Literature DB >> 25439726

Truncating and missense mutations in IGHMBP2 cause Charcot-Marie Tooth disease type 2.

Ellen Cottenie1, Andrzej Kochanski2, Albena Jordanova3, Boglarka Bansagi4, Magdalena Zimon3, Alejandro Horga1, Zane Jaunmuktane5, Paola Saveri6, Vedrana Milic Rasic7, Jonathan Baets8, Marina Bartsakoulia4, Rafal Ploski9, Pawel Teterycz9, Milos Nikolic10, Ros Quinlivan11, Matilde Laura1, Mary G Sweeney12, Franco Taroni13, Michael P Lunn11, Isabella Moroni14, Michael Gonzalez15, Michael G Hanna1, Conceicao Bettencourt16, Elodie Chabrol17, Andre Franke18, Katja von Au19, Markus Schilhabel18, Dagmara Kabzińska2, Irena Hausmanowa-Petrusewicz2, Sebastian Brandner5, Siew Choo Lim20, Haiwei Song21, Byung-Ok Choi22, Rita Horvath4, Ki-Wha Chung23, Stephan Zuchner15, Davide Pareyson6, Matthew Harms24, Mary M Reilly1, Henry Houlden25.   

Abstract

Using a combination of exome sequencing and linkage analysis, we investigated an English family with two affected siblings in their 40s with recessive Charcot-Marie Tooth disease type 2 (CMT2). Compound heterozygous mutations in the immunoglobulin-helicase-μ-binding protein 2 (IGHMBP2) gene were identified. Further sequencing revealed a total of 11 CMT2 families with recessively inherited IGHMBP2 gene mutations. IGHMBP2 mutations usually lead to spinal muscular atrophy with respiratory distress type 1 (SMARD1), where most infants die before 1 year of age. The individuals with CMT2 described here, have slowly progressive weakness, wasting and sensory loss, with an axonal neuropathy typical of CMT2, but no significant respiratory compromise. Segregating IGHMBP2 mutations in CMT2 were mainly loss-of-function nonsense in the 5' region of the gene in combination with a truncating frameshift, missense, or homozygous frameshift mutations in the last exon. Mutations in CMT2 were predicted to be less aggressive as compared to those in SMARD1, and fibroblast and lymphoblast studies indicate that the IGHMBP2 protein levels are significantly higher in CMT2 than SMARD1, but lower than controls, suggesting that the clinical phenotype differences are related to the IGHMBP2 protein levels.
Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2014        PMID: 25439726      PMCID: PMC4225647          DOI: 10.1016/j.ajhg.2014.10.002

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


  52 in total

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  29 in total

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10.  The Ighmbp2D564N mouse model is the first SMARD1 model to demonstrate respiratory defects.

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