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Genetic and phenotypic characterization of complex hereditary spastic paraplegia
The hereditary spastic paraplegias are a heterogeneous group of degenerative disorders that are clinically classified as either pure with predominant lower limb spasticity, or complex where spastic paraplegia is complicated with additional neurological features, and are inherited in autosomal domina...
Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Oxford University Press
2016
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4939695/ https://www.ncbi.nlm.nih.gov/pubmed/27217339 http://dx.doi.org/10.1093/brain/aww111 |
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author | Kara, Eleanna Tucci, Arianna Manzoni, Claudia Lynch, David S. Elpidorou, Marilena Bettencourt, Conceicao Chelban, Viorica Manole, Andreea Hamed, Sherifa A. Haridy, Nourelhoda A. Federoff, Monica Preza, Elisavet Hughes, Deborah Pittman, Alan Jaunmuktane, Zane Brandner, Sebastian Xiromerisiou, Georgia Wiethoff, Sarah Schottlaender, Lucia Proukakis, Christos Morris, Huw Warner, Tom Bhatia, Kailash P. Korlipara, L.V. Prasad Singleton, Andrew B. Hardy, John Wood, Nicholas W. Lewis, Patrick A. Houlden, Henry |
author_facet | Kara, Eleanna Tucci, Arianna Manzoni, Claudia Lynch, David S. Elpidorou, Marilena Bettencourt, Conceicao Chelban, Viorica Manole, Andreea Hamed, Sherifa A. Haridy, Nourelhoda A. Federoff, Monica Preza, Elisavet Hughes, Deborah Pittman, Alan Jaunmuktane, Zane Brandner, Sebastian Xiromerisiou, Georgia Wiethoff, Sarah Schottlaender, Lucia Proukakis, Christos Morris, Huw Warner, Tom Bhatia, Kailash P. Korlipara, L.V. Prasad Singleton, Andrew B. Hardy, John Wood, Nicholas W. Lewis, Patrick A. Houlden, Henry |
author_sort | Kara, Eleanna |
collection | PubMed |
description | The hereditary spastic paraplegias are a heterogeneous group of degenerative disorders that are clinically classified as either pure with predominant lower limb spasticity, or complex where spastic paraplegia is complicated with additional neurological features, and are inherited in autosomal dominant, autosomal recessive or X-linked patterns. Genetic defects have been identified in over 40 different genes, with more than 70 loci in total. Complex recessive spastic paraplegias have in the past been frequently associated with mutations in SPG11 (spatacsin), ZFYVE26/SPG15 , SPG7 (paraplegin) and a handful of other rare genes, but many cases remain genetically undefined. The overlap with other neurodegenerative disorders has been implied in a small number of reports, but not in larger disease series. This deficiency has been largely due to the lack of suitable high throughput techniques to investigate the genetic basis of disease, but the recent availability of next generation sequencing can facilitate the identification of disease-causing mutations even in extremely heterogeneous disorders. We investigated a series of 97 index cases with complex spastic paraplegia referred to a tertiary referral neurology centre in London for diagnosis or management. The mean age of onset was 16 years (range 3 to 39). The SPG11 gene was first analysed, revealing homozygous or compound heterozygous mutations in 30/97 (30.9%) of probands, the largest SPG11 series reported to date, and by far the most common cause of complex spastic paraplegia in the UK, with severe and progressive clinical features and other neurological manifestations, linked with magnetic resonance imaging defects. Given the high frequency of SPG11 mutations, we studied the autophagic response to starvation in eight affected SPG11 cases and control fibroblast cell lines, but in our restricted study we did not observe correlations between disease status and autophagic or lysosomal markers. In the remaining cases, next generation sequencing was carried out revealing variants in a number of other known complex spastic paraplegia genes, including five in SPG7 (5/97), four in FA2H (also known as SPG35 ) (4/97) and two in ZFYVE26 / SPG15 . Variants were identified in genes usually associated with pure spastic paraplegia and also in the Parkinson’s disease-associated gene ATP13A2 , neuronal ceroid lipofuscinosis gene TPP1 and the hereditary motor and sensory neuropathy DNMT1 gene, highlighting the genetic heterogeneity of spastic paraplegia. No plausible genetic cause was identified in 51% of probands, likely indicating the existence of as yet unidentified genes. |
format | Online Article Text |
id | pubmed-4939695 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2016 |
publisher | Oxford University Press |
record_format | MEDLINE/PubMed |
spelling | pubmed-49396952016-08-03 Genetic and phenotypic characterization of complex hereditary spastic paraplegia Kara, Eleanna Tucci, Arianna Manzoni, Claudia Lynch, David S. Elpidorou, Marilena Bettencourt, Conceicao Chelban, Viorica Manole, Andreea Hamed, Sherifa A. Haridy, Nourelhoda A. Federoff, Monica Preza, Elisavet Hughes, Deborah Pittman, Alan Jaunmuktane, Zane Brandner, Sebastian Xiromerisiou, Georgia Wiethoff, Sarah Schottlaender, Lucia Proukakis, Christos Morris, Huw Warner, Tom Bhatia, Kailash P. Korlipara, L.V. Prasad Singleton, Andrew B. Hardy, John Wood, Nicholas W. Lewis, Patrick A. Houlden, Henry Brain Original Articles The hereditary spastic paraplegias are a heterogeneous group of degenerative disorders that are clinically classified as either pure with predominant lower limb spasticity, or complex where spastic paraplegia is complicated with additional neurological features, and are inherited in autosomal dominant, autosomal recessive or X-linked patterns. Genetic defects have been identified in over 40 different genes, with more than 70 loci in total. Complex recessive spastic paraplegias have in the past been frequently associated with mutations in SPG11 (spatacsin), ZFYVE26/SPG15 , SPG7 (paraplegin) and a handful of other rare genes, but many cases remain genetically undefined. The overlap with other neurodegenerative disorders has been implied in a small number of reports, but not in larger disease series. This deficiency has been largely due to the lack of suitable high throughput techniques to investigate the genetic basis of disease, but the recent availability of next generation sequencing can facilitate the identification of disease-causing mutations even in extremely heterogeneous disorders. We investigated a series of 97 index cases with complex spastic paraplegia referred to a tertiary referral neurology centre in London for diagnosis or management. The mean age of onset was 16 years (range 3 to 39). The SPG11 gene was first analysed, revealing homozygous or compound heterozygous mutations in 30/97 (30.9%) of probands, the largest SPG11 series reported to date, and by far the most common cause of complex spastic paraplegia in the UK, with severe and progressive clinical features and other neurological manifestations, linked with magnetic resonance imaging defects. Given the high frequency of SPG11 mutations, we studied the autophagic response to starvation in eight affected SPG11 cases and control fibroblast cell lines, but in our restricted study we did not observe correlations between disease status and autophagic or lysosomal markers. In the remaining cases, next generation sequencing was carried out revealing variants in a number of other known complex spastic paraplegia genes, including five in SPG7 (5/97), four in FA2H (also known as SPG35 ) (4/97) and two in ZFYVE26 / SPG15 . Variants were identified in genes usually associated with pure spastic paraplegia and also in the Parkinson’s disease-associated gene ATP13A2 , neuronal ceroid lipofuscinosis gene TPP1 and the hereditary motor and sensory neuropathy DNMT1 gene, highlighting the genetic heterogeneity of spastic paraplegia. No plausible genetic cause was identified in 51% of probands, likely indicating the existence of as yet unidentified genes. Oxford University Press 2016-07 2016-05-23 /pmc/articles/PMC4939695/ /pubmed/27217339 http://dx.doi.org/10.1093/brain/aww111 Text en © The Author (2016). Published by Oxford University Press on behalf of the Guarantors of Brain. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/4.0/ ), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited. |
spellingShingle | Original Articles Kara, Eleanna Tucci, Arianna Manzoni, Claudia Lynch, David S. Elpidorou, Marilena Bettencourt, Conceicao Chelban, Viorica Manole, Andreea Hamed, Sherifa A. Haridy, Nourelhoda A. Federoff, Monica Preza, Elisavet Hughes, Deborah Pittman, Alan Jaunmuktane, Zane Brandner, Sebastian Xiromerisiou, Georgia Wiethoff, Sarah Schottlaender, Lucia Proukakis, Christos Morris, Huw Warner, Tom Bhatia, Kailash P. Korlipara, L.V. Prasad Singleton, Andrew B. Hardy, John Wood, Nicholas W. Lewis, Patrick A. Houlden, Henry Genetic and phenotypic characterization of complex hereditary spastic paraplegia |
title | Genetic and phenotypic characterization of complex hereditary spastic paraplegia |
title_full | Genetic and phenotypic characterization of complex hereditary spastic paraplegia |
title_fullStr | Genetic and phenotypic characterization of complex hereditary spastic paraplegia |
title_full_unstemmed | Genetic and phenotypic characterization of complex hereditary spastic paraplegia |
title_short | Genetic and phenotypic characterization of complex hereditary spastic paraplegia |
title_sort | genetic and phenotypic characterization of complex hereditary spastic paraplegia |
topic | Original Articles |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4939695/ https://www.ncbi.nlm.nih.gov/pubmed/27217339 http://dx.doi.org/10.1093/brain/aww111 |
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