Dynamins in human diseases: differential requirement of dynamin activity in distinct tissues

Dynamin, a 100-kDa GTPase, is one of the most-characterized membrane fission machineries catalyzing vesicle release from plasma membrane during endocytosis. The human genome encodes three dynamins: DNM1, DNM2 and DNM3, with high amino acid similarity but distinct expression patterns. Ever since the...

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Published inCurrent opinion in cell biology Vol. 81; p. 102174
Main Authors Laiman, Jessica, Lin, Shan-Shan, Liu, Ya-Wen
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.04.2023
Subjects
Cancer
Centronuclear myopathy
Charcot-marie-tooth neuropathy
Developmental epilepsy encephalopathy
Dynamin II - genetics
Dynamin II - metabolism
Dynamin isoforms
Dynamins - genetics
Endocytosis
GTP Phosphohydrolases
Humans
Mutation
Charcot-marie-tooth neuropathy
Centronuclear myopathy
Developmental epilepsy encephalopathy
Dynamin isoforms
Cancer
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Summary:Dynamin, a 100-kDa GTPase, is one of the most-characterized membrane fission machineries catalyzing vesicle release from plasma membrane during endocytosis. The human genome encodes three dynamins: DNM1, DNM2 and DNM3, with high amino acid similarity but distinct expression patterns. Ever since the discoveries of dynamin mutations associated with human diseases in 2005, dynamin has become a paradigm for studying pathogenic mechanisms of mutant proteins from the aspects of structural biology, cell biology, model organisms as well as therapeutic strategy development. Here, we review the diseases and pathogenic mechanisms caused by mutations of DNM1 and DNM2, focusing on the activity requirement and regulation of dynamins in different tissues.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0955-0674
1879-0410
1879-0410
DOI:10.1016/j.ceb.2023.102174