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Non-Microtubular Localizations of Microtubule-Associated Protein 6 (MAP6)

Sylvie Gory-Fauré 1, * Vanessa Windscheid 1 Jacques Brocard 1 Sylvie Montessuit 2 Ryouhei Tsutsumi 3 Eric Denarier 1 Yuko Fukata 3 Christophe Bosc 1 Julie Delaroche 1 Nora Collomb 1 Masaki Fukata 3 Jean-Claude Martinou 2 Karin Pernet-Gallay 1 Annie Andrieux 1, *
* Corresponding author
1 Equipe 1 : Physiopathologie du Cytosquelette
UJF - Université Joseph Fourier - Grenoble 1, CEA - Commissariat à l'énergie atomique et aux énergies alternatives, INSERM - Institut National de la Santé et de la Recherche Médicale : U836, [GIN] Grenoble Institut des Neurosciences
Abstract : MAP6 proteins (MAP6s), which include MAP6-N (also called Stable Tubule Only Polypeptide, or STOP) and MAP6d1 (MAP6 domain-containing protein 1, also called STOP-Like protein 21 kD, or SL21), bind to and stabilize microtubules. MAP6 deletion in mice severely alters integrated brain functions and is associated with synaptic defects, suggesting that MAP6s may also have alternative cellular roles. MAP6s reportedly associate with the Golgi apparatus through palmitoylation of their N-terminal domain, and specific isoforms have been shown to bind actin. Here, we use heterologous systems to investigate several biochemical properties of MAP6 proteins. We demonstrate that the three N-terminal cysteines of MAP6d1 are palmitoylated by a subset of DHHC-type palmitoylating enzymes. Analysis of the subcellular localization of palmitoylated MAP6d1, including electron microscopic analysis, reveals possible localization to the Golgi and the plasma membrane but no association with the endoplasmic reticulum. Moreover, we observed localization of MAP6d1 to mitochondria, which requires the N-terminus of the protein but does not require palmitoylation. We show that endogenous MAP6d1 localized at mitochondria in mature mice neurons as well as at the outer membrane and in the intermembrane space of purified mouse mitochondria. Last, we found that MAP6d1 can multimerize via a microtubule-binding module. Interestingly, most of these properties of MAP6d1 are shared by MAP6-N. Together, these results describe several properties of MAP6 proteins, including their intercellular localization and multimerization activity, which may be relevant to neuronal differentiation and synaptic functions.
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Sylvie Gory-Fauré, Vanessa Windscheid, Jacques Brocard, Sylvie Montessuit, Ryouhei Tsutsumi, et al.. Non-Microtubular Localizations of Microtubule-Associated Protein 6 (MAP6). PLoS ONE, Public Library of Science, 2014, 9 (12), e114905-24p. ⟨10.1371/journal.pone.0114905⟩. ⟨inserm-01114907⟩

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