CHMP2B C-truncating mutations in frontotemporal lobar degeneration are associated with an aberrant endosomal phenotype in vitro.

The charged multivesicular body protein 2B gene (CHMP2B) was recently associated with frontotemporal lobar degeneration (FTLD) linked to chromosome 3 in a Danish FTLD family (FTD-3). In this family, a mutation in the acceptor splice site of exon 6 produced two aberrant transcripts predicting two C-truncated CHMP2B proteins due to a read through of intron 5 (p.Met178ValfsX2) and a cryptic splicing event within exon 6 (p.Met178LeufsX30). Extensive mutation analysis of CHMP2B in Belgian patients (N = 146) identified one nonsense mutation in exon 5 (c.493C>T) in a familial FTLD patient, predicting a C-truncated protein p.Gln165X analogous to the Danish mutant proteins. Overexpression of Belgian p.Gln165X in human neuroblastoma SK-N-SH cells showed the formation of large, aberrant endosomal structures that were highly similar to those observed for Danish p.Met178ValfsX2. Together, these data suggest that C-truncating mutations in CHMP2B might underlie the pathogenic mechanism in FTLD by disturbing endosome function. We also describe a missense mutation in exon 5 of CHMP2B (p.Asn143Ser) in a familial patient with cortical basal degeneration. However, the pathogenic character of this mutation remains elusive.

[1]  K. Sleegers,et al.  Mutations other than null mutations producing a pathogenic loss of progranulin in frontotemporal dementia , 2007, Human mutation.

[2]  C. Broeckhoven,et al.  Evaluation of breast cancer risk assessment packages in the family history evaluation and screening programme , 2003, Journal of medical genetics.

[3]  R. Faber,et al.  Frontotemporal lobar degeneration: a consensus on clinical diagnostic criteria. , 1999, Neurology.

[4]  W. Sundquist,et al.  The Protein Network of HIV Budding , 2003, Cell.

[5]  Holger Hummerich,et al.  Mutations in the endosomal ESCRTIII-complex subunit CHMP2B in frontotemporal dementia , 2005, Nature Genetics.

[6]  M. Freedman,et al.  Frontotemporal lobar degeneration , 1998, Neurology.

[7]  S. Emr,et al.  The Vps4p AAA ATPase regulates membrane association of a Vps protein complex required for normal endosome function , 1998, The EMBO journal.

[8]  A. M. Riley,et al.  Identification of Mammalian Vps24p as an Effector of Phosphatidylinositol 3,5-Bisphosphate-dependent Endosome Compartmentalization* , 2003, Journal of Biological Chemistry.

[9]  Jennifer Farmer,et al.  Frontotemporal dementia: Clinicopathological correlations , 2006, Annals of neurology.

[10]  Joseph James Duffy,et al.  Clinicopathologic analysis of frontotemporal and corticobasal degenerations and PSP , 2006, Neurology.

[11]  W. Sundquist,et al.  Structure and ESCRT-III protein interactions of the MIT domain of human VPS4A. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[12]  J. Grafman,et al.  Genetic Variability in CHMP2B and Frontotemporal Dementia , 2006, Neurodegenerative Diseases.

[13]  P. Heutink,et al.  CHMP2B mutations are not a cause of dementia in Dutch patients with familial and sporadic frontotemporal dementia , 2006, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[14]  N. Niikawa,et al.  CHMP4B, a novel gene for autosomal dominant cataracts linked to chromosome 20q. , 2007, American journal of human genetics.

[15]  P. Hanson,et al.  Structure/Function Analysis of Four Core ESCRT‐III Proteins Reveals Common Regulatory Role for Extreme C‐Terminal Domain , 2007, Traffic.

[16]  S. Melquist,et al.  Mutations in progranulin cause tau-negative frontotemporal dementia linked to chromosome 17 , 2006, Nature.

[17]  J. Lupski,et al.  Nonsense-mediated mRNA decay modulates clinical outcome of genetic disease , 2006, European Journal of Human Genetics.

[18]  S. Young,et al.  ESCRT-III Dysfunction Causes Autophagosome Accumulation and Neurodegeneration , 2007, Current Biology.

[19]  J. Hardy,et al.  Sequence analysis of all identified open reading frames on the frontal temporal dementia haplotype on chromosome 3 fails to identify unique coding variants except in CHMP2B , 2006, Neuroscience Letters.

[20]  P. Hanson,et al.  Interaction of the Mammalian Endosomal Sorting Complex Required for Transport (ESCRT) III Protein hSnf7-1 with Itself, Membranes, and the AAA+ ATPase SKD1* , 2005, Journal of Biological Chemistry.

[21]  D. Neary,et al.  CHMP2B mutations are not a common cause of frontotemporal lobar degeneration , 2006, Neuroscience Letters.

[22]  D. Neary,et al.  Frontotemporal dementia , 2005, The Lancet Neurology.

[23]  J. Lupski,et al.  Molecular mechanism for distinct neurological phenotypes conveyed by allelic truncating mutations , 2004, Nature Genetics.

[24]  S. Radoshitzky,et al.  Release of autoinhibition converts ESCRT-III components into potent inhibitors of HIV-1 budding , 2006, Proceedings of the National Academy of Sciences.

[25]  D. Neary,et al.  Qualitative neuropsychological performance characteristics in frontotemporal dementia and Alzheimer’s disease , 2005, Journal of Neurology, Neurosurgery & Psychiatry.

[26]  Andrew Kertesz,et al.  The evolution and pathology of frontotemporal dementia. , 2005, Brain : a journal of neurology.

[27]  C. van Broeckhoven,et al.  Frontotemporal Lobar Degeneration with Ubiquitin-Positive Inclusions: A Molecular Genetic Update , 2007, Neurodegenerative Diseases.

[28]  K. Köhrer,et al.  Multilamellar endosome-like compartment accumulates in the yeast vps28 vacuolar protein sorting mutant. , 1996, Molecular biology of the cell.

[29]  M. Hallett,et al.  Clinical research criteria for the diagnosis of progressive supranuclear palsy (Steele-Richardson-Olszewski syndrome) , 1996, Neurology.

[30]  A. Lang,et al.  Motor neuron disease‐inclusion dementia presenting as cortical‐basal ganglionic degeneration , 1999, Movement disorders : official journal of the Movement Disorder Society.

[31]  J. P. Brandel,et al.  Accuracy of the Clinical Diagnosis of Corticobasal Degeneration , 1997, Neurology.

[32]  Markus Babst,et al.  Escrt-III: an endosome-associated heterooligomeric protein complex required for mvb sorting. , 2002, Developmental cell.

[33]  M. Babst A Protein's Final ESCRT , 2005, Traffic.

[34]  W. B. Snyder,et al.  Endosome-associated complex, ESCRT-II, recruits transport machinery for protein sorting at the multivesicular body. , 2002, Developmental cell.

[35]  C. van Broeckhoven,et al.  novoSNP, a novel computational tool for sequence variation discovery. , 2005, Genome research.

[36]  J. Hardy,et al.  Familial non-specific dementia maps to chromosome 3. , 1995, Human molecular genetics.

[37]  R. Petersen,et al.  Highly active antiretroviral therapy reverses brain metabolite abnormalities in mild HIV dementia , 1999, Neurology.

[38]  Ronald C. Petersen,et al.  Association of missense and 5′-splice-site mutations in tau with the inherited dementia FTDP-17 , 1998, Nature.

[39]  A. Godbolt,et al.  Frontotemporal lobar degeneration with ubiquitin-only-immunoreactive neuronal changes: broadening the clinical picture to include progressive supranuclear palsy. , 2004, Brain : a journal of neurology.

[40]  C. Duijn,et al.  Null mutations in progranulin cause ubiquitin-positive frontotemporal dementia linked to chromosome 17q21 , 2006, Nature.