Global ETD Search

11	Auswirkungen des Protocadherin-gamma-C3-Knockouts auf die Barriereeigenschaften der Blut-Hirn-Schranke / Impact of Protocadherin gamma C3 knock-out on the barrier properties of the blood-brain-barrier Dilling, Christina January 2022 (has links) (PDF) Protocadherine spielen eine wichtige Rolle bei der Entwicklung des Nervensystems und sind an Prozessen der Zellmigration und -differenzierung, sowie der Hemmung von Zellwachstum beteiligt. Um die Funktion und Regulation von Protocadherin gamma C3 (PcdhγC3) an mikrovaskulären Endothelzellen des Großhirns (cEND) und des Kleinhirns (cerebEND) zu untersuchen, wurden die PcdhγC3-Knock-out (KO) Zelllinien mit der CRISPR/Cas9 Methode etabliert. Der KO führt zu verminderten Barriereeigenschaften der Blut-Hirn-Schranke (BHS), was sich in einer erhöhten Permeabilität für Fluoreszein und einem verringerten transendothelialen elektrischen Widerstand (TEER) widerspiegelt. Es konnte eine Veränderung der Wachstumsrate und dem Adhäsionsverhalten der KO-Zellen nachgewiesen werden. Auch die Expression der Tight-Junction-Proteine, sowie einiger Komponenten des Wnt und mTOR Signalwegs wurden durch den KO von PcdhgC3 beeinflusst. / Protocadherins (Pcdhs) play an important role in neuronal development, cell migration and differentiation, as well as inhibition of cell growth. To investigate the function and regulation of Protocadherin gamma C3 (PcdhgC3) on microvascular endothelial cells of the cerebrum (cEND) and cerebellum (cerebEND), PcdhgC3 knock-out (KO) cell lines were generated, using the CRIPS/Cas9 method. The Knock-out lowers the barrier function oft he blood-brain-barrier (BBB), which can be seen in lower transendothelial electrical resistance (TEER) and higher permeabilitiy for fluorescein. We detectet a change in the growth rate and the cellular adhesion of the KO-cells. Also the expression of tight-junction proteins, as well as parts oft the Wnt and mTOR signalling pathway are altered by the KO of PcdhgC3. Blut-Hirn-Schranke Knockout Tight junction Claudine Occludin ddc:610
12	Synthetic peptides modulate epithelial junctions Yi, Sheng January 1900 (has links) Master of Science / Department of Biochemistry / Bruce D. Schultz / John M. Tomich / Peptides based on the second transmembrane segment of the glycine receptor (M2GlyR) were made to provide a potential therapeutic treatment for cystic fibrosis (CF) and a latent absorption enhancer for drug delivery. For similarity of presentation, unique synthetic peptide sequences have been given alpha-numeric designations. Results are presented from studies focusing on four peptides. In the first study, the contributions of synthetic peptides p1171, p1172 and p1173 to net transepithelial ion transport were measured as a first step toward the goal of testing whether pore length or electrostatics of pore lining residues will affect anion transport. Peptide p1130 exhibits many attributes that make it an ideal synthetic peptide for CF treatment, but has low permselectivity for anions. Therefore, it is used as a platform for modification. Peptide p1171 is doubly substituted with diaminopropionic acid at positions T13 and T17. Peptide p1172 and p1173 are separately one and two helical turn(s) inserted into the p1130 backbone. Apical exposure of MDCK monolayers to these peptides caused a rapid increase in short circuit current (Isc), an indicator of net ion transport. The increase in Isc caused by p1172 or p1173 was accompanied by increase in transepithelial electrical conductance (gte). The electrophysiological results suggested that these modified peptides can assemble in the apical membrane of epithelial cells to form functional ion-conducting pores. Peptide NC-1059, which provides for ion transport across epithelial cells derived from many sources, was studied further to assess cellular changes that account for increased gte. NC-1059 increased Isc, gte and enhanced permeation of dextrans in a concentration dependent manner. Results from previous and current studies show that NC-1059 modulated the epithelial paracellular pathway by altering the distribution and abundance of junctional proteins. Immunoblotting and immunolabeling with confocal microscopy showed that NC-1059 induces reorganization of actin and causes a reduction in F-actin abundance in epithelial cells. The distributions were changed and cellular abundances were reduced of tight junction proteins occludin and ZO-1 and adherens junction proteins E-cadherin and β-catenin by NC-1059. These effects were largely reversed in 24 hr and fully recovered in 48 hr. Therefore, NC-1059 has the therapeutic potential to increase the efficiency of drug delivery across barrier membranes. Synthetic peptides Occludin ZO-1 Actin Paracellular permeability Transepithelial conductance Biology, Cell (0379) Chemistry, Biochemistry (0487)
13	Coeliac Disease in Childhood : On the Intestinal Mucosa and the Use of Oats Hollén, Elisabet January 2006 (has links) Celiaki, eller glutenintolerans, är en av våra vanligaste kroniska sjukdomar i barnaåren. Sjukdomen orsakar en kraftig inflammation i tunntarmens slemhinna efter intag av glutenhaltig föda hos personer med ärftlig benägenhet att utveckla celiaki. En frisk tarm är kraftigt veckad för att öka ytan för upptag av näringsämnen. Ytan består dessutom av åtskilliga fingerliknande utskott, s.k. villi, och mellan villi finns kryptorna där celldelning och celldifferentiering sker. Villi och kryptor kantas av epitelceller, enterocyter, vilkas uppgift är att ta upp näring från tarminnehållet samt att utgöra en selektiv barriär mellan den yttre och inre miljön i tarmen. Den typiska tarmskadan vid celiaki karakteriseras av avsaknad av villi och kraftigt förlängda kryptor, och både näringsupptaget och barriärfunktionen är dessutom störda. Den enda behandling som finns att tillgå vid celiaki är en livslång glutenfri diet. De skadliga proteinerna i vetegluten kallas gliadin, och det finns liknande proteiner i råg, korn, och havre. I havre kallas proteinet avenin. Möjligheten att använda havre vid celiaki har diskuterats flitigt, men numera anses det riskfritt för majoriteten av både barn och vuxna att använda havre i den glutenfria dieten. Målet med den här avhandlingen var att undersöka hur barn med celiaki reagerar på havre i kosten. Detta studerades med avseende på antikroppar mot avenin samt med en metod som mäter halten av kväveoxid- (NO-) produkter i urinen. Ett andra mål var att studera tunntarmens struktur vid olika stadier av celiaki. I den första studien undersökte vi om celiakibarn har antikroppar i serum mot avenin. Vi fann att så var fallet och att nivåerna var signifikant högre än hos friska kontrollbarn. När barnen sattes på glutenfri kost sjönk antikroppsnivåerna, för att öka igen när gluten återinfördes i kosten. Blodproverna till den här studien togs innan debatten om havre kom igång, vilket gör att vi tror att de olika dieterna även speglar ett sant intag av havre. Studien visade också att det inte var någon korsreaktion mellan antikroppar mot avenin och gliadin. Vi använde sedan vår metod för att mäta antikroppar mot avenin i en randomiserad studie där havre gavs till barn med nydiagnostiserad celiaki. Barnen fick antingen en vanlig glutenfri diet eller en med tillsats av specialhavre. Antikroppsnivåerna sjönk markant redan efter tre månader i båda grupperna, och vid studietidens slut, efter ca ett år, hade alla utom ett par patienter återfått normala nivåer. Samma barn studerades även med avseende på NO-produkter i urinen. NO är en kortlivad molekyl som fungerar som budbärare i och mellan celler, och produktionen av den ökar markant vid en inflammation. Tidigare studier har visat att barn med obehandlad celiaki har extremt höga halter av NO-produkter i urinen. I vår studie sjönk även dessa värden signifikant efter tre månader, och det var ingen skillnad mellan grupperna. Efter ett år hade dock fyra barn i havregruppen och ett barn i den grupp som fick vanlig glutenfri kost, fortfarande extremt höga nivåer av NO-produkter. Dessa båda studier styrker den kliniska uppfattningen att de flesta barn med celiaki kan tåla havre, men de visar också att man bör följa upp de celiakibarn som kompletterar sin glutenfria kost med havre eftersom vissa barn verkar ha kvarstående tecken på inflammation i tarmen. I tarmbiopsier från barn med olika stadier av celiaki studerades förekomst och lokalisering av occludin och claudiner, proteiner som är viktiga för att upprätthålla barriärfunktionen i tarmen. Vi fann ett ökat uttryck av occludin vid obehandlad celiaki, vilket vi tror speglar den ökade celldelning och de förändrade barriäregenskaper som man ser vid aktiv celiaki. Resultaten tyder även på att uttrycket av claudin 1-5 inte tycks påverkas av kosten hos barn med celiaki. / Coeliac disease (CD) is one of our most common chronic diseases in childhood. The disease causes an intense inflammation in the small intestinal mucosa after ingestion of gluten-containing cereals in genetically predisposed individuals. The mucosal lesion in CD is characterised by villous atrophy and crypt hyperplasia, and both the absorptive and the barrier functions of the enterocytes are disturbed. The treatment of CD is a life-long adherence to a gluten-free diet (GFD). The toxic fraction of wheat gluten is gliadin, and there are similar proteins in rye, barley and oats. In oats this protein is called avenin, and it is proposed to be less toxic than the others. The use of oats in CD has been debated, but it is now considered safe for the majority of both children and adults with CD. The aims of this thesis were to investigate the humoral and inflammatory reactions to oats in children with CD, and also to study the intestinal mucosa at different stages of the disease. In a retrospective study we found that children with CD had antibodies to oats avenin, and that the levels were significantly higher than in controls. The levels attenuated during GFD, and we also showed that there was no crossreactivity between antibodies to oats and gliadin. We then used our method for measuring antibodies to avenin in a randomised, double-blind trial of oats given to children with newly diagnosed CD. The children were given either a traditional GFD or a GFD supplemented with oats. There was a rapid decrease in antibody levels in both groups already after three months on diet, and at the end of the study period all but a few had normalised their levels. The same children were also studied using urinary nitric oxide (NO) products as markers for intestinal inflammation. Likewise, these values decreased significantly after three months. At the end of the study four children in the GFD-oats group and one in the standard GFD group still had extremely high concentrations of urinary NO metabolites. Taken together, these studies strengthen the clinical impression that oats can be tolerated by the majority of children with CD, but they also warrant a caution, since there seem to be children that do not tolerate oats in their diet. The structure and distribution of occludin and claudins 1-5, tight junction proteins known to play a crucial role in maintaining the barrier function, was studied in biopsy specimens from children at different stages of CD. There was an increased expression of occludin in untreated CD, which reflects the characteristics of crypt cell hyperplasia and altered barrier properties seen in active CD. The findings also indicate that gluten intake does not significantly influence the expression and distribution of claudins 1-5 in coeliac children. celiaki havre avenin anti-aveninantikroppar NO tight junctions occludin claudin Medical microbiology Medicinsk mikrobiologi
14	Characterisation of tight junctions in polymorphic light eruption Pond, Emma January 2016 (has links) Polymorphic light eruption (PLE) is the most common photodermatosis, affecting ~17% of the population. PLE is a delayed-type hypersensitivity response to an antigen induced by solar ultra-violet radiation (UVR). Its effects vary between patients, but the main symptom is a non-scarring, red papular rash in areas exposed to UVR. An effective therapy is low dose ultra-violet B (NBUVB) phototherapy. It is thought that NBUVB phototherapy desensitises the skin to further UVR exposure, but the mechanism by which this happens is unknown. Current immune based studies have been unable to clarify a mechanism as to how PLE arises. However, research in other skin diseases, such as psoriasis and atopic dermatitis, has shown that the barrier function of the skin is compromised by these disorders. Furthermore, research in lesional PLE skin showed an increase in barrier permeability of the skin. Recent research has specifically linked claudin proteins of tight junctions to the barrier dysfunction. Therefore, this study used quantitative immunofluorescent staining to measure tight junction (TJ) proteins and other barrier proteins of interest. Barrier function was also measured by transepidermal water loss (TEWL); a tracer dye penetration assay was used to measure TJ barrier function specifically. All measurements were made in non-lesional PLE skin, as compared to skin from healthy human volunteers. In photoprotected PLE skin the TJ protein claudin-1 was significantly reduced compared to healthy skin. The use of a tracer dye highlighted there was a reduction in TJ barrier function in PLE skin compared to healthy individuals. PLE and healthy skin were then exposed to ultra-violet B (UVB) and 24h later TJ proteins and TJ barrier function were measured. There was no change to claudin-1 after UVB exposure in PLE skin, but claudin-7 was reduced and claudin-12 increased. In contrast, in UVB-irradiated skin in normal controls after UVB exposure claudin-7 and claudin-12 were both increased, whilst claudin-1 was reduced. In PLE patients there was no further change to TJ barrier function, however, in normal controls, skin TJ barrier function was reduced post UVB. Both in healthy and PLE skin TEWL was unchanged before and after UVB exposure. Lastly TJ proteins were investigated after NBUVB in PLE patients. There was a further reduction in claudin-1 in PLE patients as well as a reduction in the TJ protein occludin, however the stratum corneum was significantly thickened. It could be suggested that this is a compensatory measure for the reduction seen in TJ barrier proteins, however further studies are needed to understand this. These data show significant differences in the TJ skin barrier in patients with PLE as compared to healthy human volunteers before and after UVB exposure. Furthermore, in PLE skin there is a significant change to the epidermis after NBUVB phototherapy. These data demonstrate that TJ protein expression and function is altered in PLE skin and may contribute to aetiology of the disorder, however the role of TJ barrier in aetiology is yet to be firmly established. 616.5
15	Shaking Up the Immunoglobulin Superfamily Mendoza, Christopher 11 October 2021 (has links) The immunoglobulin superfamily (IgSF) is a large protein superfamily of membrane and soluble proteins that influence recognition, binding, and adhesion. Among members of this family are cell adhesion molecules (CAMs), which form cell-cell contact points that play key roles in development, cell polarization, and cellular fate. Cadherins (CADs) are calcium-dependent proteins of the adherens junction (AJ), and polarize epithelium and endothelium. The tight junction (TJ) is a multiprotein junctional complex whose function is to control the permeability of the paracellular pathway. At the membrane level, TJs are composed of three types of proteins: claudins (CLDNs), occludin (OCLN) and junctional adhesion molecules (JAMs). JAMs are members of the IgSF while CLDN and OCLN are 4-α-helix membrane proteins. Although JAMs are part of the TJ and reside in the same ultrastructure, they are similar to CADs in their secondary, tertiary, and quaternary protein structure. Crystallographic studies of CADs in the presence of calcium yielded trans interactions that resulted in cell-cell contacts. In the absence of calcium, CADs form cis interactions that do not form cell-cell interactions. The crystal structure of JAM-A, has a quaternary organization of a cis dimer. In spite of the many similarities, a link between CADs and JAMs remains unclear. Beyond this point, the association between JAMs, CLDNs, and OCLN in the TJ is vaguely understood. The JAM family (JAM-A, -B, -C and 4) and their tissue-specific distribution indicate that they are key to understanding the TJ’s function and the interplay with the AJ. JAM-A has been used as a prototype for the other three members of the family, but based on current evidence we hypothesized that these proteins may display unique properties to support TJ’s function in a given tissue. Are JAMs affected by calcium just as CADs? Do CLDNs and OCLN make direct contact with JAMs? Do JAMs coordinate the interplay between TJ and AJ? We designed a strategy based on recombinant proteins and biophysical methods to answer these questions. First, we fused the extracellular domain of each JAM to maltose-binding protein (MBP). Our results indicate that JAM proteins have similar secondary structures, but unique tertiary structures. Surface Plasmon Resonance experiments showed that JAM proteins favored heterotypic compared to homotypic interactions. Second, we addressed the effects of cations (Ca2+, Mg2+, Cu2+, Fe2+, Fe3+, and Zn2+) on JAM-A. The exposure of JAM-A to the resulted in changes in its secondary, tertiary structure, and homotypic binding affinity. Finally, we addressed whether cations had an effect on the other TJ components and if there is an interplay with E-CAD. We determined that in the assembly of a simple TJ and AJ, JAM-A and E-CAD are calcium-dependent, while CLDN1 and OCLN are calcium independent. We conclude that TJ components such as CLDN1 and OCLN may work as anchors to maintain cell-cell interactions while JAM-A and E-CAD would be regulated by cations in order to accommodate other homeostatic functions. junctional adhesion molecule claudin occludin e-cadherin surface plasmon resonance Life Sciences
16	Chronic Inflammatory Pain Leads to Increased Blood-Brain Barrier Permeability and Tight Junction Protein Alterations Brooks, Tracy A., Hawkins, Brian T., Huber, Jason D., Egleton, Richard D., Davis, Thomas P. 01 August 2005 (has links) The blood-brain barrier (BBB) maintains brain homeostasis by limiting entry of substances to the central nervous system through interaction of transmembrane and intracellular proteins that make up endothelial cell tight junctions (TJs). Recently it was shown that the BBB can be modulated by disease pathologies including inflammatory pain. This study examined the effects of chronic inflammatory pain on the functional and molecular integrity of the BBB. Inflammatory pain was induced by injection of complete Freund's adjuvant (CFA) into the right plantar hindpaw in female Sprague-Dawley rats under halothane anesthesia; control animals were injected with saline. Edema and hyperalgesia were assessed by plethysmography and infrared pawwithdrawal latency. At 72 h postinjection, significant edema formation and hyperalgesia were noted in the CFA-treated rats. Examination of permeability of the BBB by in situ perfusion of [14C]sucrose while rats were under pentobarbital anesthesia demonstrated that CFA treatment significantly increased brain sucrose uptake. Western blot analysis of BBB TJ proteins showed no change in expression of zonula occludens-1 (an accessory protein) or actin (a cytoskeletal protein) with CFA treatment. Expression of the transmembrane TJ proteins occludin and claudin-3 and -5 significantly changed with CFA treatment with a 60% decrease in occludin, a 450% increase in claudin-3, and a 615% increase in claudin-5 expression. This study demonstrates that during chronic inflammatory pain, alterations in BBB function are associated with changes in specific transmembrane TJ proteins. central nervous system claudin complete freund's adjuvant diffusion homeostasis membrane permeability occludin
17	Charakterisierung der Struktur, Funktion und Wechselwirkungen der Tight Junction Proteine Occludin und Zonula Occludens 1 Walter, Juliane Katharina 20 October 2009 (has links) 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
18	Investigation on Cell-Cell Junctions by Inhibition of Na,K-ATPase Activity / Studie av cell till cell kontakter genom inhibering av Na,K-ATPas aktivitet Boström, Caroline January 2021 (has links) This thesis report investigates the effect on cellcell junction proteins when the Na,K-ATPase (NKA) is inhibited. The main goal is to develop an understanding of how the NKA activity regulates the cell junction proteins. The investigated proteins are the adherens junction protein ECadherin, and the tight junction proteins Occludin and Claudin7.The NKA is inhibited by introducing the cardiotonic steroid Ouabain to the cells. The treatment is tested for different time lapse and different concentrations. The results show that all proteins are down regulated when treated with high concentrations (500 nM) of Ouabain. ECadherin is up regulated when treated with lower concentrations (10 nM) of Ouabain while Claudin7 is down regulated at low levels. / Detta examensarbete undersöker effekten på cell-cell junctions när Na,K-ATPas (NKA) inhiberas. Målet med rapporten är att få en förståelse för hur NKA aktiviteten reglerar cell-cell junction proteinerna. Proteinerna som undersöks är adherens junction proteinet ECadherin, och tight junction proteinerna Claudin7 och Occludin. NKA inhiberas genom att cellerna behandlas med den kardiotoniska steroiden Ouabain. Behandlingen testas under olika tidsperioder och för olika koncentrationer. Resultaten visar att alla proteiner är nedreglerade när de behandlas med höga koncentrationer (500 nM) av Ouabain. ECadherin blir uppreglerad när det behandlas med lägre koncentrationer (10 nM) av Ouabain medan Claudin7 nedregleras vid låga nivåer. NaK-ATPase Ouabain Cell junctions ECadherin Occludin Claudin7 Western Blot Fluorescent Imaging Tight junctions Adherens Junctions Immunocytochemistry Ouabain NaK-ATPase ECadherin Occludin Claudin7 Western Blot Immunocytokemi Cellkontakter Fluorescernsmikroskopi Physical Sciences Fysik
19	Cell adhesion proteins in different invasive patterns of colon carcinomas : a morphometric and molecular genetic study Hahn-Strömberg, Victoria January 2008 (has links) Colorectal carcinoma is the second most common type of cancer in both men and women in Sweden. Cancer of the colon and rectum are often considered together and their ten year survival rate is approximately 50 – 60 % depending on sex and location. Different histopathological characteristics of such cancers, including the complexity of growth, are of importance for prognosis. This thesis has compared different morphometric methods in order to achieve a quantitative and objective measurement of the invasive front of colon carcinoma. Since the growth pattern is dependent on the cell adhesiveness of different proteins we studied the distribution and localization of E-cadherin, Beta-catenin, Claudin 1,2,7 and Occludin as well as screened the genes for mutations. We found a perturbed protein expression of E-cadherin, Beta-catenin, Claudin 1,2,7 and Occludin in tumor sections compared to normal mucosa, but no relation to tumor volume or growth pattern could be seen. The tumor volume was found to be correlated to the growth pattern but not responsible to the perturbed protein expression. In the mutation screening we found a SNP in exon 13 the E-cadherin gene in the tumor, as well as in exon 2 of Claudin 1 and exon 4 of Claudin 7 in both tumor and normal mucosa. No correlation between mutations and growth pattern or tumor volume was found. In conclusion, this thesis shows that the computer image analysis with estimation of fractal dimension and number of free tumor cell clusters is superior to the semi quantitative visual grading of tumor invasive complexity. The aberrant expression of cell adhesion proteins in the tumor compared to normal mucosa as well as polymorphisms in the cell adhesion genes CLDN1 and CLDN7 in both tumor and normal mucosa can suggest that these aberrations are important in the tumorigenesis of colon carcinoma. colon carcinoma growth pattern tight junction Complexity Index cell adhesion E-cadherin Beta-catenin Occludin Claudin. Medicine Medicin
20	Lesões de isquemia arteriovenosa e reperfusão em jejuno de equinos: imunoistoquímica de proteínas de junção e histopatologia NASCIMENTO, Aline Machado Rapello do 31 December 2007 (has links) Made available in DSpace on 2014-07-29T14:46:49Z (GMT). No. of bitstreams: 1 Dissertacao Aline Machado Rapello do Nascimento.pdf: 1403008 bytes, checksum: d5736b2cde9e7188a689131927c1127c (MD5) Previous issue date: 2007-12-31 / To evaluate whether complete arteriovenous ischemia followed by reperfusion of mesenteric blood flow aggravates lesions involving small intestine of horses, β--catenin and occludin expressions were measured in jejune epithelia of seven equines, without definite breed. The animals had been submitted to aseptic ventral midline celiotomy and five jejune segments collected corresponding to a baseline segment, a five minutes segment subjected to ischemia, and three segments collected after being subjected to five, sixty and one hundred and twenty minutes of tecidual reperfusion, respectively. Experimentally induced lesions created by total arteriovenous occlusion followed by reperfusion were similar to naturally acquired lesions, as much in the period of ischemia as in the aggravation of the injuries observed during reperfusion. Changes that occur when ischemic intestine is reperfused are progressive, and include mucosal, submucosal, and serosal edema; polymorphonuclear and mononuclear cell infiltrates; and alterations in vascular patterns. Imunohistochemistry analyses have shown strong staining baseline segments for β-catenin in all animals and its progressive lack of staining during ischemia and reperfusion treatments. That indicates progressive lack of intercellular adherence. Similar results of specific decreases of total expression of Occludin, a tight junction protein, were observed. This protein is involved in regulating the movement of solutes in the paracellular pathway and also plays an important role in the maintenance of cell polarity. The reduction of expressions of both intercellular proteins measured directly demonstrates β-catenin injury due to progression of edema during ischemia and its aggravation during reperfusion and also shows an increase of the permeability of paracelular pathways and its related consequences to degradation of Ocludina. / Realizou-se o estudo da patogenia da lesão por isquemia arteriovenosa completa dos vasos mesentéricos e reperfusão jejunal em eqüinos por meio da avaliação da expressão das proteínas β-catenina e ocludina presentes neste epitélio, em sete eqüinos, sem raça definida. Os animais foram submetidos á celiotomia asséptica na linha alba e coleta de cinco segmentos jejunais correspondestes á um segmento controle, um segmento tratado com isquemia por cinco minutos, e três segmentos coletados durante o período de reperfusão tecidual aos cinco, sessenta e cento e vinte minutos, respectivamente. As lesões induzidas experimentalmente por oclusão arteriovenosa total seguida por reperfusão foram similares às lesões adquiridas naturalmente tanto no período de isquemia quanto no agravamento das lesões observado nos tempos de reperfusão. As mudanças que ocorrem quando um intestino isquêmico sofre reperfusão são progressivas e incluem edema de mucosa, submucosa e serosa, infiltração polimorfonuclear e mononuclear e alterações nos padrões vasculares. A análise imunoistoquímica revelou forte expressão da β- catenina em todos os animais e a sua progressiva perda da expressão quando submetidos à isquemia e reperfusão. Isso indica perda progressiva da adesividade intercelular. Resultados similares de redução do total da expressão da Ocludina, uma proteína de junção de oclusão, foram observados. Esta proteína está envolvida na regulação dos movimentos dos solutos na via paracelular e também desempenha um importante papel na manutenção da polaridade celular. A diminuição da expressão de ambas as proteínas intercelulares demonstra a lesão à β-catenina devido à progressão do edema durante isquemia e o agravamento durante a reperfusão tecidual e também mostra um aumento na permeabilidade da via paracelular e suas conseqüências relacionadas à degradação da Ocludina. Beta-catenina junção de aderência junção de oclusão ocludina Beta-catenin adherents junction junction of occlusion occludin CNPQ::CIENCIAS BIOLOGICAS

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