Mutations in the Small GTPase Gene RAB39B Are Responsible for X-linked Mental Retardation Associated with Autism, Epilepsy, and Macrocephaly

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2010 Feb 18

PMID 20159109

Citations 124

Authors

Maila Giannandrea

Veronica Bianchi

Maria Lidia Mignogna

Alessandra Sirri

Salvatore Carrabino

Errico DElia

Matteo Vecellio

Silvia Russo

Francesca Cogliati

Lidia Larizza

Hans-Hilger Ropers

Andreas Tzschach

Vera Kalscheuer

Barbara Oehl-Jaschkowitz

Cindy Skinner

Charles E Schwartz

Jozef Gecz

Hilde Van Esch

Martine Raynaud

Jamel Chelly

Arjan P M de Brouwer

Daniela Toniolo

Patrizia DAdamo

Affiliations

Soon will be listed here.

Abstract

Human Mental Retardation (MR) is a common and highly heterogeneous pediatric disorder affecting around 3% of the general population; at least 215 X-linked MR (XLMR) conditions have been described, and mutations have been identified in 83 different genes, encoding proteins with a variety of function, such as chromatin remodeling, synaptic function, and intracellular trafficking. The small GTPases of the RAB family, which play an essential role in intracellular vesicular trafficking, have been shown to be involved in MR. We report here the identification of mutations in the small GTPase RAB39B gene in two male patients. One mutation in family X (D-23) introduced a stop codon seven amino acids after the start codon (c.21C > A; p.Y7X). A second mutation, in the MRX72 family, altered the 5' splice site (c.215+1G > A) and normal splicing. Neither instance produced a protein. Mutations segregate with the disease in the families, and in some family members intellectual disabilities were associated with autism spectrum disorder, epileptic seizures, and macrocephaly. We show that RAB39B, a novel RAB GTPase of unknown function, is a neuronal-specific protein that is localized to the Golgi compartment. Its downregulation leads to an alteration in the number and morphology of neurite growth cones and a significant reduction in presynaptic buttons, suggesting that RAB39B is required for synapse formation and maintenance. Our results demonstrate developmental and functional neuronal alteration as a consequence of downregulation of RAB39B and emphasize the critical role of vesicular trafficking in the development of neurons and human intellectual abilities.

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