Global ETD Search

111	Le rôle du gène de la polarité apico-basale SCRIBBLE1 dans les anomalies de tube neural Kharfallah, Fares 04 1900 (has links) No description available. Scribble1 Anomalie du tube neural polarité cellulaire planaire polarité apicobasale. Neural tube defects Planar cell polarity Apicobasal polarity
112	RhoGTPase Signaling in Cell Polarity and Gene Regulation Johansson, Ann-Sofi January 2006 (has links) <p>RhoGTPases are proteins working as molecular switches as they bind and hydrolyze GTP. They are in their active conformation when GTP is bound and are then able to interact with their effector proteins, which relay the downstream signaling. When the GTP is hydrolyzed to GDP, the RhoGTPase is inactivated. RhoGTPases have been shown to be activated by a variety of stimuli and they are implicated in regulation of diverse cellular processes, including cell migration, cell cycle progression, establishment of cell polarity and transformation. </p><p>We identified mammalian Par6 as a novel effector protein for the RhoGTPases Cdc42 and Rac1. The <i>Caenorhabditis elegans</i> homologue of Par6 had previously been shown to be essential for cell polarity development in the worm embryo. We found that endogenous Par6 colocalized with the tight junction protein ZO-1 in MDCKII epithelial cells. Par6 also interacted with mammalian Par3, another member of the <i>par</i> (for partitioning defective) gene family, first identified in <i>C.elegans</i>. Endogenous Par3 also localized to tight junctions in epithelial cells. This suggested that Par6 and Par3 are part of a complex regulating cell polarity also in mammalian cells. The interaction between Par6 and activated Cdc42 and Rac1 suggested a role for these RhoGTPases in the regulation of this complex.</p><p>Co-expression of Par6 together with PKCζ, induced a dramatic change in cell morphology. The cells rounded up and long cellular extensions, resembling neurites, were formed. The ability to induce these changes in cell morphology was found to be dependent on the direct interaction between Par6 and PKCζ, as well as on the kinase activity of PKCζ. We observed that cells co-expressing mPar6C and PKCζ contained bundled microtubules and microtubules that hade been acetylated, indicating that the microtubules were stabilized. </p><p>To investigate the roles of RhoGTPases in PDGF-induced gene expression we performed cDNA microarray analyses on AG01518 human foreskin fibroblasts in which we over-expressed the dominant negative forms of Cdc42, Rac1 and RhoA. We found that the expression of 16 genes, out of the 45 up-regulated by PDGF-BB, were inhibited ≥50% in the presence of dominant negative Cdc42, Rac1 or RhoA. 19 other genes were down-regulated by one or two of the dominant RhoGTPases. Our data implied that the expression of many PDGF-BB induced genes can be affected by RhoGTPase signaling. </p><p>In conclusion, the work presented here has increased the knowledge of the involvement of RhoGTPase signaling in establishment of cell polarity and gene regulation.</p> Cell and molecular biology RhoGTPase Par6 cell polarity aPKC epithelial cell PDGF gene regulation microarray Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
113	RhoGTPase Signaling in Cell Polarity and Gene Regulation Johansson, Ann-Sofi January 2006 (has links) RhoGTPases are proteins working as molecular switches as they bind and hydrolyze GTP. They are in their active conformation when GTP is bound and are then able to interact with their effector proteins, which relay the downstream signaling. When the GTP is hydrolyzed to GDP, the RhoGTPase is inactivated. RhoGTPases have been shown to be activated by a variety of stimuli and they are implicated in regulation of diverse cellular processes, including cell migration, cell cycle progression, establishment of cell polarity and transformation. We identified mammalian Par6 as a novel effector protein for the RhoGTPases Cdc42 and Rac1. The Caenorhabditis elegans homologue of Par6 had previously been shown to be essential for cell polarity development in the worm embryo. We found that endogenous Par6 colocalized with the tight junction protein ZO-1 in MDCKII epithelial cells. Par6 also interacted with mammalian Par3, another member of the par (for partitioning defective) gene family, first identified in C.elegans. Endogenous Par3 also localized to tight junctions in epithelial cells. This suggested that Par6 and Par3 are part of a complex regulating cell polarity also in mammalian cells. The interaction between Par6 and activated Cdc42 and Rac1 suggested a role for these RhoGTPases in the regulation of this complex. Co-expression of Par6 together with PKCζ, induced a dramatic change in cell morphology. The cells rounded up and long cellular extensions, resembling neurites, were formed. The ability to induce these changes in cell morphology was found to be dependent on the direct interaction between Par6 and PKCζ, as well as on the kinase activity of PKCζ. We observed that cells co-expressing mPar6C and PKCζ contained bundled microtubules and microtubules that hade been acetylated, indicating that the microtubules were stabilized. To investigate the roles of RhoGTPases in PDGF-induced gene expression we performed cDNA microarray analyses on AG01518 human foreskin fibroblasts in which we over-expressed the dominant negative forms of Cdc42, Rac1 and RhoA. We found that the expression of 16 genes, out of the 45 up-regulated by PDGF-BB, were inhibited ≥50% in the presence of dominant negative Cdc42, Rac1 or RhoA. 19 other genes were down-regulated by one or two of the dominant RhoGTPases. Our data implied that the expression of many PDGF-BB induced genes can be affected by RhoGTPase signaling. In conclusion, the work presented here has increased the knowledge of the involvement of RhoGTPase signaling in establishment of cell polarity and gene regulation. Cell and molecular biology RhoGTPase Par6 cell polarity aPKC epithelial cell PDGF gene regulation microarray Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
114	Identification and functional characterization of PTK7 ligands in Xenopus laevis / Identifizierung und funktionelle Charakterisierung von PTK7-Liganden in Xenopus laevis Peradziryi, Hanna 04 May 2011 (has links) No description available. 000 Allgemeines Wissenschaft kanonische Wnt-Signalweg Zellpolarität-Wnt-Signalweg Xenopus canonical Wnt signaling planar cell polarity Xenopus 42.13 W
115	Études génétiques moléculaires du gène de la polarité planaire SCRIBBLE1 chez les anomalies du tube neural Kharfallah, Fares 05 1900 (has links) Les anomalies du tube neural (ATN), incluant l'anencéphalie et le spina-bifida, représentent un groupe de malformations congénitales très fréquentes chez l'homme. Ces anomalies sont causées par un défaut partiel ou complet de la fermeture du tube neurale au cours de l'embryogenèse. Les ATN ont une étiologie complexe et multifactorielle impliquant des facteurs environnementaux et génétiques. La voie de signalisation non-canonique du Frizzled (Fz)/Dishevelled (Dvl) contrôle la polarité cellulaire planaire (PCP) et le processus morphogénétique appelé l’extension convergente qui est essentiel pour la gastrulation et la fermeture du tube neural. Très important, des mutations des gènes de cette voie étaient fortement associées aux ATN chez la souris et l’humain. Scribble est un gène de la voie PCP qui cause une sévère ATN chez la souris Circletail. Notre étude vise à analyser le rôle de SCRIBBLE1 dans les ATN humains par des analyses de séquence de son cadre de lecture et ses jonctions exon-introns. Notre étude comporte 396 patients recrutés au Centre Spina Bifida de l’hôpital Gaslini en Gènes, Italie et 83 patients recrutés au Centre Spina Bifida de l’hôpital Sainte Justine. Les patients sont affectés par plusieurs formes d’ATN. Nous avons identifié neuf mutations rares et non synonymes chez 10 patients, p.Asp93Ala (c. 435G>A), p.Gly145Arg (c. 278A>C), p.Gly263Ser (c. 786C>A), p.Gly469Ser (c. 1405G>A), p.Pro649His (c. 1946C>A), p.Gln808His (c. 2424G>T), p.Val1066Met (c. 3196G>A), p.Arg1150Gln (c. 3480G>A) et p.Thr1422Met (c. 4266C>T). Cinque mutations, p.Gly263Ser, p.Pro649His, p.Gln808His, p.Arg1150Gln, p.Thr1422Met, étaient absentes dans les contrôles analysés et prédites d’être pathogéniques in silico. Cette étude montre que des mutations rares dans SCRIB1 pourraient augmenter le risque des ATN dans une fraction des patients. L’identification des gènes prédisposant aux ATN nous aidera à mieux comprendre les mécanismes pathogéniques impliqués dans ces maladies. / Neural tube defects (NTDs), including anencephaly and spina bifida, represent a group of very common birth defects in humans. These anomalies are caused by a partial or complete failure of neural tube closure during embryogenesis. NTDs have a multifactorial etiology involving environmental and genetic factors. The non-canonical signaling pathway Frizzled (Fz) / Dishevelled (Dvl) controls the planar cell polarity (PCP) and the morphogenetic process called convergent extension (CE) which is essential for gastrulation and neural tube closure. Importantly, mutations in genes of this pathway were strongly associated with NTDs in mice and humans. Scribble is a PCP gene that causes a severe NTD mouse Circletail. Scribble binds to another PCP protein, Stbm / Vang, and they cooperate together for the stability of the PCP pathway. Our study aims at investigating the role of SCRIBBLE1 in human NTDs by sequence analyses of its open reading frame and exon-intron junctions. The cohort included in this study consisted of 396 patients recruited at the Spina Bifida Centre of Gaslini Hospital in Genoa, Italy, and 83 patients recruited at the Spina Bifida Center of the Sainte Justine Hospital, Montreal, Canada. Patients were affected by several forms of NTDs. We identified nine non-synonymous and rare mutations in 10 patients: p.Asp93Ala (c. 435G>A), p.Gly145Arg (c. 278A>C), p.Gly263Ser (c. 786C>A), p.Gly469Ser (c. 1405G>A), p.Pro649His (c. 1946C>A), p.Gln808His (c. 2424G>T), p.Val1066Met (c. 3196G>A), p.Arg1150Gln (c. 3480G>A) and p.Thr1422Met (c. 4266C>T). Five of those mutations, p.Gly263Ser, p.Pro649His, p.Gln808His, p.Arg1150Gln, p.Thr1422Met, were absent in all controls analyzed and were predicted to be pathogenic using bioinformatics. Our study demonstrates that rare mutations in SCRIB1 could predispose to NTDs in a fraction of patients. The identification of genes that predispose to ATN will help us better understand the pathogenic mechanisms involved in these diseases. SCRIBBLE1 Anomalies du tube neural Polarité planaire cellulaire Extension Convergente Neural tube defects Planar cell polarity Convergent Extension
116	Analyse génétique moléculaire du gène de la voie non-canonique Frizzled/Dishevelled PRICKLE1 dans les anomalies du tube neural chez l’humain Bosoi, Marius Ciprian 08 1900 (has links) La voie de la polarité planaire cellulaire (PCP), aussi connue sous le nom de la voie non-canonique du Frizzled/Dishevelled, contrôle le processus morphogénétique de l'extension convergente (CE) qui est essentiel pour la gastrulation et la formation du tube neural pendant l'embryogenèse. La signalisation du PCP a été récemment associée avec des anomalies du tube neural (ATN) dans des modèles animaux et chez l'humain. Prickle1 est une protéine centrale de la voie PCP, exprimée dans la ligne primitive et le mésoderme pendant l'embryogenèse de la souris. La perte ou le gain de fonction de Prickle1 mène à des mouvements de CE fautifs chez le poisson zèbre et la grenouille. PRICKLE1 interagit directement avec deux autres membres de la voie PCP, Dishevelled et Strabismus/Vang. Dans notre étude, nous avons investigué le rôle de PRICKLE1 dans l'étiologie des ATN dans une cohorte de 810 patients par le re-séquençage de son cadre de lecture et des jonctions exon-intron. Le potentiel pathogénique des mutations ainsi identifiées a été évalué par des méthodes bioinformatiques, suivi par une validation fonctionnelle in vivo dans un système poisson zèbre. Nous avons identifié dans notre cohorte un total de 9 nouvelles mutations dont sept: p.Ile69Thr, p.Asn81His, p.Thr275Met, p.Arg682Cys et p.Ser739Phe, p.Val550Met et p.Asp771Asn qui affectent des acides aminés conservés. Ces mutations ont été prédites in silico d’affecter la fonction de la protéine et sont absentes dans une large cohorte de contrôles de même origine ethnique. La co-injection de ces variantes avec le gène prickle1a de type sauvage chez l’embryon de poisson zèbre a démontré qu’une mutation, p.Arg682Cys, modifie dans un sens négatif le phénotype du défaut de la CE produit par pk1 de type sauvage. Notre étude démontre que PK1 peut agir comme facteur prédisposant pour les ATN chez l’humain et élargit encore plus nos connaissances sur le rôle des gènes de la PCP dans la pathogenèse de ces malformations. / The planar cell polarity pathway (PCP) or the non-canonical Frizzled/Dishevelled pathway controls the morphogenetic process of convergent extension (CE) that is essential during embryogenesis for gastrulation and neural tube formation. Recently, PCP signalling was associated with neural tube defects (NTD) in humans and animal models. The core PCP protein, Prickle1, is expressed in the primitive streak and mesoderm during mouse embryogenesis. Both gain and loss of function of Prickle1 cause faulty CE movements in zebrafish and the frog. PRICKLE1 physically interacts with two other core PCP members, Dishevelled and Strabismus/Vang. In the present study we investigated the role of PRICKLE1 in the aetiology of NTDs in a large cohort of 810 patients through resequencing of its open reading frame and exon-intron junctions. The pathogenicity of the identified mutations was assessed through bioinformatics methods followed by a functional validation in a zebrafish system, in vivo. We identified in our cohort a total of nine novel mutations, of which seven affected conserved amino acids: p.Ile69Thr, p.Asn81His, p.Thr275Met, p.Arg682Cys, p.Ser739Phe, p.Val550Met and p.Asp771As. These mutations were predicted to affect the function of the protein in silico and were absent in a large cohort of ethnically-matched controls. Co-injection of these variants with the wild type pk1 in zebrafish oocytes revealed that one mutation, p.Arg682Cys, antagonized the CE phenotype induced by the wild-type zebrafish prickle1a in a dominant fashion. Our study demonstrates that PRICKLE1 can represent a predisposing factor for human NTDs and further expands our knowledge on the role that PCP genes in the pathogenesis of these malformations. Prickle1 Anomalies du tube neural Polarité planaire cellulaire Extension convergente Poisson zèbre Neural tube defects Planar cell polarity Convergent extension Zebrafish
117	Studies of aurora and polo kinases during cell division in C. elegans Rogers, Eric Jason. January 2005 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Vita. Bibliography: 108-115.
118	Caractérisation moléculaire et fonctionnelle d'un nouvel allèle du gène de la polarité cellulaire planaire (PCP) Vangl2 El-Hassan, Abdul-Rahman 09 1900 (has links) No description available. Anomalies du tube neural Vangl2 Polarité cellulaire planaire Neural tube defects Planar cell polarity Inner ear hair cells
119	PAR-3 et carcinome rénal à cellules claires : rôle dans la tumorigénèse / PAR-3 and clear cell renal cell carcinoma : role in tumorigenesis Dugay, Frédéric 17 December 2014 (has links) Les carcinomes rénaux représentent environ 3% des cancers chez l’adulte. Les plus fréquents parmi ces tumeurs sont les carcinomes rénaux à cellules claires (CRCC) (70% des cas). Dans une première partie, nous avons analysé le caryotype de 89 patients ayant subi une néphrectomie pour CRCC et avons corrélé les déséquilibres chromosomiques avec les principaux facteurs histo-pronostiques et cliniques de ces tumeurs. Cette étude nous a permis de confirmer l’impact diagnostique et/ou pronostique d’anomalies chromosomiques. Certaines étaient déja connues dans la littérature comme la perte du bras court d’un chromosome 3 à impact diagnostique ou la perte d’un chromosome 9 ou de son bras court associée à un pronostic défavorable. Nous avons ensuite, dans une seconde partie, sélectionné selon des critères cliniques et histologiques, deux lignées cellulaires R-180 et R-305 établies à partir de prélèvements chirurgicaux de CRCC de patients dont l’évolution clinique était défavorable pour le patient R-180 (survie de 1 an) et favorable pour le patient R-305 (survie de 7 ans). Nous avons analysé les profils cytogénétiques des deux lignées cellulaires et recherché des marqueurs d’intérêt. Nous avons mis en évidence une amplification du gène pard3 dans la lignée R-180 correspondant au patient qui est décédé 1 an après le diagnostic. Cette amplification a été associée à la surexpression de la protéine correspondante PAR-3 et à des modifications de l’organisation du cytosquelette. La diminution de l’expression de PAR-3 par transfection de siRNA dans les cellules R-180 a permis la restauration de l’organisation du cytosquelette et la réduction des capacités de migration cellulaire par rapport aux cellules non transfectées. Ce résultat suggère un rôle de PAR-3 dans la migration cellulaire des cellules R-180. Afin de valider la pertinence de ce nouveau biomarqueur dans le CRCC, nous avons étudié 101 tumeurs par immunohistochimie. Nous avons montré une corrélation significative entre la surexpression de PAR-3 dans la tumeur primitive des patients et une diminution de la survie globale et de la survie sans progression indépendamment d’autres facteurs pronostiques importants comme les métastases. De plus la surexpression de PAR-3 a été significativement associée aux facteurs histopathologiques et cliniques de mauvais pronostic : grades nucléaires de Fuhrman III ou IV, nécrose tumorale, composante sarcomatoide, atteinte surrénale, invasion de la graisse rénale ou hilaire, composante éosinophile, statut non-inactivé du gène VHL, grade tumoral plus élevé, envahissement ganglionnaire ou métastatique, et score ECOG (Eastern Cooperative Oncology Group) péjoratif. L’ensemble de nos résultats suggèrent que la surexpression de PAR-3 est associée à un risque significatif de progression et de mortalité dans le CRCC. Sa mise en évidence par immunohistochimie en routine hospitalière pourrait être utile pour identifier les patients à haut risque de progression, même en l’absence des paramètres pronostiques habituels. Des études complémentaires sont en cours pour intégrer ce biomarqueur dans les nomogrammes ainsi que pour évaluer l’impact de cette dérégulation dans la résistance des CRCC aux thérapies ciblées. / Kidney cancers represent about 3% of all adults’ malignancies. The most common form of kidney cancer is renal carcinoma of which 70 % of cases are defined as clear cell Renal Cell Carcinoma (ccRCC). We undertook a systematic review of all ccRCCs with a total of 89 patients who underwent nephrectomy surgery. We assessed the karyotype profile of all patients that we correlate with an immunohistochemical features and tumor symptoms. This study demonstrates a high impact of chromosomal abnormalities on patients’ diagnosis and prognosis. Some of these abnormalities have been submitted in other publications as the loss of the chromosome 3 p-arm which has a diagnosis impact, and the loss of the chromosome 9 or it s p-arm that have a poor prognosis impact. We selected two cell lines (R-180 and R-305) derived from ccRCC surgical specimens of a patient with unfavorable clinical course (R-180 cells) and a patient with favorable prognosis (R-305 cells) to identify genetic and molecular features that may explain the survival difference of the two patients. The cytogenetic analysis of these cell lines revealed that the pard3 gene was amplified only in the R-180 cell line that was derived from an aggressive ccRCC. The pard3 gene amplification was associated with overexpression of the encoded protein and altered cytoskeleton organization. PAR-3 knockdown in R-180 cell restored the cytoskeleton organisation and reduced cell migration in comparison to non-transfected cells. These results suggest PAR-3 role in R-180 migration cells line. With a view to corroborate the relevance of this new biomarker PAR-3 in ccRCC, we have studied 101 tumors using immunohistochemical methods. We proved a significant correlation between PAR-3 overexpression in the primitive tumor and, the decreasing of overall and free progression survival independently of other risk factors as metastasis. We also fund that the overexpression of PAR-3 is associated with an unfavorable clinical and immunohistochemical prognosis factors such as: stage III -IV in fuhrman system grading ,tumor necrosis, sarcomatoide component, supra renal metastasis, cancer spreading (surrounding fat and hilar), eosinophil component , none inactivate VHL gene, high tumor stage, lymph nodes spread, metastasis and ECOG scale. Our results reveal that the PAR-3 overexpression is associated with significant risk of ccRCCs mortality and spreading tumor. Immunohistochemical screening may be usefulness to identify patient’s high spreading risk whether the lack of the habitual prognosis parameters. Other studies are in progress to integrate this biomarker in nomograms and also to evaluate the impact on ccRCC’s resistance to targeted therapy. Carcinomes rénaux à cellules claires Cytogénétique Polarité cellulaire Par-3 Agressivité clinique Cell polarity Par-3 Clinical aggressiveness
120	The role of Dkk1 and Wnt5a in mammalian kidney development and disease Pietilä, I. (Ilkka) 13 January 2015 (has links) Abstract This thesis focuses on mammalian kidney development and in particular on the question of how two Wnt signalling pathway genes, an antagonistic Dkk1 and an agonistic ligand Wnt5a, regulate the process. Wnts are secreted ligands that are involved in many developmental processes, including gonadal differentiation and kidney development, but also in various diseases and malformations. Wnts form a large signalling family containing 19 different glycoprotein ligands in mammals. Wnt signalling occurs via two different intracellular pathways. A canonical pathway proceeds via beta-catenin, and a non-canonical pathway utilizes other signalling molecules. Dkk1 is an antagonist of the canonical pathway and Wnt5a is considered a ligand that activates the non-canonical signalling pathway. As part of the thesis, I have studied the role of Dkk1 in kidney morphogenesis using a conditional mouse model, in which the gene is deleted in a cell specific manner from the collecting ducts. Dkk1 deficiency increased renal papilla growth and the risk of hydronephrosis. Research pointed out that the lack of Dkk1 in the collecting ducts increased cell proliferation and disturbed the balance of canonical Wnt signalling, which led to an overgrowth of renal papilla. This led to functional phenotypes including increased water reabsorption and changes in ion secretion/absorption. These changes are most likely due to altered Wnt7b signalling. The second part of the thesis examines the role of the non-canonical Wnt5a gene in kidney development with a conventional knock out mouse model. At the time work began on the thesis, no corresponding kidney phenotype had been published. The primary finding in kidneys lacking Wnt5a was an altered basement membrane organization of the collecting ducts and glomeruli. The phenotype is most likely the reason behind morphological phenotypes which vary from bilateral kidney agenesis to duplex collecting system. Notably, during the course of this study we found a mutation in the human WNT5A gene of a CAKUT patient. This is the first time Wnts have been shown to organize kidney development via basement membrane formation. / Tiivistelmä Tämän väitöskirjan tarkoituksena on ollut tutkia munuaisen kehitystä ja kuinka kaksi Wnt-signalointireitin geeniä, signalointia estävä Dkk1 ja signalointia edistävä Wnt5a säätelevät sitä. Wnt ligandit ovat eritettäviä signaalimolekyylejä, jotka ovat osallisina monissa kehitysbiologissa prosesseissa kuten sukupuolen määräytymisessä ja munuaisen kehityksessä. Myös monissa taudeissa on havaittu muuntuneita Wnt geenien tuottotasoja. Wnt-geenit muodostava suuren signalointimolekyyliperheen, johon lukeutuu 19 jäsentä nisäkkäillä ja Wnt-signointi on jaettu perinteisesti kahteen signalointiryhmään. Dkk1 on kanonisen Wnt-signaloinnin estäjä ja Wnt5a:ta pidetään pääsaantiöisesti ei-kanonisena Wnt-ligandina. Väitöskirjassani olen tutkinut Dkk1 geenin toimintaa kohdennetussa Dkk1-poistogeenisessä hiiressä, jossa geenin toiminta on poistettu spesifisesti munuaisen kokoojaputkista. Dkk1:n puutos johtaa munuaisen papillan kasvuun ja lisää riskiä hydronefroksen muodostumiseen. Tutkimukset osoittivat että Dkk1:n puutos aiheuttaa lisääntynyttä solujakautumista kokoojaputkissa, jolloin Wnt-signaloinnin muutos aiheuttaa papillan ylikasvua. Ylikasvusta seuraa lisääntynyttä veden takaisin imeytymistä ja muutoksia ionien erittämisessä ja takaisin imeytymisessä. Todennäköisimmin muutokset johtuvat muuntuneesta Wnt7b signaloinnista, jota Dkk1 normaalisti säätelee. Väitöskirjan toisessa osassa tutkittiin ei-kanonisen reitin Wnt5a ligandin roolia munuaisen kehityksessä käyttäen poistogeenistä hiirimallia, jossa Wnt5a:n roolia munuaisenkehityksessä ei ollut julkaistu työn aloituksen aikaan. Wnt5a:n puutoksen havaittiin vaikuttavan tyvikalvon järjestymiseen kokoojaputkissa ja munuaiskeräsessä. Tyvikalvon häiriö on todennäköisin syy morfologisiin muutoksiin, jotka vaihtelevat molempien munuaisen puuttumisesta kaksois-kokoojatiehyen muodostumiseen. Työssä osoitetaan ensimmäistä kertaa kuinka Wnt-signalointireitin proteiinit säätelevät munuaisen kehitystä tyvikalvon muodostuksen kautta. Dkk1 Kidney development Wnt-signalling Wnt5a basement membrane cell polarity cell proliferation collagen laminin Dkk1 Wnt-signalointi Wnt5a kollageeni laminiini munuaisen kehitys solun jakautuminen solun polariteetti tyvikalvo

Search results