Characterization of the expression of PDZ-RhoGEF, LARG and Gα 12 /Gα 13 proteins in the murine nervous system
2002; Wiley; Volume: 16; Issue: 12 Linguagem: Inglês
10.1046/j.1460-9568.2002.02402.x
ISSN1460-9568
AutoresRohini Kuner, Jakub M. Swiercz, Alexandra Zywietz, Anke Tappe, Stefan Offermanns,
Tópico(s)Neuroscience and Neuropharmacology Research
ResumoAbstract Small GTPases of the Rho‐family, like Rho, Rac and Cdc42, are involved in neuronal morphogenesis by regulating growth cone morphology or dendritic spine formation. G‐proteins of the G 12 ‐family, G 12 and G 13 , couple G‐protein‐coupled receptors (GPCRs) to the activation of RhoA. Recently, two novel Rho‐specific guanine nucleotide exchange factors (RhoGEFs), PDZ‐RhoGEF and LARG, have been identified to interact with the activated α‐subunits of G 12 /G 13 and are thus believed to mediate GPCR‐induced Rho activation. Although studies in neuronal cell lines have shown that G 12 /G 13 and PDZ‐RhoGEF mediate GPCR‐induced neurite retraction, the role, as well as the expression of this signalling pathway, in intact brain has not been adequately studied. In the present study, we have characterized systematically the expression of Gα 12 , Gα 13 , PDZ‐RhoGEF and LARG in various murine tissues as well as their subcellular localization in the central and peripheral nervous systems. By performing immunohistochemistry, using polyclonal antibodies raised against the above proteins, we observed that Gα 12 , Gα 13 and their RhoGEF‐effectors are distributed widely in the mammalian nervous system. Moreover, these proteins localize to distinct morphological compartments within neurons. While LARG and Gα 12 were mainly found in somata of the neurons, PDZ‐RhoGEF and Gα 13 were predominantly localized in the neuropil of central neurons. Interestingly, PDZ‐RhoGEF is a neural‐specific protein, whereas LARG is nearly ubiqoutous. Our data provide evidence that the G 12/13 –RhoGEF‐mediated pathway is present throughout the adult brain and may be involved in regulation of neuronal morphogenesis and function via GPCRs.
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