Sundarapandian Narendiran, M. Debnath, S. Shivaram, Ramakrishnan Kannan, Shivani Sharma, R. Christopher, D. Seshagiri, S. Jain, M. Purushottam, Sandhya Mangalore, R. Bharath, P. Bindu, S. Sinha, A. Taly, M. Nagappa
{"title":"新见解遗传痉挛性截瘫在印度的遗传概况","authors":"Sundarapandian Narendiran, M. Debnath, S. Shivaram, Ramakrishnan Kannan, Shivani Sharma, R. Christopher, D. Seshagiri, S. Jain, M. Purushottam, Sandhya Mangalore, R. Bharath, P. Bindu, S. Sinha, A. Taly, M. Nagappa","doi":"10.1080/01677063.2022.2064463","DOIUrl":null,"url":null,"abstract":"Abstract The Hereditary Spastic Paraplegias (HSPs) are a group of clinically and genetically heterogeneous disorders characterized by length dependent degeneration of the corticospinal tracts. Genetic data related to HSPs are limited from India. We aimed to comprehensively analyse the phenotypic characteristics and genetic basis of a large cohort of HSP from India. Patients with HSP phenotype were evaluated for their clinical features, electrophysiological and radiological abnormalities. Genetic analyses were carried out by clinical exome sequencing (n = 52) and targeted sequencing (n = 5). The cohort comprised of 57 probands (M:F 40:17, age: 3.5–49 years). Based on the phenotype, the cohort could be categorized as ‘pure’ (n = 15, 26.3%) and ‘complicated’ (n = 42, 73.7%) HSP. Brain MRI showed thin corpus callosum (n = 10), periventricular hyperintensities (n = 20), cerebral atrophy (n = 3), cerebellar atrophy (n = 3) and diffuse atrophy (n = 4). Sixty-seven variants representing 40 genes were identified including 47 novel variants. Forty-eight patients (84.2%) had variants in genes previously implicated in HSP and other spastic paraplegia syndromes (SPG genes = 24, non-SPG genes = 24); among these 13 had variations in more than one gene and 12 patients (21.0%) had variations in genes implicated in potentially treatable/modifiable metabolic disorders (MTHFR = 8, MTRR = 1, ARG1 = 2 and ABCD1 = 1). In nine patients, no genetic variants implicated in spastic paraplegia phenotype were identified. Thus, the present study from India highlights the phenotypic complexities and spectrum of genetic variations in patients with HSP including those implicated in metabolically modifiable disorders. It sets a platform for carrying out functional studies to validate the causal role of the novel variants and variants of uncertain significance.","PeriodicalId":16491,"journal":{"name":"Journal of neurogenetics","volume":"36 1","pages":"21 - 31"},"PeriodicalIF":1.8000,"publicationDate":"2022-01-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Novel insights into the genetic profile of hereditary spastic paraplegia in India\",\"authors\":\"Sundarapandian Narendiran, M. Debnath, S. Shivaram, Ramakrishnan Kannan, Shivani Sharma, R. Christopher, D. Seshagiri, S. Jain, M. Purushottam, Sandhya Mangalore, R. Bharath, P. Bindu, S. Sinha, A. Taly, M. Nagappa\",\"doi\":\"10.1080/01677063.2022.2064463\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract The Hereditary Spastic Paraplegias (HSPs) are a group of clinically and genetically heterogeneous disorders characterized by length dependent degeneration of the corticospinal tracts. Genetic data related to HSPs are limited from India. We aimed to comprehensively analyse the phenotypic characteristics and genetic basis of a large cohort of HSP from India. Patients with HSP phenotype were evaluated for their clinical features, electrophysiological and radiological abnormalities. Genetic analyses were carried out by clinical exome sequencing (n = 52) and targeted sequencing (n = 5). The cohort comprised of 57 probands (M:F 40:17, age: 3.5–49 years). Based on the phenotype, the cohort could be categorized as ‘pure’ (n = 15, 26.3%) and ‘complicated’ (n = 42, 73.7%) HSP. Brain MRI showed thin corpus callosum (n = 10), periventricular hyperintensities (n = 20), cerebral atrophy (n = 3), cerebellar atrophy (n = 3) and diffuse atrophy (n = 4). Sixty-seven variants representing 40 genes were identified including 47 novel variants. Forty-eight patients (84.2%) had variants in genes previously implicated in HSP and other spastic paraplegia syndromes (SPG genes = 24, non-SPG genes = 24); among these 13 had variations in more than one gene and 12 patients (21.0%) had variations in genes implicated in potentially treatable/modifiable metabolic disorders (MTHFR = 8, MTRR = 1, ARG1 = 2 and ABCD1 = 1). In nine patients, no genetic variants implicated in spastic paraplegia phenotype were identified. Thus, the present study from India highlights the phenotypic complexities and spectrum of genetic variations in patients with HSP including those implicated in metabolically modifiable disorders. 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Novel insights into the genetic profile of hereditary spastic paraplegia in India
Abstract The Hereditary Spastic Paraplegias (HSPs) are a group of clinically and genetically heterogeneous disorders characterized by length dependent degeneration of the corticospinal tracts. Genetic data related to HSPs are limited from India. We aimed to comprehensively analyse the phenotypic characteristics and genetic basis of a large cohort of HSP from India. Patients with HSP phenotype were evaluated for their clinical features, electrophysiological and radiological abnormalities. Genetic analyses were carried out by clinical exome sequencing (n = 52) and targeted sequencing (n = 5). The cohort comprised of 57 probands (M:F 40:17, age: 3.5–49 years). Based on the phenotype, the cohort could be categorized as ‘pure’ (n = 15, 26.3%) and ‘complicated’ (n = 42, 73.7%) HSP. Brain MRI showed thin corpus callosum (n = 10), periventricular hyperintensities (n = 20), cerebral atrophy (n = 3), cerebellar atrophy (n = 3) and diffuse atrophy (n = 4). Sixty-seven variants representing 40 genes were identified including 47 novel variants. Forty-eight patients (84.2%) had variants in genes previously implicated in HSP and other spastic paraplegia syndromes (SPG genes = 24, non-SPG genes = 24); among these 13 had variations in more than one gene and 12 patients (21.0%) had variations in genes implicated in potentially treatable/modifiable metabolic disorders (MTHFR = 8, MTRR = 1, ARG1 = 2 and ABCD1 = 1). In nine patients, no genetic variants implicated in spastic paraplegia phenotype were identified. Thus, the present study from India highlights the phenotypic complexities and spectrum of genetic variations in patients with HSP including those implicated in metabolically modifiable disorders. It sets a platform for carrying out functional studies to validate the causal role of the novel variants and variants of uncertain significance.
期刊介绍:
The Journal is appropriate for papers on behavioral, biochemical, or cellular aspects of neural function, plasticity, aging or disease. In addition to analyses in the traditional genetic-model organisms, C. elegans, Drosophila, mouse and the zebrafish, the Journal encourages submission of neurogenetic investigations performed in organisms not easily amenable to experimental genetics. Such investigations might, for instance, describe behavioral differences deriving from genetic variation within a species, or report human disease studies that provide exceptional insights into biological mechanisms