Cargando…

A ciliopathy complex builds distal appendages to initiate ciliogenesis

Cells inherit two centrioles, the older of which is uniquely capable of generating a cilium. Using proteomics and superresolved imaging, we identify a module that we term DISCO (distal centriole complex). The DISCO components CEP90, MNR, and OFD1 underlie human ciliopathies. This complex localizes t...

Descripción completa

Detalles Bibliográficos
Autores principales:	Kumar, Dhivya, Rains, Addison, Herranz-Pérez, Vicente, Lu, Quanlong, Shi, Xiaoyu, Swaney, Danielle L., Stevenson, Erica, Krogan, Nevan J., Huang, Bo, Westlake, Christopher, Garcia-Verdugo, Jose Manuel, Yoder, Bradley K., Reiter, Jeremy F.
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	Rockefeller University Press 2021
Materias:	Article
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8276316/ https://www.ncbi.nlm.nih.gov/pubmed/34241634 http://dx.doi.org/10.1083/jcb.202011133

_version_	1783721881326583808
author	Kumar, Dhivya Rains, Addison Herranz-Pérez, Vicente Lu, Quanlong Shi, Xiaoyu Swaney, Danielle L. Stevenson, Erica Krogan, Nevan J. Huang, Bo Westlake, Christopher Garcia-Verdugo, Jose Manuel Yoder, Bradley K. Reiter, Jeremy F.
author_facet	Kumar, Dhivya Rains, Addison Herranz-Pérez, Vicente Lu, Quanlong Shi, Xiaoyu Swaney, Danielle L. Stevenson, Erica Krogan, Nevan J. Huang, Bo Westlake, Christopher Garcia-Verdugo, Jose Manuel Yoder, Bradley K. Reiter, Jeremy F.
author_sort	Kumar, Dhivya
collection	PubMed
description	Cells inherit two centrioles, the older of which is uniquely capable of generating a cilium. Using proteomics and superresolved imaging, we identify a module that we term DISCO (distal centriole complex). The DISCO components CEP90, MNR, and OFD1 underlie human ciliopathies. This complex localizes to both distal centrioles and centriolar satellites, proteinaceous granules surrounding centrioles. Cells and mice lacking CEP90 or MNR do not generate cilia, fail to assemble distal appendages, and do not transduce Hedgehog signals. Disrupting the satellite pools does not affect distal appendage assembly, indicating that it is the centriolar populations of MNR and CEP90 that are critical for ciliogenesis. CEP90 recruits the most proximal known distal appendage component, CEP83, to root distal appendage formation, an early step in ciliogenesis. In addition, MNR, but not CEP90, restricts centriolar length by recruiting OFD1. We conclude that DISCO acts at the distal centriole to support ciliogenesis by restraining centriole length and assembling distal appendages, defects in which cause human ciliopathies.
format	Online Article Text
id	pubmed-8276316
institution	National Center for Biotechnology Information
language	English
publishDate	2021
publisher	Rockefeller University Press
record_format	MEDLINE/PubMed
spelling	pubmed-82763162022-03-06 A ciliopathy complex builds distal appendages to initiate ciliogenesis Kumar, Dhivya Rains, Addison Herranz-Pérez, Vicente Lu, Quanlong Shi, Xiaoyu Swaney, Danielle L. Stevenson, Erica Krogan, Nevan J. Huang, Bo Westlake, Christopher Garcia-Verdugo, Jose Manuel Yoder, Bradley K. Reiter, Jeremy F. J Cell Biol Article Cells inherit two centrioles, the older of which is uniquely capable of generating a cilium. Using proteomics and superresolved imaging, we identify a module that we term DISCO (distal centriole complex). The DISCO components CEP90, MNR, and OFD1 underlie human ciliopathies. This complex localizes to both distal centrioles and centriolar satellites, proteinaceous granules surrounding centrioles. Cells and mice lacking CEP90 or MNR do not generate cilia, fail to assemble distal appendages, and do not transduce Hedgehog signals. Disrupting the satellite pools does not affect distal appendage assembly, indicating that it is the centriolar populations of MNR and CEP90 that are critical for ciliogenesis. CEP90 recruits the most proximal known distal appendage component, CEP83, to root distal appendage formation, an early step in ciliogenesis. In addition, MNR, but not CEP90, restricts centriolar length by recruiting OFD1. We conclude that DISCO acts at the distal centriole to support ciliogenesis by restraining centriole length and assembling distal appendages, defects in which cause human ciliopathies. Rockefeller University Press 2021-07-09 /pmc/articles/PMC8276316/ /pubmed/34241634 http://dx.doi.org/10.1083/jcb.202011133 Text en © 2021 Kumar et al. http://www.rupress.org/terms/https://creativecommons.org/licenses/by-nc-sa/4.0/This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms/). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 4.0 International license, as described at https://creativecommons.org/licenses/by-nc-sa/4.0/).
spellingShingle	Article Kumar, Dhivya Rains, Addison Herranz-Pérez, Vicente Lu, Quanlong Shi, Xiaoyu Swaney, Danielle L. Stevenson, Erica Krogan, Nevan J. Huang, Bo Westlake, Christopher Garcia-Verdugo, Jose Manuel Yoder, Bradley K. Reiter, Jeremy F. A ciliopathy complex builds distal appendages to initiate ciliogenesis
title	A ciliopathy complex builds distal appendages to initiate ciliogenesis
title_full	A ciliopathy complex builds distal appendages to initiate ciliogenesis
title_fullStr	A ciliopathy complex builds distal appendages to initiate ciliogenesis
title_full_unstemmed	A ciliopathy complex builds distal appendages to initiate ciliogenesis
title_short	A ciliopathy complex builds distal appendages to initiate ciliogenesis
title_sort	ciliopathy complex builds distal appendages to initiate ciliogenesis
topic	Article
url	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8276316/ https://www.ncbi.nlm.nih.gov/pubmed/34241634 http://dx.doi.org/10.1083/jcb.202011133
work_keys_str_mv	AT kumardhivya aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT rainsaddison aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT herranzperezvicente aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT luquanlong aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT shixiaoyu aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT swaneydaniellel aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT stevensonerica aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT krogannevanj aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT huangbo aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT westlakechristopher aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT garciaverdugojosemanuel aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT yoderbradleyk aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT reiterjeremyf aciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT kumardhivya ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT rainsaddison ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT herranzperezvicente ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT luquanlong ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT shixiaoyu ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT swaneydaniellel ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT stevensonerica ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT krogannevanj ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT huangbo ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT westlakechristopher ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT garciaverdugojosemanuel ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT yoderbradleyk ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis AT reiterjeremyf ciliopathycomplexbuildsdistalappendagestoinitiateciliogenesis

A ciliopathy complex builds distal appendages to initiate ciliogenesis

Ejemplares similares