The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans

De novo CLTC mutations underlie a spectrum of early-onset neurodevelopmental phenotypes having developmental delay/intellectual disability (ID), epilepsy, and movement disorders (MD) as major clinical features. CLTC encodes the widely expressed heavy polypeptide of clathrin, a major component of the...

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Autores principales: Pannone, Luca, Muto, Valentina, Nardecchia, Francesca, Di Rocco, Martina, Marchei, Emilia, Tosato, Federica, Petrini, Stefania, Onorato, Giada, Lanza, Enrico, Bertuccini, Lucia, Manti, Filippo, Folli, Viola, Galosi, Serena, Di Schiavi, Elia, Leuzzi, Vincenzo, Tartaglia, Marco, Martinelli, Simone
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Molecular Neuroscience
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10264582/
https://www.ncbi.nlm.nih.gov/pubmed/37324589
http://dx.doi.org/10.3389/fnmol.2023.1170061
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author Pannone, Luca
Muto, Valentina
Nardecchia, Francesca
Di Rocco, Martina
Marchei, Emilia
Tosato, Federica
Petrini, Stefania
Onorato, Giada
Lanza, Enrico
Bertuccini, Lucia
Manti, Filippo
Folli, Viola
Galosi, Serena
Di Schiavi, Elia
Leuzzi, Vincenzo
Tartaglia, Marco
Martinelli, Simone
author_facet Pannone, Luca
Muto, Valentina
Nardecchia, Francesca
Di Rocco, Martina
Marchei, Emilia
Tosato, Federica
Petrini, Stefania
Onorato, Giada
Lanza, Enrico
Bertuccini, Lucia
Manti, Filippo
Folli, Viola
Galosi, Serena
Di Schiavi, Elia
Leuzzi, Vincenzo
Tartaglia, Marco
Martinelli, Simone
author_sort Pannone, Luca
collection PubMed
description De novo CLTC mutations underlie a spectrum of early-onset neurodevelopmental phenotypes having developmental delay/intellectual disability (ID), epilepsy, and movement disorders (MD) as major clinical features. CLTC encodes the widely expressed heavy polypeptide of clathrin, a major component of the coated vesicles mediating endocytosis, intracellular trafficking, and synaptic vesicle recycling. The underlying pathogenic mechanism is largely unknown. Here, we assessed the functional impact of the recurrent c.2669C > T (p.P890L) substitution, which is associated with a relatively mild ID/MD phenotype. Primary fibroblasts endogenously expressing the mutated protein show reduced transferrin uptake compared to fibroblast lines obtained from three unrelated healthy donors, suggesting defective clathrin-mediated endocytosis. In vitro studies also reveal a block in cell cycle transition from G0/G1 to the S phase in patient’s cells compared to control cells. To demonstrate the causative role of the p.P890L substitution, the pathogenic missense change was introduced at the orthologous position of the Caenorhabditis elegans gene, chc-1 (p.P892L), via CRISPR/Cas9. The resulting homozygous gene-edited strain displays resistance to aldicarb and hypersensitivity to PTZ, indicating defective release of acetylcholine and GABA by ventral cord motor neurons. Consistently, mutant animals show synaptic vesicle depletion at the sublateral nerve cords, and slightly defective dopamine signaling, highlighting a generalized deficit in synaptic transmission. This defective release of neurotransmitters is associated with their secondary accumulation at the presynaptic membrane. Automated analysis of C. elegans locomotion indicates that chc-1 mutants move slower than their isogenic controls and display defective synaptic plasticity. Phenotypic profiling of chc-1 (+/P892L) heterozygous animals and transgenic overexpression experiments document a mild dominant-negative behavior for the mutant allele. Finally, a more severe phenotype resembling that of chc-1 null mutants is observed in animals harboring the c.3146 T > C substitution (p.L1049P), homologs of the pathogenic c.3140 T > C (p.L1047P) change associated with a severe epileptic phenotype. Overall, our findings provide novel insights into disease mechanisms and genotype–phenotype correlations of CLTC-related disorders.
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spelling pubmed-102645822023-06-15 The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans Pannone, Luca Muto, Valentina Nardecchia, Francesca Di Rocco, Martina Marchei, Emilia Tosato, Federica Petrini, Stefania Onorato, Giada Lanza, Enrico Bertuccini, Lucia Manti, Filippo Folli, Viola Galosi, Serena Di Schiavi, Elia Leuzzi, Vincenzo Tartaglia, Marco Martinelli, Simone Front Mol Neurosci Molecular Neuroscience De novo CLTC mutations underlie a spectrum of early-onset neurodevelopmental phenotypes having developmental delay/intellectual disability (ID), epilepsy, and movement disorders (MD) as major clinical features. CLTC encodes the widely expressed heavy polypeptide of clathrin, a major component of the coated vesicles mediating endocytosis, intracellular trafficking, and synaptic vesicle recycling. The underlying pathogenic mechanism is largely unknown. Here, we assessed the functional impact of the recurrent c.2669C > T (p.P890L) substitution, which is associated with a relatively mild ID/MD phenotype. Primary fibroblasts endogenously expressing the mutated protein show reduced transferrin uptake compared to fibroblast lines obtained from three unrelated healthy donors, suggesting defective clathrin-mediated endocytosis. In vitro studies also reveal a block in cell cycle transition from G0/G1 to the S phase in patient’s cells compared to control cells. To demonstrate the causative role of the p.P890L substitution, the pathogenic missense change was introduced at the orthologous position of the Caenorhabditis elegans gene, chc-1 (p.P892L), via CRISPR/Cas9. The resulting homozygous gene-edited strain displays resistance to aldicarb and hypersensitivity to PTZ, indicating defective release of acetylcholine and GABA by ventral cord motor neurons. Consistently, mutant animals show synaptic vesicle depletion at the sublateral nerve cords, and slightly defective dopamine signaling, highlighting a generalized deficit in synaptic transmission. This defective release of neurotransmitters is associated with their secondary accumulation at the presynaptic membrane. Automated analysis of C. elegans locomotion indicates that chc-1 mutants move slower than their isogenic controls and display defective synaptic plasticity. Phenotypic profiling of chc-1 (+/P892L) heterozygous animals and transgenic overexpression experiments document a mild dominant-negative behavior for the mutant allele. Finally, a more severe phenotype resembling that of chc-1 null mutants is observed in animals harboring the c.3146 T > C substitution (p.L1049P), homologs of the pathogenic c.3140 T > C (p.L1047P) change associated with a severe epileptic phenotype. Overall, our findings provide novel insights into disease mechanisms and genotype–phenotype correlations of CLTC-related disorders. Frontiers Media S.A. 2023-05-31 /pmc/articles/PMC10264582/ /pubmed/37324589 http://dx.doi.org/10.3389/fnmol.2023.1170061 Text en Copyright © 2023 Pannone, Muto, Nardecchia, Di Rocco, Marchei, Tosato, Petrini, Onorato, Lanza, Bertuccini, Manti, Folli, Galosi, Di Schiavi, Leuzzi, Tartaglia and Martinelli. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Molecular Neuroscience
Pannone, Luca
Muto, Valentina
Nardecchia, Francesca
Di Rocco, Martina
Marchei, Emilia
Tosato, Federica
Petrini, Stefania
Onorato, Giada
Lanza, Enrico
Bertuccini, Lucia
Manti, Filippo
Folli, Viola
Galosi, Serena
Di Schiavi, Elia
Leuzzi, Vincenzo
Tartaglia, Marco
Martinelli, Simone
The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans
title The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans
title_full The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans
title_fullStr The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans
title_full_unstemmed The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans
title_short The recurrent pathogenic Pro890Leu substitution in CLTC causes a generalized defect in synaptic transmission in Caenorhabditis elegans
title_sort recurrent pathogenic pro890leu substitution in cltc causes a generalized defect in synaptic transmission in caenorhabditis elegans
topic Molecular Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10264582/
https://www.ncbi.nlm.nih.gov/pubmed/37324589
http://dx.doi.org/10.3389/fnmol.2023.1170061
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