RAB39B is a member of the RAB family of small GTPases that controls intracellular vesicular trafficking in a compartment-specific manner. Mutations in the RAB39B gene cause intellectual disability comorbid with autism spectrum disorder and epilepsy, but the impact of RAB39B loss of function on synaptic activity is largely unexplained. Here we show that protein interacting with C-kinase 1 (PICK1) is a downstream effector of GTP-bound RAB39B and that RAB39B-PICK1 controls trafficking from the endoplasmic reticulum to the Golgi and, hence, surface expression of GluA2, a subunit of alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors (AMPARs). The role of AMPARs in synaptic transmission varies depending on the combination of subunits (GluA1, GluA2 and GluA3) they incorporate. RAB39B downregulation in mouse hippocampal neurons skews AMPAR composition towards non GluA2-containing Ca2+ -permeable forms and thereby alters synaptic activity, specifically in hippocampal neurons. We posit that the resulting alteration in synaptic function underlies cognitive dysfunction in RAB39B-related disorders.

The intellectual disability protein RAB39B selectively regulates GluA2 trafficking to determine synaptic AMPAR composition

Gurgone A.;Gatti S.;
2015-01-01

Abstract

RAB39B is a member of the RAB family of small GTPases that controls intracellular vesicular trafficking in a compartment-specific manner. Mutations in the RAB39B gene cause intellectual disability comorbid with autism spectrum disorder and epilepsy, but the impact of RAB39B loss of function on synaptic activity is largely unexplained. Here we show that protein interacting with C-kinase 1 (PICK1) is a downstream effector of GTP-bound RAB39B and that RAB39B-PICK1 controls trafficking from the endoplasmic reticulum to the Golgi and, hence, surface expression of GluA2, a subunit of alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors (AMPARs). The role of AMPARs in synaptic transmission varies depending on the combination of subunits (GluA1, GluA2 and GluA3) they incorporate. RAB39B downregulation in mouse hippocampal neurons skews AMPAR composition towards non GluA2-containing Ca2+ -permeable forms and thereby alters synaptic activity, specifically in hippocampal neurons. We posit that the resulting alteration in synaptic function underlies cognitive dysfunction in RAB39B-related disorders.
2015
Inglese
Esperti anonimi
6
1
6504
6519
16
Animals; COS Cells; Carrier Proteins; Chlorocebus aethiops; Cognition Disorders; Electrophysiology; Gene Expression Regulation; Glutathione Transferase; Glycosylation; Golgi Apparatus; Green Fluorescent Proteins; Guanosine Triphosphate; HEK293 Cells; Hippocampus; Humans; Intellectual Disability; Mice; Mutation; Neurons; Nuclear Proteins; Protein Structure, Tertiary; Protein Transport; Receptors, AMPA; Synapses; Synaptic Transmission; Two-Hybrid System Techniques; rab GTP-Binding Proteins
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STATI UNITI D'AMERICA
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262
15
Mignogna M.L.; Giannandrea M.; Gurgone A.; Fanelli F.; Raimondi F.; Mapelli L.; Bassani S.; Fang H.; Van Anken E.; Alessio M.; Passafaro M.; Gatti S.;...espandi
info:eu-repo/semantics/article
open
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1795451
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