Data from: Population-specific genetic modification of Huntington's disease in Venezuela
Modifiers of Mendelian disorders can provide insights into disease mechanisms and guide therapeutic strategies. A recent genome-wide association (GWA) study discovered genetic modifiers of Huntington's disease (HD) onset in Europeans. Here, we performed whole genome sequencing and GWA analysis...
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| creator | Chao, Michael J. Kim, Kyung-Hee Shin, Jun Wan Lucente, Diane Wheeler, Vanessa C. Li, Hong Roach, Jared C. Hood, Leroy Wexler, Nancy S. Jardim, Laura B. Holmans, Peter Jones, Lesley Orth, Michael Kwak, Seung Gusella, James F. MacDonald, Marcy E. Lee, Jong-Min |
| description | Modifiers of Mendelian disorders can provide insights into disease
mechanisms and guide therapeutic strategies. A recent genome-wide
association (GWA) study discovered genetic modifiers of Huntington's
disease (HD) onset in Europeans. Here, we performed whole genome
sequencing and GWA analysis of a Venezuelan HD cluster whose families were
crucial for the original mapping of the HD gene defect. The Venezuelan HD
subjects develop motor symptoms earlier than their European counterparts,
implying the potential for population-specific modifiers. The main
Venezuelan HD family inherits HTT haplotype hap.03, which differs subtly
at the sequence level from European HD hap.03, suggesting a different
ancestral origin but not explaining the earlier age at onset in these
Venezuelans. GWA analysis of the Venezuelan HD cluster suggests both
population-specific and population-shared genetic modifiers. Genome-wide
significant signals at 7p21.2-21.1 and suggestive association signals at
4p14 and 17q21.2 are evident only in Venezuelan HD, but genome-wide
significant association signals at the established European chromosome 15
modifier locus are improved when Venezuelan HD data are included in the
meta-analysis. Venezuelan-specific association signals on chromosome 7
center on SOSTDC1, which encodes a bone morphogenetic protein antagonist.
The corresponding SNPs are associated with reduced expression of SOSTDC1
in non-Venezuelan tissue samples, suggesting that interaction of reduced
SOSTDC1 expression with a population-specific genetic or environmental
factor may be responsible for modification of HD onset in Venezuela.
Detection of population-specific modification in Venezuelan HD supports
the value of distinct disease populations in revealing novel aspects of a
disease and population-relevant therapeutic strategies. |
| doi_str_mv | 10.5061/dryad.tg5f2hp |
| format | Dataset |
| fullrecord | <record><control><sourceid>datacite_PQ8</sourceid><recordid>TN_cdi_datacite_primary_10_5061_dryad_tg5f2hp</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>10_5061_dryad_tg5f2hp</sourcerecordid><originalsourceid>FETCH-datacite_primary_10_5061_dryad_tg5f2hp3</originalsourceid><addsrcrecordid>eNqVjj0PgjAURbs4GHV0f5sTCBocXP0Io4Mxbs0LfcWXQNu0ZcBfLxD-gNPNzT3JPUJs8ywtslO-V75Hlca60IePW4r3FSOC9rY9w8O6rsHI1iTBUcWaK6jJUByytWrs0wpWQ9mZyKaO1uwCKA6EgYANvAb-21GDa7HQ2ATazLkSyf32vJSJGg4rjiSd5xZ9L_NMjmZyMpOz2fFf_gdRoUu6</addsrcrecordid><sourcetype>Publisher</sourcetype><iscdi>true</iscdi><recordtype>dataset</recordtype></control><display><type>dataset</type><title>Data from: Population-specific genetic modification of Huntington's disease in Venezuela</title><source>DataCite</source><creator>Chao, Michael J. ; Kim, Kyung-Hee ; Shin, Jun Wan ; Lucente, Diane ; Wheeler, Vanessa C. ; Li, Hong ; Roach, Jared C. ; Hood, Leroy ; Wexler, Nancy S. ; Jardim, Laura B. ; Holmans, Peter ; Jones, Lesley ; Orth, Michael ; Kwak, Seung ; Gusella, James F. ; MacDonald, Marcy E. ; Lee, Jong-Min</creator><creatorcontrib>Chao, Michael J. ; Kim, Kyung-Hee ; Shin, Jun Wan ; Lucente, Diane ; Wheeler, Vanessa C. ; Li, Hong ; Roach, Jared C. ; Hood, Leroy ; Wexler, Nancy S. ; Jardim, Laura B. ; Holmans, Peter ; Jones, Lesley ; Orth, Michael ; Kwak, Seung ; Gusella, James F. ; MacDonald, Marcy E. ; Lee, Jong-Min</creatorcontrib><description>Modifiers of Mendelian disorders can provide insights into disease
mechanisms and guide therapeutic strategies. A recent genome-wide
association (GWA) study discovered genetic modifiers of Huntington's
disease (HD) onset in Europeans. Here, we performed whole genome
sequencing and GWA analysis of a Venezuelan HD cluster whose families were
crucial for the original mapping of the HD gene defect. The Venezuelan HD
subjects develop motor symptoms earlier than their European counterparts,
implying the potential for population-specific modifiers. The main
Venezuelan HD family inherits HTT haplotype hap.03, which differs subtly
at the sequence level from European HD hap.03, suggesting a different
ancestral origin but not explaining the earlier age at onset in these
Venezuelans. GWA analysis of the Venezuelan HD cluster suggests both
population-specific and population-shared genetic modifiers. Genome-wide
significant signals at 7p21.2-21.1 and suggestive association signals at
4p14 and 17q21.2 are evident only in Venezuelan HD, but genome-wide
significant association signals at the established European chromosome 15
modifier locus are improved when Venezuelan HD data are included in the
meta-analysis. Venezuelan-specific association signals on chromosome 7
center on SOSTDC1, which encodes a bone morphogenetic protein antagonist.
The corresponding SNPs are associated with reduced expression of SOSTDC1
in non-Venezuelan tissue samples, suggesting that interaction of reduced
SOSTDC1 expression with a population-specific genetic or environmental
factor may be responsible for modification of HD onset in Venezuela.
Detection of population-specific modification in Venezuelan HD supports
the value of distinct disease populations in revealing novel aspects of a
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mechanisms and guide therapeutic strategies. A recent genome-wide
association (GWA) study discovered genetic modifiers of Huntington's
disease (HD) onset in Europeans. Here, we performed whole genome
sequencing and GWA analysis of a Venezuelan HD cluster whose families were
crucial for the original mapping of the HD gene defect. The Venezuelan HD
subjects develop motor symptoms earlier than their European counterparts,
implying the potential for population-specific modifiers. The main
Venezuelan HD family inherits HTT haplotype hap.03, which differs subtly
at the sequence level from European HD hap.03, suggesting a different
ancestral origin but not explaining the earlier age at onset in these
Venezuelans. GWA analysis of the Venezuelan HD cluster suggests both
population-specific and population-shared genetic modifiers. Genome-wide
significant signals at 7p21.2-21.1 and suggestive association signals at
4p14 and 17q21.2 are evident only in Venezuelan HD, but genome-wide
significant association signals at the established European chromosome 15
modifier locus are improved when Venezuelan HD data are included in the
meta-analysis. Venezuelan-specific association signals on chromosome 7
center on SOSTDC1, which encodes a bone morphogenetic protein antagonist.
The corresponding SNPs are associated with reduced expression of SOSTDC1
in non-Venezuelan tissue samples, suggesting that interaction of reduced
SOSTDC1 expression with a population-specific genetic or environmental
factor may be responsible for modification of HD onset in Venezuela.
Detection of population-specific modification in Venezuelan HD supports
the value of distinct disease populations in revealing novel aspects of a
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mechanisms and guide therapeutic strategies. A recent genome-wide
association (GWA) study discovered genetic modifiers of Huntington's
disease (HD) onset in Europeans. Here, we performed whole genome
sequencing and GWA analysis of a Venezuelan HD cluster whose families were
crucial for the original mapping of the HD gene defect. The Venezuelan HD
subjects develop motor symptoms earlier than their European counterparts,
implying the potential for population-specific modifiers. The main
Venezuelan HD family inherits HTT haplotype hap.03, which differs subtly
at the sequence level from European HD hap.03, suggesting a different
ancestral origin but not explaining the earlier age at onset in these
Venezuelans. GWA analysis of the Venezuelan HD cluster suggests both
population-specific and population-shared genetic modifiers. Genome-wide
significant signals at 7p21.2-21.1 and suggestive association signals at
4p14 and 17q21.2 are evident only in Venezuelan HD, but genome-wide
significant association signals at the established European chromosome 15
modifier locus are improved when Venezuelan HD data are included in the
meta-analysis. Venezuelan-specific association signals on chromosome 7
center on SOSTDC1, which encodes a bone morphogenetic protein antagonist.
The corresponding SNPs are associated with reduced expression of SOSTDC1
in non-Venezuelan tissue samples, suggesting that interaction of reduced
SOSTDC1 expression with a population-specific genetic or environmental
factor may be responsible for modification of HD onset in Venezuela.
Detection of population-specific modification in Venezuelan HD supports
the value of distinct disease populations in revealing novel aspects of a
disease and population-relevant therapeutic strategies.</abstract><pub>Dryad</pub><doi>10.5061/dryad.tg5f2hp</doi><oa>free_for_read</oa></addata></record> |
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| title | Data from: Population-specific genetic modification of Huntington's disease in Venezuela |
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