1. Thrombocytopenia Microcephaly Syndrome - a novel phenotype associated with ACTB mutations
- Author
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Jennifer A. Lee, P. Reinke, Michael J. Lyons, Manuel H. Taft, Teresa Neuhann, Ramona Hecker, Michael C. Fruehwald, Sharissa L. Latham, Konrad Gruetzmann, Nadja Ehmke, Ralf Knoefler, Evelin Schröck, Dietmar J. Manstein, Katharina Sarnow, Barbara Klink, Michael J. Friez, Denise Horn, Christine Chaponnier, Luzie Gawehn, Andreas Rump, Nataliya Di Donato, and Kerstin Becker
- Subjects
Genetics ,Microcephaly ,education.field_of_study ,biology ,Population ,medicine.disease ,Phenotype ,biology.protein ,medicine ,Thrombopoiesis ,Actin-binding protein ,Cytoskeleton ,education ,Actin ,Mild microcephaly - Abstract
Introductory paragraphUntil recently missense germ-line mutations inACTB, encoding the ubiquitously expressed β-cytoplasmic actin (CYA), were exclusively associated with Baraitser-Winter Cerebrofrontofacial syndrome (BWCFF), a complex developmental disorder1,2. Here, we report six patients with previously undescribed heterozygous variants clustered in the 3’-coding region ofACTB. These patients present with clinical features different from BWCFF, including thrombocytopenia, microcephaly, and mild developmental disability. Patient derived cells are morphologically and functionally distinct from controls. Assessment of cytoskeletal constituents identified a discrete filament population altered in these cells, which comprises force generating and transmitting actin binding proteins (ABP) known to be associated with thrombocytopenia3–8.In silicomodelling and molecular dynamics (MD)-simulations support altered interactions between these ABP and mutant β-CYA. Our results describe a new clinical syndrome associated withACTBmutations with a distinct genotype-phenotype correlation, identify a cytoskeletal protein interaction network crucial for thrombopoiesis, and provide support for the hypomorphic nature of these actinopathy mutations.
- Published
- 2018
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