Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms

Imbalances in mitochondrial and peroxisomal dynamics are associated with a spectrum of human neurological disorders. Mitochondrial and peroxisomal fission both involve dynamin-related protein 1 (DRP1) oligomerisation and membrane constriction, although the precise biophysical mechanisms by which dis...

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Autores principales: Nolden, Kelsey A, Egner, John M, Collier, Jack J, Russell, Oliver M, Alston, Charlotte L, Harwig, Megan C, Widlansky, Michael E, Sasorith, Souphatta, Barbosa, Inês A, Douglas, Andrew GL, Baptista, Julia, Walker, Mark, Donnelly, Deirdre E, Morris, Andrew A, Tan, Hui Jeen, Kurian, Manju A, Gorman, Kathleen, Mordekar, Santosh, Deshpande, Charu, Samanta, Rajib, McFarland, Robert, Hill, R Blake, Taylor, Robert W, Oláhová, Monika
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2022
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9354038/
https://www.ncbi.nlm.nih.gov/pubmed/35914810
http://dx.doi.org/10.26508/lsa.202101284
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author Nolden, Kelsey A
Egner, John M
Collier, Jack J
Russell, Oliver M
Alston, Charlotte L
Harwig, Megan C
Widlansky, Michael E
Sasorith, Souphatta
Barbosa, Inês A
Douglas, Andrew GL
Baptista, Julia
Walker, Mark
Donnelly, Deirdre E
Morris, Andrew A
Tan, Hui Jeen
Kurian, Manju A
Gorman, Kathleen
Mordekar, Santosh
Deshpande, Charu
Samanta, Rajib
McFarland, Robert
Hill, R Blake
Taylor, Robert W
Oláhová, Monika
author_facet Nolden, Kelsey A
Egner, John M
Collier, Jack J
Russell, Oliver M
Alston, Charlotte L
Harwig, Megan C
Widlansky, Michael E
Sasorith, Souphatta
Barbosa, Inês A
Douglas, Andrew GL
Baptista, Julia
Walker, Mark
Donnelly, Deirdre E
Morris, Andrew A
Tan, Hui Jeen
Kurian, Manju A
Gorman, Kathleen
Mordekar, Santosh
Deshpande, Charu
Samanta, Rajib
McFarland, Robert
Hill, R Blake
Taylor, Robert W
Oláhová, Monika
author_sort Nolden, Kelsey A
collection PubMed
description Imbalances in mitochondrial and peroxisomal dynamics are associated with a spectrum of human neurological disorders. Mitochondrial and peroxisomal fission both involve dynamin-related protein 1 (DRP1) oligomerisation and membrane constriction, although the precise biophysical mechanisms by which distinct DRP1 variants affect the assembly and activity of different DRP1 domains remains largely unexplored. We analysed four unreported de novo heterozygous variants in the dynamin-1-like gene DNM1L, affecting different highly conserved DRP1 domains, leading to developmental delay, seizures, hypotonia, and/or rare cardiac complications in infancy. Single-nucleotide DRP1 stalk domain variants were found to correlate with more severe clinical phenotypes, with in vitro recombinant human DRP1 mutants demonstrating greater impairments in protein oligomerisation, DRP1-peroxisomal recruitment, and both mitochondrial and peroxisomal hyperfusion compared to GTPase or GTPase-effector domain variants. Importantly, we identified a novel mechanism of pathogenesis, where a p.Arg710Gly variant uncouples DRP1 assembly from assembly-stimulated GTP hydrolysis, providing mechanistic insight into how assembly-state information is transmitted to the GTPase domain. Together, these data reveal that discrete, pathological DNM1L variants impair mitochondrial network maintenance by divergent mechanisms.
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spelling pubmed-93540382022-08-16 Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms Nolden, Kelsey A Egner, John M Collier, Jack J Russell, Oliver M Alston, Charlotte L Harwig, Megan C Widlansky, Michael E Sasorith, Souphatta Barbosa, Inês A Douglas, Andrew GL Baptista, Julia Walker, Mark Donnelly, Deirdre E Morris, Andrew A Tan, Hui Jeen Kurian, Manju A Gorman, Kathleen Mordekar, Santosh Deshpande, Charu Samanta, Rajib McFarland, Robert Hill, R Blake Taylor, Robert W Oláhová, Monika Life Sci Alliance Research Articles Imbalances in mitochondrial and peroxisomal dynamics are associated with a spectrum of human neurological disorders. Mitochondrial and peroxisomal fission both involve dynamin-related protein 1 (DRP1) oligomerisation and membrane constriction, although the precise biophysical mechanisms by which distinct DRP1 variants affect the assembly and activity of different DRP1 domains remains largely unexplored. We analysed four unreported de novo heterozygous variants in the dynamin-1-like gene DNM1L, affecting different highly conserved DRP1 domains, leading to developmental delay, seizures, hypotonia, and/or rare cardiac complications in infancy. Single-nucleotide DRP1 stalk domain variants were found to correlate with more severe clinical phenotypes, with in vitro recombinant human DRP1 mutants demonstrating greater impairments in protein oligomerisation, DRP1-peroxisomal recruitment, and both mitochondrial and peroxisomal hyperfusion compared to GTPase or GTPase-effector domain variants. Importantly, we identified a novel mechanism of pathogenesis, where a p.Arg710Gly variant uncouples DRP1 assembly from assembly-stimulated GTP hydrolysis, providing mechanistic insight into how assembly-state information is transmitted to the GTPase domain. Together, these data reveal that discrete, pathological DNM1L variants impair mitochondrial network maintenance by divergent mechanisms. Life Science Alliance LLC 2022-08-01 /pmc/articles/PMC9354038/ /pubmed/35914810 http://dx.doi.org/10.26508/lsa.202101284 Text en © 2022 Nolden et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Nolden, Kelsey A
Egner, John M
Collier, Jack J
Russell, Oliver M
Alston, Charlotte L
Harwig, Megan C
Widlansky, Michael E
Sasorith, Souphatta
Barbosa, Inês A
Douglas, Andrew GL
Baptista, Julia
Walker, Mark
Donnelly, Deirdre E
Morris, Andrew A
Tan, Hui Jeen
Kurian, Manju A
Gorman, Kathleen
Mordekar, Santosh
Deshpande, Charu
Samanta, Rajib
McFarland, Robert
Hill, R Blake
Taylor, Robert W
Oláhová, Monika
Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms
title Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms
title_full Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms
title_fullStr Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms
title_full_unstemmed Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms
title_short Novel DNM1L variants impair mitochondrial dynamics through divergent mechanisms
title_sort novel dnm1l variants impair mitochondrial dynamics through divergent mechanisms
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9354038/
https://www.ncbi.nlm.nih.gov/pubmed/35914810
http://dx.doi.org/10.26508/lsa.202101284
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