CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis

Defects in primary or motile cilia result in a variety of human pathologies, and retinal degeneration is frequently associated with these so-called ciliopathies. We found that homozygosity for a truncating variant in CEP162, a centrosome and microtubule-associated protein required for transition zon...

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Autores principales: Nuzhat, Nafisa, Van Schil, Kristof, Liakopoulos, Sandra, Bauwens, Miriam, Rey, Alfredo Dueñas, Käseberg, Stephan, Jäger, Melanie, Willer, Jason R., Winter, Jennifer, Truong, Hanh M., Gruartmoner, Nuria, Van Heetvelde, Mattias, Wolf, Joachim, Merget, Robert, Grasshoff-Derr, Sabine, Van Dorpe, Jo, Hoorens, Anne, Stöhr, Heidi, Mansard, Luke, Roux, Anne-Françoise, Langmann, Thomas, Dannhausen, Katharina, Rosenkranz, David, Wissing, Karl M., Van Lint, Michel, Rossmann, Heidi, Häuser, Friederike, Nürnberg, Peter, Thiele, Holger, Zechner, Ulrich, Pearring, Jillian N., De Baere, Elfride, Bolz, Hanno J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10104899/
https://www.ncbi.nlm.nih.gov/pubmed/36862503
http://dx.doi.org/10.1172/JCI161156
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author Nuzhat, Nafisa
Van Schil, Kristof
Liakopoulos, Sandra
Bauwens, Miriam
Rey, Alfredo Dueñas
Käseberg, Stephan
Jäger, Melanie
Willer, Jason R.
Winter, Jennifer
Truong, Hanh M.
Gruartmoner, Nuria
Van Heetvelde, Mattias
Wolf, Joachim
Merget, Robert
Grasshoff-Derr, Sabine
Van Dorpe, Jo
Hoorens, Anne
Stöhr, Heidi
Mansard, Luke
Roux, Anne-Françoise
Langmann, Thomas
Dannhausen, Katharina
Rosenkranz, David
Wissing, Karl M.
Van Lint, Michel
Rossmann, Heidi
Häuser, Friederike
Nürnberg, Peter
Thiele, Holger
Zechner, Ulrich
Pearring, Jillian N.
De Baere, Elfride
Bolz, Hanno J.
author_facet Nuzhat, Nafisa
Van Schil, Kristof
Liakopoulos, Sandra
Bauwens, Miriam
Rey, Alfredo Dueñas
Käseberg, Stephan
Jäger, Melanie
Willer, Jason R.
Winter, Jennifer
Truong, Hanh M.
Gruartmoner, Nuria
Van Heetvelde, Mattias
Wolf, Joachim
Merget, Robert
Grasshoff-Derr, Sabine
Van Dorpe, Jo
Hoorens, Anne
Stöhr, Heidi
Mansard, Luke
Roux, Anne-Françoise
Langmann, Thomas
Dannhausen, Katharina
Rosenkranz, David
Wissing, Karl M.
Van Lint, Michel
Rossmann, Heidi
Häuser, Friederike
Nürnberg, Peter
Thiele, Holger
Zechner, Ulrich
Pearring, Jillian N.
De Baere, Elfride
Bolz, Hanno J.
author_sort Nuzhat, Nafisa
collection PubMed
description Defects in primary or motile cilia result in a variety of human pathologies, and retinal degeneration is frequently associated with these so-called ciliopathies. We found that homozygosity for a truncating variant in CEP162, a centrosome and microtubule-associated protein required for transition zone assembly during ciliogenesis and neuronal differentiation in the retina, caused late-onset retinitis pigmentosa in 2 unrelated families. The mutant CEP162-E646R*5 protein was expressed and properly localized to the mitotic spindle, but it was missing from the basal body in primary and photoreceptor cilia. This impaired recruitment of transition zone components to the basal body and corresponded to complete loss of CEP162 function at the ciliary compartment, reflected by delayed formation of dysmorphic cilia. In contrast, shRNA knockdown of Cep162 in the developing mouse retina increased cell death, which was rescued by expression of CEP162-E646R*5, indicating that the mutant retains its role for retinal neurogenesis. Human retinal degeneration thus resulted from specific loss of the ciliary function of CEP162.
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spelling pubmed-101048992023-04-17 CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis Nuzhat, Nafisa Van Schil, Kristof Liakopoulos, Sandra Bauwens, Miriam Rey, Alfredo Dueñas Käseberg, Stephan Jäger, Melanie Willer, Jason R. Winter, Jennifer Truong, Hanh M. Gruartmoner, Nuria Van Heetvelde, Mattias Wolf, Joachim Merget, Robert Grasshoff-Derr, Sabine Van Dorpe, Jo Hoorens, Anne Stöhr, Heidi Mansard, Luke Roux, Anne-Françoise Langmann, Thomas Dannhausen, Katharina Rosenkranz, David Wissing, Karl M. Van Lint, Michel Rossmann, Heidi Häuser, Friederike Nürnberg, Peter Thiele, Holger Zechner, Ulrich Pearring, Jillian N. De Baere, Elfride Bolz, Hanno J. J Clin Invest Research Article Defects in primary or motile cilia result in a variety of human pathologies, and retinal degeneration is frequently associated with these so-called ciliopathies. We found that homozygosity for a truncating variant in CEP162, a centrosome and microtubule-associated protein required for transition zone assembly during ciliogenesis and neuronal differentiation in the retina, caused late-onset retinitis pigmentosa in 2 unrelated families. The mutant CEP162-E646R*5 protein was expressed and properly localized to the mitotic spindle, but it was missing from the basal body in primary and photoreceptor cilia. This impaired recruitment of transition zone components to the basal body and corresponded to complete loss of CEP162 function at the ciliary compartment, reflected by delayed formation of dysmorphic cilia. In contrast, shRNA knockdown of Cep162 in the developing mouse retina increased cell death, which was rescued by expression of CEP162-E646R*5, indicating that the mutant retains its role for retinal neurogenesis. Human retinal degeneration thus resulted from specific loss of the ciliary function of CEP162. American Society for Clinical Investigation 2023-04-17 /pmc/articles/PMC10104899/ /pubmed/36862503 http://dx.doi.org/10.1172/JCI161156 Text en © 2023 Nuzhat et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Nuzhat, Nafisa
Van Schil, Kristof
Liakopoulos, Sandra
Bauwens, Miriam
Rey, Alfredo Dueñas
Käseberg, Stephan
Jäger, Melanie
Willer, Jason R.
Winter, Jennifer
Truong, Hanh M.
Gruartmoner, Nuria
Van Heetvelde, Mattias
Wolf, Joachim
Merget, Robert
Grasshoff-Derr, Sabine
Van Dorpe, Jo
Hoorens, Anne
Stöhr, Heidi
Mansard, Luke
Roux, Anne-Françoise
Langmann, Thomas
Dannhausen, Katharina
Rosenkranz, David
Wissing, Karl M.
Van Lint, Michel
Rossmann, Heidi
Häuser, Friederike
Nürnberg, Peter
Thiele, Holger
Zechner, Ulrich
Pearring, Jillian N.
De Baere, Elfride
Bolz, Hanno J.
CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
title CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
title_full CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
title_fullStr CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
title_full_unstemmed CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
title_short CEP162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
title_sort cep162 deficiency causes human retinal degeneration and reveals a dual role in ciliogenesis and neurogenesis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10104899/
https://www.ncbi.nlm.nih.gov/pubmed/36862503
http://dx.doi.org/10.1172/JCI161156
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