RESUMO
The neuronal membrane glycoprotein M6a (GPM6A) belongs to the family of myelin proteolipid protein and plays a role in neuronal remodeling and plasticity. Decreased expression of GPM6A mRNA is observed in the hippocampal tissue of suicide victims who suffered from depression and after chronic stress exposure in animals. The regulatory mechanisms that impact expression of GPM6A under chronic stress or in pathological conditions are not well understood. Previously, miRNAs miR-133b, miR-124-3p, and miR-9-5p have been shown to regulate the expression of Gpm6a mRNA under normal conditions. Here, we employed the paradigm of chronic-restraint stress in rats and using quantitative polymerase chain reaction (qPCR) showed down-regulation of expression of Gpm6a and the brain-derived neurotrophic factor (Bdnf) genes at mRNA level as well as miR-133b, and miR-124-3p, but not miR-9-5p in the hippocampus of chronically stressed rats. Furthermore, we observed alterations in the expression of histone deacetylase (Hdac5) and myocyte enhancer factor 2C (Mef2c) mRNAs. Our data suggest that chronic stress influences Gpm6a expression by miR-124-mediated impact on the expression of Hdac5 and Mef2c. Upon miR-124 over-expression in hippocampal neurons cultured in vitro, we observed enhanced neuronal arborization as evaluated by Sholl analysis, increased Gpm6a and Mef2c expression, and decreased Hdac5 expression. Moreover, treatment of hippocampal neurons cultured in vitro with BDNF resulted in an elevation in the miR-124-3p expression, a decrease in the miR-9-5p expression but did not affect miR-133b. This was accompanied by augmented expression of Gpm6a and Mef2c mRNAs and significantly lower levels of Hdac5 mRNA. Altogether, these results indicate that the regulatory mechanism that influence expression of Gpm6a under chronic stress involves miR-124-mediated impact on the expression of Hdac5 and Mef2c and a role of BDNF in the activation of Gpm6a expression.
Assuntos
Fator Neurotrófico Derivado do Encéfalo , MicroRNAs , Animais , Ratos , Fator Neurotrófico Derivado do Encéfalo/metabolismo , Regulação para Baixo , Hipocampo/metabolismo , Histona Desacetilases/genética , Histona Desacetilases/metabolismo , MicroRNAs/genética , MicroRNAs/metabolismo , Neurônios/metabolismoRESUMO
Neuronal membrane glycoprotein M6a (Gpm6a) is a protein with four transmembrane regions and the N- and the C-ends facing the cytosol. It functions in processes of neuronal development, outgrowth of neurites, and formation of filopodia, spines, and synapsis. Molecular mechanisms by which Gpm6a acts in these processes are not fully comprehended. Structural similarities of Gpm6a with tetraspanins led us to hypothesize that, similarly to tetraspanins, the cytoplasmic tails function as connections with cytoskeletal and/or signaling proteins. Here, we demonstrate that the C- but not the N-terminal cytosolic end of Gpm6a is required for the formation of filopodia by Gpm6a in cultured neurons from rat hippocampus and in neuroblastoma cells N2a. Further immunofluorescence microcopy and flow cytometry analysis show that deletion of neither the N- nor the C-terminal intracellular domains interferes with the recognition of Gpm6a by the function-blocking antibody directed against the extracellular part of Gpm6a. Expression levels of both truncation mutants were not affected but we observed decrease in the amount of both truncated proteins on cell surface suggesting that the incapacity of the Gpm6a lacking C-terminus to induce filopodium formation is not due to the lower amount of Gpm6a on cell surface. Following colocalization assays shows that deletion of the C- but not the N-terminus diminishes the association of Gpm6a with clathrin implying involvement of clathrin-mediated trafficking events. Next, using comprehensive alanine scanning mutagenesis of the C-terminus we identify K250, K255, and E258 as the key residues for the formation of filopodia by Gpm6a. Substitution of these charged residues with alanine also diminishes the amount of Gpm6a on cell surface and in case of K255 and E258 leads to the lower amount of total expressed protein. Subsequent bioinformatic analysis of Gpm6a amino acid sequence reveals that highly conserved and functional residues cluster preferentially within the C- and not within the N-terminus and that K250, K255, and E258 are predicted as part of sorting signals of transmembrane proteins. Altogether, our results provide evidence that filopodium outgrowth induced by Gpm6a requires functionally critical residues within the C-terminal cytoplasmic tail.
RESUMO
Stress-responsive neuronal membrane glycoprotein M6a (Gpm6a) functions in neurite extension, filopodium and spine formation and synaptogenesis. The mechanisms of Gpm6a action in these processes are incompletely understood. Previously, we identified the actin regulator coronin-1a (Coro1a) as a putative Gpm6a interacting partner. Here, we used co-immunoprecipitation assays with the anti-Coro1a antibody to show that Coro1a associates with Gpm6a in rat hippocampal neurons. By immunofluorescence microscopy, we demonstrated that in hippocampal neurons Coro1a localizes in F-actin-enriched regions and some of Coro1a spots co-localize with Gpm6a labeling. Notably, the over-expression of a dominant-negative form of Coro1a as well as its down-regulation by siRNA interfered with Gpm6a-induced filopodium formation. Coro1a is known to regulate the plasma membrane translocation and activation of small GTPase Rac1. We show that Coro1a co-immunoprecipitates with Rac1 together with Gpm6a. Pharmacological inhibition of Rac1 resulted in a significant decrease in filopodium formation by Gpm6a. The same was observed upon the co-expression of Gpm6a with the inactive GDP-bound form of Rac1. In this case, the elevated membrane recruitment of GDP-bound Rac1 was detected as well. Moreover, the kinase activity of the p21-activated kinase 1 (Pak1), a main downstream effector of Rac1 that acts downstream of Coro1a, was required for Gpm6a-induced filopodium formation. Taken together, our results provide evidence that a signaling pathway including Coro1a, Rac1, and Pak1 facilitates Gpm6a-induced filopodium formation. Formation of filopodia by membrane glycoprotein M6a (Gpm6a) requires actin regulator coronin-1a (Coro1a), known to regulate plasma membrane localization and activation of Rac1 and its downstream effector Pak1. Coro1a associates with Gpm6a. Blockage of Coro1a, Rac1, or Pak1 interferes with Gpm6a-induced filopodium formation. Moreover, Gpm6a facilitates Rac1 membrane recruitment. Altogether, a mechanistic insight into the process of Gpm6a-induced neuronal filopodium formation is provided.