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HPMR

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176557

roundabout guidance receptor 4 OKDB#: 4151
 Symbols: ROBO4 Species: human
 Synonyms: MRB, ECSM4  Locus: 11q24.2 in Homo sapiens
HPMR


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General Comment
General function Receptor
Comment
Cellular localization Plasma membrane
Comment
Ovarian function Luteolysis
Comment Slit2/Robo4 Signaling: Potential Role of a VEGF-Antagonist Pathway to Regulate Luteal Permeability. Bekes I et al. (2017) Introduction The corpus luteum (CL) is dependent on luteal vascular permeability, which is controlled by human chorionic gonadotropin (hCG) via vascular endothelial growth factor (VEGF). In this study we investigated the role of a potential VEGF antagonist pathway - Slit2/Robo4 - and its influence on endothelial cell adhesion. Materials and Methods Luteinized granulosa cells (LGCs) were stimulated with hCG in the absence or presence of a VEGF inhibitor. The expression of VEGF and Slit2 were measured. Human umbilical vein endothelial cells (HUVECs) were stimulated with Slit2 or VEGF, and gene expressions of cadherin 5 (CDH5) and claudin 5 (CLDN5) were measured. Following Robo4 knockdown, CDH5, CLDN5 and endothelial permeability were measured. Results Stimulation of human LGCs with hCG significantly increased VEGF while Slit2 expression was significantly suppressed. Inhibition of VEGF action after hCG stimulation did not change Slit2 suppression. Slit2 knockdown did not affect VEGF expression. While VEGF stimulation of HUVECs significantly suppressed CDH5 and CLDN5 gene expression, stimulation of HUVECs with Slit2 resulted in a significant increase in CDH5 and CLDN5. Robo4 knockdown was done, leading to downregulation of CDH5 and CLDN5 which resulted in significantly increased permeability. Conclusions Our results indicate the existence of a VEGF-antagonist pathway in the CL that decreases vascular permeability. During the functional life of the CL the pathway is suppressed by hCG. It is possible that stimulation of this pathway could be used to treat ovarian hyperstimulation syndrome. Einleitung Voraussetzung für die regelrechte Funktion des Corpus luteum ist ein durchlässiges Gefäßsystem. Diese vaskuläre Durchlässigkeit wird durch die Einwirkung des humanen Choriogonadotropins (hCG) auf den Vascular Endothelial Growth Factor (VEGF) kontrolliert. In dieser Studie untersuchten wir ein potenzielles VEGF-antagonistisches System – das Slit2/Robo4-System – und dessen Auswirkung auf die endotheliale Zelladhäsion. Material und Methoden Luteinisierte Granulosazellen (LGC) wurden mit hCG stimuliert mit oder ohne Beigabe eines VEGF-Hemmers. Es wurde die VEGF- und Slit2-Expression gemessen. Aus der menschlichen Nabelschnur gewonnene venöse Endothelzellen (HUVECs) wurden mit Slit2 oder VEGF stimuliert. Danach wurde die Genexpression von Cadherin 5 (CDH5) und Claudin 5 (CLDN5) gemessen. Es wurden ein Robo4-Knockdown durchgeführt und die nachfolgende CDH5- und CLDN5-Expression sowie die endotheliale Durchlässigkeit gemessen. Ergebnisse Die Stimulation von menschlichen LGCs mit dem hCG führte zu einer wesentlichen Steigerung von VEGF, während die Slit2-Expression signifikant unterdrückt wurde. Die Hemmung der VEGF-Aktivität nach der hCG-Stimulation wirkte sich nicht auf die Unterdrückung der Slit2-Expression aus. Der Slit2-Knockdown hatte keine Auswirkungen auf die VEGF-Expression. Während die VEGF-Stimulation von HUVECs die Genexpression von CDH5 und CLDN5 signifikant unterdrückte, führte die Slit2-Stimulation von HUVECs zu einer signifikanten Steigerung der CDH5- und CLDN5-Expression. Es wurde ein Robo4-Knockdown durchgeführt, was zu einer Herabregulation von CDH5 und CLDN5 führte und die Durchlässigkeit signifikant steigerte. Schlussfolgerung Unsere Ergebnisse weisen auf das Vorhandensein eines VEGF-antagonistischen Systems im Corpus luteum hin, das die vaskuläre Gefäßdurchlässigkeit mindert. Dieses System wird während der Funktionsdauer des Corpus luteum durch das hCG unterdrückt. Es kann daher angenommen werden, dass eine Stimulation dieses Systems zur Behandlung beispielsweise des ovariellen Hyperstimulationssyndroms eingesetzt werden könnte.//////////////////
Expression regulated by
Comment
Ovarian localization Oocyte
Comment Involvement of the SLIT/ROBO pathway in follicle development in the fetal ovary. Dickinson RE et al. In humans and domestic mammals pivotal processes in ovary development, including primordial follicle assembly, occur prenatally. These events are essential for determining fertility in adult life however they remain poorly understood at the mechanistic level. In mammals the SLITs (SLIT1, SLIT2, SLIT3) and their ROBO (ROBO1, ROBO2, ROBO3/RIG-1, ROBO4/MAGIC ROBO) receptors regulate neural, leukocyte, vascular smooth muscle cell and endothelial cell migration. In addition the SLIT/ROBO pathway has functional roles in embryonic development and in the adult ovary by inhibiting cell migration and promoting apoptosis. We therefore characterised follicle formation and investigated the expression and localisation of the ROBO/SLIT pathway in the ovine fetal ovary. Using RT-PCR, we identified SLIT2, SLIT3, ROBO1, ROBO2 and ROBO4 in sheep ovaries harvested across gestation. The real-time quantitative PCR results implied that ROBO2 and ROBO4 expression were elevated during the early stages of follicle formation and stayed abundant during primordial follicle maturation (P<0.05). Immunohistochemistry examination demonstrated that ROBO1 was localised to the pre-granulosa cells while ROBO2, ROBO4 and SLIT2 were expressed in the oocytes of the developing primordial follicle. This indicates that in the fetal ovary SLIT-ROBO signalling may require an autocrine and paracrine interaction. Furthermore at the time of increased SLIT-ROBO expression there was a significant reduction in the number of proliferating oocytes in the developing ovary (P<0.0001). Overall these results suggest, for the first time, that the SLIT-ROBO pathway is expressed at the time of follicle formation during fetal ovary development.
Follicle stages Primordial
Comment
Phenotypes
Mutations 0 mutations
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created: Nov. 18, 2009, 10:21 a.m. by: hsueh   email:
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last update: Feb. 15, 2017, 12:49 p.m. by: hsueh    email:



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