Whole genome sequencing and rare variant analysis in essential tremor families

Essential tremor (ET) is one of the most common movement disorders. The etiology of ET remains largely unexplained. Whole genome sequencing (WGS) is likely to be of value in understanding a large proportion of ET with Mendelian and complex disease inheritance patterns. In ET families with Mendelian...

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Veröffentlicht in:	PloS one 2019-08, Vol.14 (8), p.e0220512
Hauptverfasser:	Odgerel, Zagaa, Sonti, Shilpa, Hernandez, Nora, Park, Jemin, Ottman, Ruth, Louis, Elan D, Clark, Lorraine N
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Ataxia Axon guidance Biology Biology and Life Sciences Calcium channels (voltage-gated) Causes of Coding Copy number DNA sequencing Enrichment Epidemiology Essential Tremor - genetics Etiology Etiology (Medicine) Family Family studies Female Gender differences Gene frequency Gene sequencing Genes Genetic aspects Genetic Predisposition to Disease - genetics Genetic Variation - genetics Genetic Variation - physiology Genetics Genomes Genomics Health aspects Heredity Heritability Humans Male Medicine and Health Sciences Middle Aged Movement disorders Mutation Nervous system Neurology Neurons Neuropathy Non-coding RNA Nucleotides Pathogenesis Pathology Pedigree Physiology Population genetics Pore formation Public health Research and Analysis Methods Studies Surgeons Tremor Tremors Whole Genome Sequencing
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description	Essential tremor (ET) is one of the most common movement disorders. The etiology of ET remains largely unexplained. Whole genome sequencing (WGS) is likely to be of value in understanding a large proportion of ET with Mendelian and complex disease inheritance patterns. In ET families with Mendelian inheritance patterns, WGS may lead to gene identification where WES analysis failed to identify the causative single nucleotide variant (SNV) or indel due to incomplete coverage of the entire coding region of the genome, in addition to accurate detection of larger structural variants (SVs) and copy number variants (CNVs). Alternatively, in ET families with complex disease inheritance patterns with gene x gene and gene x environment interactions enrichment of functional rare coding and non-coding variants may explain the heritability of ET. We performed WGS in eight ET families (n = 40 individuals) enrolled in the Family Study of Essential Tremor. The analysis included filtering WGS data based on allele frequency in population databases, rare SNV and indel classification and association testing using the Mixed-Model Kernel Based Adaptive Cluster (MM-KBAC) test. A separate analysis of rare SV and CNVs segregating within ET families was also performed. Prioritization of candidate genes identified within families was performed using phenolyzer. WGS analysis identified candidate genes for ET in 5/8 (62.5%) of the families analyzed. WES analysis in a subset of these families in our previously published study failed to identify candidate genes. In one family, we identified a deleterious and damaging variant (c.1367G>A, p.(Arg456Gln)) in the candidate gene, CACNA1G, which encodes the pore forming subunit of T-type Ca(2+) channels, CaV3.1, and is expressed in various motor pathways and has been previously implicated in neuronal autorhythmicity and ET. Other candidate genes identified include SLIT3 which encodes an axon guidance molecule and in three families, phenolyzer prioritized genes that are associated with hereditary neuropathies (family A, KARS, family B, KIF5A and family F, NTRK1). Functional studies of CACNA1G and SLIT3 suggest a role for these genes in ET disease pathogenesis.
doi_str_mv	10.1371/journal.pone.0220512
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The etiology of ET remains largely unexplained. Whole genome sequencing (WGS) is likely to be of value in understanding a large proportion of ET with Mendelian and complex disease inheritance patterns. In ET families with Mendelian inheritance patterns, WGS may lead to gene identification where WES analysis failed to identify the causative single nucleotide variant (SNV) or indel due to incomplete coverage of the entire coding region of the genome, in addition to accurate detection of larger structural variants (SVs) and copy number variants (CNVs). Alternatively, in ET families with complex disease inheritance patterns with gene x gene and gene x environment interactions enrichment of functional rare coding and non-coding variants may explain the heritability of ET. We performed WGS in eight ET families (n = 40 individuals) enrolled in the Family Study of Essential Tremor. The analysis included filtering WGS data based on allele frequency in population databases, rare SNV and indel classification and association testing using the Mixed-Model Kernel Based Adaptive Cluster (MM-KBAC) test. A separate analysis of rare SV and CNVs segregating within ET families was also performed. Prioritization of candidate genes identified within families was performed using phenolyzer. WGS analysis identified candidate genes for ET in 5/8 (62.5%) of the families analyzed. WES analysis in a subset of these families in our previously published study failed to identify candidate genes. In one family, we identified a deleterious and damaging variant (c.1367G>A, p.(Arg456Gln)) in the candidate gene, CACNA1G, which encodes the pore forming subunit of T-type Ca(2+) channels, CaV3.1, and is expressed in various motor pathways and has been previously implicated in neuronal autorhythmicity and ET. Other candidate genes identified include SLIT3 which encodes an axon guidance molecule and in three families, phenolyzer prioritized genes that are associated with hereditary neuropathies (family A, KARS, family B, KIF5A and family F, NTRK1). Functional studies of CACNA1G and SLIT3 suggest a role for these genes in ET disease pathogenesis.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0220512</identifier><identifier>PMID: 31404076</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Adult ; Ataxia ; Axon guidance ; Biology ; Biology and Life Sciences ; Calcium channels (voltage-gated) ; Causes of ; Coding ; Copy number ; DNA sequencing ; Enrichment ; Epidemiology ; Essential Tremor - genetics ; Etiology ; Etiology (Medicine) ; Family ; Family studies ; Female ; Gender differences ; Gene frequency ; Gene sequencing ; Genes ; Genetic aspects ; Genetic Predisposition to Disease - genetics ; Genetic Variation - genetics ; Genetic Variation - physiology ; Genetics ; Genomes ; Genomics ; Health aspects ; Heredity ; Heritability ; Humans ; Male ; Medicine and Health Sciences ; Middle Aged ; Movement disorders ; Mutation ; Nervous system ; Neurology ; Neurons ; Neuropathy ; Non-coding RNA ; Nucleotides ; Pathogenesis ; Pathology ; Pedigree ; Physiology ; Population genetics ; Pore formation ; Public health ; Research and Analysis Methods ; Studies ; Surgeons ; Tremor ; Tremors ; Whole Genome Sequencing</subject><ispartof>PloS one, 2019-08, Vol.14 (8), p.e0220512</ispartof><rights>COPYRIGHT 2019 Public Library of Science</rights><rights>2019 Odgerel et al. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 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The etiology of ET remains largely unexplained. Whole genome sequencing (WGS) is likely to be of value in understanding a large proportion of ET with Mendelian and complex disease inheritance patterns. In ET families with Mendelian inheritance patterns, WGS may lead to gene identification where WES analysis failed to identify the causative single nucleotide variant (SNV) or indel due to incomplete coverage of the entire coding region of the genome, in addition to accurate detection of larger structural variants (SVs) and copy number variants (CNVs). Alternatively, in ET families with complex disease inheritance patterns with gene x gene and gene x environment interactions enrichment of functional rare coding and non-coding variants may explain the heritability of ET. We performed WGS in eight ET families (n = 40 individuals) enrolled in the Family Study of Essential Tremor. 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Functional studies of CACNA1G and SLIT3 suggest a role for these genes in ET disease pathogenesis.</description><subject>Adult</subject><subject>Ataxia</subject><subject>Axon guidance</subject><subject>Biology</subject><subject>Biology and Life Sciences</subject><subject>Calcium channels (voltage-gated)</subject><subject>Causes of</subject><subject>Coding</subject><subject>Copy number</subject><subject>DNA sequencing</subject><subject>Enrichment</subject><subject>Epidemiology</subject><subject>Essential Tremor - genetics</subject><subject>Etiology</subject><subject>Etiology (Medicine)</subject><subject>Family</subject><subject>Family studies</subject><subject>Female</subject><subject>Gender differences</subject><subject>Gene frequency</subject><subject>Gene sequencing</subject><subject>Genes</subject><subject>Genetic aspects</subject><subject>Genetic Predisposition to Disease - genetics</subject><subject>Genetic Variation - genetics</subject><subject>Genetic Variation - 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Abstracts</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><collection>DOAJ Directory of Open Access Journals</collection><jtitle>PloS one</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Odgerel, Zagaa</au><au>Sonti, Shilpa</au><au>Hernandez, Nora</au><au>Park, Jemin</au><au>Ottman, Ruth</au><au>Louis, Elan D</au><au>Clark, Lorraine N</au><au>Bandapalli, Obul Reddy</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Whole genome sequencing and rare variant analysis in essential tremor families</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2019-08-12</date><risdate>2019</risdate><volume>14</volume><issue>8</issue><spage>e0220512</spage><pages>e0220512-</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Essential tremor (ET) is one of the most common movement disorders. The etiology of ET remains largely unexplained. Whole genome sequencing (WGS) is likely to be of value in understanding a large proportion of ET with Mendelian and complex disease inheritance patterns. In ET families with Mendelian inheritance patterns, WGS may lead to gene identification where WES analysis failed to identify the causative single nucleotide variant (SNV) or indel due to incomplete coverage of the entire coding region of the genome, in addition to accurate detection of larger structural variants (SVs) and copy number variants (CNVs). Alternatively, in ET families with complex disease inheritance patterns with gene x gene and gene x environment interactions enrichment of functional rare coding and non-coding variants may explain the heritability of ET. We performed WGS in eight ET families (n = 40 individuals) enrolled in the Family Study of Essential Tremor. The analysis included filtering WGS data based on allele frequency in population databases, rare SNV and indel classification and association testing using the Mixed-Model Kernel Based Adaptive Cluster (MM-KBAC) test. A separate analysis of rare SV and CNVs segregating within ET families was also performed. Prioritization of candidate genes identified within families was performed using phenolyzer. WGS analysis identified candidate genes for ET in 5/8 (62.5%) of the families analyzed. WES analysis in a subset of these families in our previously published study failed to identify candidate genes. In one family, we identified a deleterious and damaging variant (c.1367G>A, p.(Arg456Gln)) in the candidate gene, CACNA1G, which encodes the pore forming subunit of T-type Ca(2+) channels, CaV3.1, and is expressed in various motor pathways and has been previously implicated in neuronal autorhythmicity and ET. Other candidate genes identified include SLIT3 which encodes an axon guidance molecule and in three families, phenolyzer prioritized genes that are associated with hereditary neuropathies (family A, KARS, family B, KIF5A and family F, NTRK1). Functional studies of CACNA1G and SLIT3 suggest a role for these genes in ET disease pathogenesis.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>31404076</pmid><doi>10.1371/journal.pone.0220512</doi><tpages>e0220512</tpages><orcidid>https://orcid.org/0000-0001-7074-242X</orcidid><orcidid>https://orcid.org/0000-0001-8804-3010</orcidid><orcidid>https://orcid.org/0000-0001-5899-4616</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Adult Ataxia Axon guidance Biology Biology and Life Sciences Calcium channels (voltage-gated) Causes of Coding Copy number DNA sequencing Enrichment Epidemiology Essential Tremor - genetics Etiology Etiology (Medicine) Family Family studies Female Gender differences Gene frequency Gene sequencing Genes Genetic aspects Genetic Predisposition to Disease - genetics Genetic Variation - genetics Genetic Variation - physiology Genetics Genomes Genomics Health aspects Heredity Heritability Humans Male Medicine and Health Sciences Middle Aged Movement disorders Mutation Nervous system Neurology Neurons Neuropathy Non-coding RNA Nucleotides Pathogenesis Pathology Pedigree Physiology Population genetics Pore formation Public health Research and Analysis Methods Studies Surgeons Tremor Tremors Whole Genome Sequencing
title	Whole genome sequencing and rare variant analysis in essential tremor families
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