Mutations in DYNC1H1 cause severe intellectual disability with neuronal migration defects
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Publication year
2012Source
Journal of Medical Genetics, 49, 3, (2012), pp. 179-83ISSN
Publication type
Article / Letter to editor
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Organization
Primary and Community Care
Human Genetics
Paediatrics - OUD tm 2017
Neurology
Journal title
Journal of Medical Genetics
Volume
vol. 49
Issue
iss. 3
Page start
p. 179
Page end
p. 83
Subject
DCN MP - Plasticity and memory; IGMD 3: Genomic disorders and inherited multi-system disorders; IGMD 3: Genomic disorders and inherited multi-system disorders DCN MP - Plasticity and memory; NCEBP 7: Effective primary care and public health; NCMLS 6: Genetics and epigenetic pathways of disease DCN MP - Plasticity and memory; NCMLS 6: Genetics and epigenetic pathways of disease IGMD 3: Genomic disorders and inherited multi-system disordersAbstract
BACKGROUND: DYNC1H1 encodes the heavy chain protein of the cytoplasmic dynein 1 motor protein complex that plays a key role in retrograde axonal transport in neurons. Furthermore, it interacts with the LIS1 gene of which haploinsufficiency causes a severe neuronal migration disorder in humans, known as classical lissencephaly or Miller-Dieker syndrome. AIM: To describe the clinical spectrum and molecular characteristics of DYNC1H1 mutations. METHODS: A family based exome sequencing approach was used to identify de novo mutations in patients with severe intellectual disability. RESULTS: In this report the identification of two de novo missense mutations in DYNC1H1 (p.Glu1518Lys and p.His3822Pro) in two patients with severe intellectual disability and variable neuronal migration defects is described. CONCLUSION: Since an autosomal dominant mutation in DYNC1H1 was previously identified in a family with the axonal (type 2) form of Charcot- Marie-Tooth (CMT2) disease and mutations in Dync1h1 in mice also cause impaired neuronal migration in addition to neuropathy, these data together suggest that mutations in DYNC1H1 can lead to a broad phenotypic spectrum and confirm the importance of DYNC1H1 in both central and peripheral neuronal functions.
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- Academic publications [243984]
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- Faculty of Medical Sciences [92811]
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