UCG-014, and Ruminiclostridium 9 and increased the relative abundance of Lactobacillus compared to NE challenged birds. Collectively, these data indicate that during a subclinical naturally occurring NE, the use of multi-strain probiotics or multi-component additives, compared to single-strain probiotics or prebiotics, would be a more promising strategy in alleviating the effect of this enteric disease. / Doctor of Philosophy / Necrotic enteritis, an enteric disease, is one of the major diseases that negatively impacts the poultry industry and producers' profitability. The growing ban on the use of antibiotics that were used to prevent this disease has increased the number of necrotic enteritis outbreaks worldwide. Having a better understanding of the cellular and molecular mechanisms that are involved in the onset of this disease is of crucial importance and could lead to finding more effective ways to control this disease without drugs. The gut is the site of digestion and absorption of nutrients so any damage would lead to poor bird performance. In a series of experiments conducted for this project, several combinations of beneficial bacteria and nutrient sources that help bacterial growth in the gut (prebiotics) improved gut health leading to better performance during the grow-out period (days 0-42) when birds reach market age. These supplements protected the gut lining and reduced damages due to necrotic enteritis with less severe lesions. Barrier function of the gut was also improved by supplementing the diet with combination of beneficial bacteria and nutrients that help their growth in the gut. There are special types of proteins (called tight junctions) that seal up the space between intestinal cells (enterocytes) and prevent pathogens in the gut lumen from entering the body, thus preventing inflammation and disease. This helps the body to use the absorbed nutrients for growth rather than spending energy to fight pathogens, which collectively results in better growth performance. Concurrent supplementation of beneficial bacteria plus nutrients that help their growth balanced the immune responses in the gut by increasing the copy number of cytokines. Cytokines are proteins that orchestrate immune responses that the host mounts against pathogens. Certain cytokines regulate such responses by preventing the immune system from overreacting and mounting unnecessary reactions, thus preserving energy and nutrients for growth while reducing inflammation. Nutrient uptake from the gut lumen is facilitated by nutrient transporter proteins that reside on intestinal cells (enterocytes). Birds concurrently supplemented with beneficial bacteria and nutrients that help their growth in the gut increased the abundance of these proteins, resulting in improved nutrient uptake and performance compared to the control birds. Co-supplementation of beneficial bacteria and nutrient sources that help their growth modified the type and number of bacteria that are present in the gut lumen. The modified bacterial community were able to produce metabolites such as butyrate and propionate, which are beneficial for the health and growth of the intestinal cells, thus improving the bird's health and its performance. Overall, compared to beneficial bacteria alone, co-supplementation of beneficial bacteria with the nutrients that help their growth in the gut significantly reduced intestinal lesions and improved performance of broiler chickens during the production period. Moreover, dietary addition of these supplements improved gut barrier function by regulating the gene expression of tight junction proteins and gut mucosal immune responses as well as modifying the bacterial community of the gut. Therefore, such combination supplements hold promise in controlling necrotic enteritis in poultry and sustain good overall performance that translates into higher profitability to producers.

necrotic enteritis

Performance

lesion scores

tight junctions

immune response

gut microbiome

The Cx43 Carboxyl-Terminal Mimetic Peptide αCT1 Protects Endothelial Barrier Function in a ZO1 Binding-Competent Manner

Strauss, Randy E.

20 January 2022

The Cx43 CT mimetic peptide, αCT1, originally designed to bind to ZO1 and thereby inhibit Cx43/ZO1 interaction, was used as a tool to probe the role of Cx43/ZO1 association in regulation of epithelial/endothelial barrier function. Using both in vitro and ex vivo methods of barrier function measurement, including Electric Cell-Substrate Impedance Sensing(ECIS), a TRITC-dextran transwell permeability assay, and a FITC-dextran cardiovascular leakage protocol involving Langendorff-perfused mouse hearts, αCT1 was found to protect the endothelium from thrombin-induced breakdown in cell-cell contacts. Barrier protection was accompanied by significant remodeling of the F-actin cytoskeleton, characterized by a redistribution of F-actin away from the cytoplasmic and nuclear regions of the cell, towards the endothelial cell periphery, in association with alterations in cellular orientation distribution. In line with observations of increased cortical F-actin, αCT1 upregulated cell-cell border localization of endothelial VE-cadherin, the Tight Junction protein Zonula Occludens 1 (ZO1) , and the Gap Junction Protein (GJ) Connexin43 (Cx43). A ZO1-binding-incompetent variant of αCT1, αCT1-I, indicated that these effects on barrier function and barrier-associated proteins, were likely associated with Cx43 CT sequences retaining ability to interact with ZO1. These results implicate the Cx43 CT and its interaction with ZO1, in the regulation of endothelial barrier function, while revealing the therapeutic potential of αCT1 in the treatment of vascular edema. / Doctor of Philosophy / Endothelial cells make up blood vessels within the heart and regulate the exchange of fluids between the circulation and heart tissue. In many forms of heart disease, the cardiac endothelium is disrupted, resulting in a damaging leakage and buildup of fluids within the heart. This work explores how a small peptide, derived from a naturally occurring molecule, may help to prevent fluid-associated damage to the heart by stabilizing the blood endothelium.

Cx43

Zonula occludens 1

barrier function

tight junctions

adherens junctions

actin cytoskeleton

endothelial cells

Regioselective synthesis of curdlan derivatives

Zhang, Ruoran

10 December 2015

Curdlan, a (1,3)-linked linear homopolysaccharide composed of beta-D-glucan, is produced by the bacterium Alcaligenes faecalis var. myxogenes. Several strategies to synthesize chemically modified curdlan derivatives have been reported, but there have been few reports of regioselective functionalization at specific positions of the curdlan backbone, especially of aminated curdlan derivatives which have remarkable potential in biomedical and pharmaceutical applications. We demonstrate herein the design, synthesis and characterization of a family of regioselectively aminated curdlan derivatives including 6-deoxy-6-(bromo/azido/amino/amido/ammonium) curdlans starting from 6-bromo/azido-6-deoxycurdlan. A key reaction that enabled the whole synthesis of new curdlan derivatives at C-6 described in this dissertation was the highly selective bromination of curdlan. The resultant 6-bromo-6-deoxycurdlan, prepared with high regioselectivity, was treated with trialkylamines or heterocyclic amines to produce a range of water-soluble curdlan ammonium salts. The bromide was then nucleophilically displaced by sodium azide to produce the versatile precursor 6-azido-6-deoxycurdlan. Its water solubility was enhanced either by the incorporation of hydrophilic trioxadecanoate esters into O-2/4 positions or by the borohydride reduction to afford 6-amino-6-deoxycurdlan. The iminophosphorane intermediate generated during Staudinger reactions was further investigated for subsequent syntheses: i) 6-amino or 6-amido-6-deoxycurdlan by in situ reaction with water or excess carboxylic anhydride, ii) 6-monoalkylamino curdlan by reductive amination using aldehydes and sodium cyanoborohydride, and iii) 6-dialkylamino-/tri-alkylammoniocurdlans by reacting with methyl iodide. Such derivatives could have properties useful for a range of biomedical applications, including interactions with proteins, encapsulation of drugs, and formulation with genes or other biological compounds. / Ph. D.

curdlan

curdlan derivatives

regioselective synthesis

amination at C-6

tight junction opening

water-soluble

Computational and Data-Driven Design of Perturbed Metal Sites for Catalytic Transformations

Huang, Yang

23 May 2024

We integrate theoretical, computational and data-driven approaches for the sake of understanding, design and discovery of metal based catalysts. Firstly, we develop theoretical frameworks for predicting electronic descriptors of transition and noble metal alloys, including a physics model of d-band center, and a tight-binding theory of d-band moments to systematically elucidate the distinct electronic structures of novel catalysts. Within this framework, the hybridization of semi-empirical theories with graph neural network and attribution analysis enables accurate prediction equipped with mechanistic insights. In addition, novel physics effect controlling surface reactivity beyond conventional understanding is uncovered. Secondly, we develop a computational and data-driven framework to model high entropy alloy (HEA) catalysis, incorporating thermodynamic descriptor-based phase stability evaluation, surface segregation modeling by deep learning potential-driven molecular simulation and activity prediction through machine learning-embedded electrokinetic model. With this framework, we successfully elucidate the experimentally observed improved activity of PtPdCuNiCo HEA in oxygen reduction reaction. Thirdly, a Bayesian optimization framework is employed to optimize racemic lactide polymerization by searching for stereoselective aluminum (Al) -complex catalysts. We identified multiple new Al-complex molecules that catalyzed either isoselective or heteroselective polymerization. In addition, feature attribution analysis uncovered mechanistically meaningful ligand descriptors that can access quantitative and predictive models for catalyst development. / Doctor of Philosophy / In addressing the critical issues of climate change, energy scarcity, and pollution, the drive towards a sustainable economy has made catalysis a key area of focus. Computational chemistry has revolutionized our understanding of catalysts, especially in identifying and analyzing their active sites. Furthermore, the integration of open-access data and advanced computing has elevated data science as a crucial component in catalysis research. This synergy of computational and data-driven approaches is advancing the development of innovative catalytic materials, marking a significant stride in tackling environmental challenges. In my PhD research, I mainly work on the development of computational and data-driven methods for better understanding, design and discovery of catalytic materials. Firstly, I develop physics models for people to intuitively understand the reactivity of transition and noble metal catalysts. Then I embed the physics models into deep learning models for accurate and insightful predictions. Secondly, for a class of complex metal catalysts called high-entropy alloy (HEA) which is hard to model, I develop a modeling framework by hybridizing computational and data-driven approaches. With this framework, we successfully elucidate the experimentally observed improved activity of PtPdCuNiCo HEA in oxygen reduction reaction which is a key reaction in fuel cell technology. Thirdly, I develop a framework to virtually screen catalyst molecules to optimize polymerization reaction and provide potential candidates to our experimental collaborator to synthesize. Our collaboration leads to the discovery of novel high-performance molecular catalysts.

density functional theory

tight binding theory

interpretable deep learning

Bayesian optimization

catalysis

Feasibility And Characterization Of Leak-Tight Single-Track Thin Walls Produced By Laser Powder Bed Fusion In 316L Stainless Steel

Archibald, Peyton J

01 June 2024

This thesis explores the optimization of process parameters for producing single-track thin walls using Laser Powder Bed Fusion (LPBF) additive manufacturing. Using two different coupon designs, the study assesses the feasibility of creating the thinnest possible leak-tight structures within LPBF and evaluating their mechanical properties, including burst pressure and modulus of elasticity under pressure loads. A series of experimental iterations were conducted, varying laser power and laser speed to identify optimal conditions. The findings indicate that a narrow range of process parameters can produce consistently leak-tight thin walls. The results contribute to understanding how to achieve high quality, reliable thin wall structures in the LPBF process, with implications for industrial applications requiring thin, precise, leak tight, and durable walls.

Additive Manufacturing

Selective Laser Melting

Laser Powder Bed Fusion

Single-Pass Wall

Air-Tight Wall

Manufacturing

Transferable reduced TB models for elemental Si and N and binary Si-N systems

Gehrmann, Jan

January 2013

Silicon nitride is a bulk and a coating material exhibiting excellent mechanical properties. The understanding of the complex processes at the nanometre scale gained through experimental research will be enhanced by the existence of a computationally efficient and accurate model that is able to describe the mechanical properties of silicon nitride. Such a model has yet to be proposed. In this thesis we present a transferable reduced tight-binding (TB) model for the silicon nitride system. More precisely, this model consists of a reduced TB model for elemental silicon, a reduced TB model for elemental nitrogen, and a reduced TB model for silicon nitride. These models are developed within the framework of coarse-graining the electronic structure from density functional theory (DFT) to tight binding (TB) to bond-order potentials (BOPs), and can therefore be used in the future as the stepping stone to develop BOPs for the application in large scale simulations. The bond integrals employed in the reduced TB models are obtained directly from mixed-basis DFT projections of wave functions onto a minimal basis of atom-centred orbitals. This approach reduces the number of overall parameters to be fitted and provides models which are transferable through the different coarse-graining levels. We provide an example by using the same bond integrals in the reduced TB model for silicon and the preliminary bond-based BOP for silicon. DFT binding energies of ground state and metastable crystal structures are used as the benchmark to which the TB and BOP repulsive parameters are fitted. In addition to model development, we present an improved methodology when going from TB to reduced TB. By weighting all four σ TB bond integrals equally, we provide a new parameterisation (Eqs. (2.73) and (2.74)) and show that the quality of the silicon reduced TB model can be increased by choosing one of the reduced TB parameters to be distance invariant. The ingredients, the development methodology, and the quality of each of the four models are discussed in a separate chapter. The quality of the reduced TB models and BOP is demonstrated by comparing their predictions for the binding energies, heats of formation, elastic constants, and defect energies with DFT and experimental values.

620.1

Funktionelle Charakterisierung des Tight Junction-Proteins Claudin-3 in Epithel- und Endothelzellen

Milatz, Susanne

16 February 2011

Die Tight Junction (TJ) reguliert den parazellulären Transport von Ionen, Wasser und Soluten an Epithelien und Endothelien und ist von entscheidender Bedeutung für die Aufrechterhaltung der Funktion von Organen und Geweben. Obwohl Claudin-3 zu den zuerst identifizierten und ubiquitär exprimierten Komponenten der TJ gehört, konnte seine spezifische Funktion bislang nicht geklärt werden. Für die funktionelle Charakterisierung des humanen Claudin-3-Proteins wurden stabile Überexpressionsklone der lecken Nierenepithel-Zelllinie MDCK II generiert. Die Überexpression von Claudin-3 führte zu einer deutlichen Änderung des TJ-Strangmusters sowie zu einer starken Zunahme des transepithelialen Widerstandes und einer verminderten Permeabilität für Ionen und Moleküle der Größe 332 Da und 4000 Da. Der parazelluläre Durchtritt von Wasser war unverändert. Claudin-3 konnte eindeutig als abdichtende Komponente der TJ identifiziert werden. Anhand des endothelialen Zellkulturmodells HUVEC wurden Expression und Regulation von Claudin-3 und anderen TJ-Proteinen unter dem Einfluss mechanischer Strömungsverhältnisse und des Sauerstoffpartialdrucks analysiert. Die Behandlung mit fehlender Wandschubspannung führte zur Hochregulation der abdichtenden TJ-Proteine Occludin, Claudin-3, Claudin-5 und Claudin-11, nicht aber Claudin-23. Die Regulation der einzelnen TJ-Komponenten wurde durch unterschiedliche Signalwege vermittelt, wobei der verstärkten Proteinexpression jeweils eine Hochregulation auf mRNA-Ebene zugrunde lag. Die kombinierte Behandlung mit fehlender Wandschubspannung und Hypoxie resultierte in einer sehr stark erhöhten Expression von Claudin-3. Durch die Hochregulation abdichtender TJ-Komponenten unter Bedingungen fehlender Wandschubspannung und Hypoxie, wie sie in verschiedenen physiologischen und pathologischen Situationen auftreten, könnte einem unerwünschten Durchtritt von Substanzen aus dem Blut in das umliegende Gewebe vorgebeugt werden. / The tight junction (TJ) regulates the paracellular transport of ions, water and solutes in epithelia and endothelia and is of particular importance for a correct function of organs and tissues. Although claudin-3 is one of the first identified and ubiquitously expressed TJ components, its specific function was unsolved as yet. For functional characterization, human claudin-3 was stably overexpressed in the leaky epithelial cell line MDCK II. Overexpression of claudin-3 led to a marked alteration of TJ meshwork pattern, a strong increase in transepithelial resistance and a decrease in permeability for ions and paracellular tracers (332 or 4000 Da). Paracellular water transport was not affected. It was proved that claudin-3 acts as a „tightening“ TJ component. The endothelial cell culture model HUVEC was used for analysis of expression and regulation of claudin-3 and several other TJ proteins under different conditions of wall shear stress and oxygen saturation. Treatment with lacking wall shear stress led to an upregulation of the “tightening” TJ proteins occludin, claudin-3, claudin-5, and claudin-11, but not claudin-23. Upregulation of all proteins was due to increased mRNA levels. Apparently, different signaling pathways were involved in regulation of particular TJ components. Combined treatment with lacking shear stress and hypoxia resulted in drastically increased claudin-3 expression. Upregulation of tightening TJ components under lacking shear stress and hypoxic conditions as occuring in different physiological or pathological situations would limit the passage of solutes from the blood into the surrounding tissue.

Hypoxie

Permeabilität

Claudin

Widerstand

Tight Junction

MDCK

Gefrierbruch-Elektronenmikroskopie

HUVEC

Wandschubspannung

hypoxia

resistance

permeability

tight junction

claudin

MDCK

freeze fracture EM

HUVEC

shear stress

570 Biowissenschaften, Biologie

32 Biologie

WD 5100

WW 4120

ddc:570

Charakterisierung der Struktur, Funktion und Wechselwirkungen der Tight Junction Proteine Occludin und Zonula Occludens 1

Walter, Juliane Katharina

20 October 2009

Die tight junction schränken die Diffusion durch den parazellulären Raum in Epithel- und Endothelzellschichten für viele Moleküle stark ein. Dadurch behindern sie die Aufnahme von wasserlöslichen Medikamenten in das dahinterliegende Gewebe. Zwei Proteine, die am tight junction Aufbau mitwirken, sind Zonula Occludens Protein 1 (ZO-1) und Occludin. Eine Öffnung der tight junctions stellt eine Möglichkeit für die Verabreichung von Medikamenten dar. Deshalb wurden die tight junction Proteine ZO-1 und Occludin auf ihre Funktion, Struktur und Regulation untersucht. Für die Interaktion beider Proteine gab es ein Modell, welches eine Oligomerisierung der Bindungspartner als Voraussetzung ihrer Interaktion über helikale Wechselwirkungen vorhersagte. Die Annahmen aus dem Modell der Interaktion von ZO-1 und Occludin konnten experimentell bestätigt werden. Für den C-Terminus von Occludin wurde darüber hinaus eine Interaktion über Disulfidbrücken nachgewiesen. Diese Interaktion könnte in der Zelle von pathologischer Bedeutung bei Schlaganfall und Ischchämie sein. Beide Erkrankungen verursachen eine Öffnung der tight junction im Zusammenhang mit oxidativem Stress. ZO-1 bindet über PDZ Domänen eine Vielzahl von tight junction Proteinen, die an der Abdichtung des parazellulären Raums beteiligt sind. Deshalb wurde die Interaktion und Regulation der PDZ-Domänen aus ZO-1 untersucht. Eine Phosphorylierung der PDZ durch die Proteinkinase C alpha sowie eine Interaktion mit den Phosphatasen 2A und 4 konnte nachgewiesen werden. In vitro konnte gezeigt werden, dass die Phosphorylierung der PDZ-Domänen die Bindung an Membranproteine der tight junction beeinflusst. Diese Arbeit leistet einen Beitrag, die Mechanismen, die zum Verschluss des parazellulären Spaltes führen, aufzuklären. Damit zeigt sie Ansatzpunkte für eine pharmakologische Beeinflussung der Permeabilität der tight junction auf. / Tight junctions restrict diffusion through the paracellular gap in endothelia and epithelia. Thereby they constrain the uptake of water soluble drugs to the tissue. Zonula occludens protein 1 (ZO-1) and occludin are some of proteins involved in tight junction assembly. The opening of tight junctions is a possibility to apply drugs. Therefore the structure, function and regulation of ZO-1 and occludin is characterised. In previous studies, a model predicted the interaction of occludin and ZO-1 through helices. It was proposed that the interaction is mediated by oligomers of ZO-1 and Occludin. This author´s experimental research supports these hypotheses. Furthermore, occludin is shown to self assemble via disulfide bridges. This interaction could be of importance during stroke and ischemia. Both diseases cause the opening of tight junctions in combination with oxidative stress. In addition, this author investigated the interaction and regulation of the PDZ domains of ZO-1. It was shown that the PDZ domains are phosphorylated by protein kinase C alpha and interact with protein phosphatases 2A and 4. Phosphorylation led to a reduction in affinity of PDZ to membrane proteins in vitro. This thesis contributes to the understanding of the mechanisms which are involved in the sealing of the paracellular gap.

oxidativer Stress

tight junction

Zonula Occludens Protein 1

Occludin

PDZ

oxidative stress

tight junction

zonula occludens protein 1

occludin

PDZ

570 Biowissenschaften, Biologie

32 Biologie

WB 4049

ddc:570

Proteomic investigation of the molecular targets of mycophenolic acid in human cells / Proteomic investigation of the molecular targets of mycophenolic acid in human cells

Qasim, Muhammad

20 January 2012

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

Mycophenolic acid

proteomics

myosin light chain 2

tight junctions

permeability

Mycophenolic acid

proteomics

myosin light chain 2

tight junctions

permeability

42.00

42.13

WF-800

WHF-800