Dominantly acting KIF5B variants with pleiotropic cellular consequences cause variable clinical phenotypes
| Autor: | Elisabetta Flex, Shahad Albadri, Francesca Clementina Radio, Serena Cecchetti, Antonella Lauri, Manuela Priolo, Marta Kissopoulos, Giovanna Carpentieri, Giulia Fasano, Martina Venditti, Valentina Magliocca, Emanuele Bellacchio, Carrie L Welch, Paolo C Colombo, Stephanie M Kochav, Richard Chang, Rebekah Barrick, Marina Trivisano, Alessia Micalizzi, Rossella Borghi, Elena Messina, Cecilia Mancini, Simone Pizzi, Flavia De Santis, Marion Rosello, Nicola Specchio, Claudia Compagnucci, Kirsty McWalter, Wendy K Chung, Filippo Del Bene, Marco Tartaglia |
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| Rok vydání: | 2022 |
| Předmět: | |
| Zdroj: | Human Molecular Genetics. 32:473-488 |
| ISSN: | 1460-2083 0964-6906 |
| DOI: | 10.1093/hmg/ddac213 |
| Popis: | Kinesins are motor proteins involved in microtubule (MT)-mediated intracellular transport. They contribute to key cellular processes, including intracellular trafficking, organelle dynamics and cell division. Pathogenic variants in kinesin-encoding genes underlie several human diseases characterized by an extremely variable clinical phenotype, ranging from isolated neurodevelopmental/neurodegenerative disorders to syndromic phenotypes belonging to a family of conditions collectively termed as ‘ciliopathies.’ Among kinesins, kinesin-1 is the most abundant MT motor for transport of cargoes towards the plus end of MTs. Three kinesin-1 heavy chain isoforms exist in mammals. Different from KIF5A and KIF5C, which are specifically expressed in neurons and established to cause neurological diseases when mutated, KIF5B is an ubiquitous protein. Three de novo missense KIF5B variants were recently described in four subjects with a syndromic skeletal disorder characterized by kyphomelic dysplasia, hypotonia and DD/ID. Here, we report three dominantly acting KIF5B variants (p.Asn255del, p.Leu498Pro and p.Leu537Pro) resulting in a clinically wide phenotypic spectrum, ranging from dilated cardiomyopathy with adult-onset ophthalmoplegia and progressive skeletal myopathy to a neurodevelopmental condition characterized by severe hypotonia with or without seizures. In vitro and in vivo analyses provide evidence that the identified disease-associated KIF5B variants disrupt lysosomal, autophagosome and mitochondrial organization, and impact cilium biogenesis. All variants, and one of the previously reported missense changes, were shown to affect multiple developmental processes in zebrafish. These findings document pleiotropic consequences of aberrant KIF5B function on development and cell homeostasis, and expand the phenotypic spectrum resulting from altered kinesin-mediated processes. |
| Databáze: | OpenAIRE |
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