Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region

Jong Min Lee; Tammy Gillis; Jayalakshmi Srinidhi Mysore; Eliana Marisa Ramos; Richard H. Myers; Michael R. Hayden; Patrick J. Morrison; Martha Nance; Christopher A. Ross; Russell L. Margolis; Ferdinando Squitieri; Annamaria Griguoli; Stefano Di Donato; Estrella Gomez-Tortosa; Carmen Ayuso; Oksana Suchowersky; Ronald J. Trent; Elizabeth McCusker; Andrea Novelletto; Marina Frontali; Randi Jones; Tetsuo Ashizawa; Samuel Frank; Marie Helene Saint-Hilaire; Steven M. Hersch; Herminia D. Rosas; Diane Lucente; Madaline B. Harrison; Andrea Zanko; Ruth K. Abramson; Karen Marder; Jorge Sequeiros; Marcy E. MacDonald; James F. Gusella

doi:10.1016/j.ajhg.2012.01.005

Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region

Jong Min Lee, Tammy Gillis, Jayalakshmi Srinidhi Mysore, Eliana Marisa Ramos, Richard H. Myers, Michael R. Hayden, Patrick J. Morrison, Martha Nance, Christopher A. Ross, Russell L. Margolis, Ferdinando Squitieri, Annamaria Griguoli, Stefano Di Donato, Estrella Gomez-Tortosa, Carmen Ayuso, Oksana Suchowersky, Ronald J. Trent, Elizabeth McCusker, Andrea Novelletto, Marina FrontaliRandi Jones, Tetsuo Ashizawa, Samuel Frank, Marie Helene Saint-Hilaire, Steven M. Hersch, Herminia D. Rosas, Diane Lucente, Madaline B. Harrison, Andrea Zanko, Ruth K. Abramson, Karen Marder, Jorge Sequeiros, Marcy E. MacDonald, James F. Gusella

School of Medicine

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

Age at the onset of motor symptoms in Huntington disease (HD) is determined largely by the length of a CAG repeat expansion in HTT but is also influenced by other genetic factors. We tested whether common genetic variation near the mutation site is associated with differences in the distribution of expanded CAG alleles or age at the onset of motor symptoms. To define disease-associated single-nucleotide polymorphisms (SNPs), we compared 4p16.3 SNPs in HD subjects with population controls in a case:control strategy, which revealed that the strongest signals occurred at a great distance from the HD mutation as a result of "synthetic association" with SNP alleles that are of low frequency in population controls. Detailed analysis delineated a prominent ancestral haplotype that accounted for ∼50% of HD chromosomes and extended to at least 938 kb on about half of these. Together, the seven most abundant haplotypes accounted for ∼83% of HD chromosomes. Neither the extended shared haplotype nor the individual local HTT haplotypes were associated with altered CAG-repeat length distribution or residual age at the onset of motor symptoms, arguing against modification of these disease features by common cis-regulatory elements. Similarly, the 11 most frequent control haplotypes showed no trans-modifier effect on age at the onset of motor symptoms. Our results argue against common local regulatory variation as a factor influencing HD pathogenesis, suggesting that genetic modifiers be sought elsewhere in the genome. They also indicate that genome-wide association analysis with a small number of cases can be effective for regional localization of genetic defects, even when a founder effect accounts for only a fraction of the disorder.

Original language	English (US)
Pages (from-to)	434-444
Number of pages	11
Journal	American journal of human genetics
Volume	90
Issue number	3
DOIs	https://doi.org/10.1016/j.ajhg.2012.01.005
State	Published - Mar 9 2012

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1016/j.ajhg.2012.01.005

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Lee, J. M., Gillis, T., Mysore, J. S., Ramos, E. M., Myers, R. H., Hayden, M. R., Morrison, P. J., Nance, M., Ross, C. A., Margolis, R. L., Squitieri, F., Griguoli, A., Di Donato, S., Gomez-Tortosa, E., Ayuso, C., Suchowersky, O., Trent, R. J., McCusker, E., Novelletto, A., ... Gusella, J. F. (2012). Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region. American journal of human genetics, 90(3), 434-444. https://doi.org/10.1016/j.ajhg.2012.01.005

Lee, JM, Gillis, T, Mysore, JS, Ramos, EM, Myers, RH, Hayden, MR, Morrison, PJ, Nance, M, Ross, CA , Margolis, RL, Squitieri, F, Griguoli, A, Di Donato, S, Gomez-Tortosa, E, Ayuso, C, Suchowersky, O, Trent, RJ, McCusker, E, Novelletto, A, Frontali, M, Jones, R, Ashizawa, T, Frank, S, Saint-Hilaire, MH, Hersch, SM, Rosas, HD, Lucente, D, Harrison, MB, Zanko, A, Abramson, RK, Marder, K, Sequeiros, J, MacDonald, ME & Gusella, JF 2012, 'Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region', American journal of human genetics, vol. 90, no. 3, pp. 434-444. https://doi.org/10.1016/j.ajhg.2012.01.005

@article{1387ff7de6674a93a21c8f2cbfe297c7,

title = "Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region",

abstract = "Age at the onset of motor symptoms in Huntington disease (HD) is determined largely by the length of a CAG repeat expansion in HTT but is also influenced by other genetic factors. We tested whether common genetic variation near the mutation site is associated with differences in the distribution of expanded CAG alleles or age at the onset of motor symptoms. To define disease-associated single-nucleotide polymorphisms (SNPs), we compared 4p16.3 SNPs in HD subjects with population controls in a case:control strategy, which revealed that the strongest signals occurred at a great distance from the HD mutation as a result of {"}synthetic association{"} with SNP alleles that are of low frequency in population controls. Detailed analysis delineated a prominent ancestral haplotype that accounted for ∼50% of HD chromosomes and extended to at least 938 kb on about half of these. Together, the seven most abundant haplotypes accounted for ∼83% of HD chromosomes. Neither the extended shared haplotype nor the individual local HTT haplotypes were associated with altered CAG-repeat length distribution or residual age at the onset of motor symptoms, arguing against modification of these disease features by common cis-regulatory elements. Similarly, the 11 most frequent control haplotypes showed no trans-modifier effect on age at the onset of motor symptoms. Our results argue against common local regulatory variation as a factor influencing HD pathogenesis, suggesting that genetic modifiers be sought elsewhere in the genome. They also indicate that genome-wide association analysis with a small number of cases can be effective for regional localization of genetic defects, even when a founder effect accounts for only a fraction of the disorder.",

author = "Lee, {Jong Min} and Tammy Gillis and Mysore, {Jayalakshmi Srinidhi} and Ramos, {Eliana Marisa} and Myers, {Richard H.} and Hayden, {Michael R.} and Morrison, {Patrick J.} and Martha Nance and Ross, {Christopher A.} and Margolis, {Russell L.} and Ferdinando Squitieri and Annamaria Griguoli and {Di Donato}, Stefano and Estrella Gomez-Tortosa and Carmen Ayuso and Oksana Suchowersky and Trent, {Ronald J.} and Elizabeth McCusker and Andrea Novelletto and Marina Frontali and Randi Jones and Tetsuo Ashizawa and Samuel Frank and Saint-Hilaire, {Marie Helene} and Hersch, {Steven M.} and Rosas, {Herminia D.} and Diane Lucente and Harrison, {Madaline B.} and Andrea Zanko and Abramson, {Ruth K.} and Karen Marder and Jorge Sequeiros and MacDonald, {Marcy E.} and Gusella, {James F.}",

note = "Funding Information: We thank the HD research participants and their families, who made this work possible; the Harvard Brain Tissue Resource Center; the COHORT Study of the Huntington Study Group; and the Myocardial Infarction Genetics Consortium (MIGen) study, which was funded by grants from the U.S. National Institutes of Health and National Heart, Lung, and Blood Institute's STAMPEED genomics research program (R01 HL087676) and the National Center for Research Resources (U54 RR020278). We also thank investigators and contributors to the HD-MAPS study: Alexandra Durr, Adam Rosenblatt, Luigi Frati, Susan Perlman, P. Michael Conneally, Mary Lou Klimek, Melissa Diggin, Tiffany Hadzi, and Ayana Duckett. This work was supported by grants from the National Institute of Neurological Disorders and Stroke (NS16367) (Huntington's Disease Center Without Walls) and NS32765, the CHDI Foundation, and the Huntington's Disease Society of America's Coalition for the Cure. E.M.R. received a scholarship from the Funda{\c c}{\~a}o para a Ci{\^e}ncia e a Tecnologia of Portugal (SFRH/BD/44335/2008). ",

year = "2012",

month = mar,

day = "9",

doi = "10.1016/j.ajhg.2012.01.005",

language = "English (US)",

volume = "90",

pages = "434--444",

journal = "American journal of human genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "3",

}

TY - JOUR

T1 - Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region

AU - Lee, Jong Min

AU - Gillis, Tammy

AU - Mysore, Jayalakshmi Srinidhi

AU - Ramos, Eliana Marisa

AU - Myers, Richard H.

AU - Hayden, Michael R.

AU - Morrison, Patrick J.

AU - Nance, Martha

AU - Ross, Christopher A.

AU - Margolis, Russell L.

AU - Squitieri, Ferdinando

AU - Griguoli, Annamaria

AU - Di Donato, Stefano

AU - Gomez-Tortosa, Estrella

AU - Ayuso, Carmen

AU - Suchowersky, Oksana

AU - Trent, Ronald J.

AU - McCusker, Elizabeth

AU - Novelletto, Andrea

AU - Frontali, Marina

AU - Jones, Randi

AU - Ashizawa, Tetsuo

AU - Frank, Samuel

AU - Saint-Hilaire, Marie Helene

AU - Hersch, Steven M.

AU - Rosas, Herminia D.

AU - Lucente, Diane

AU - Harrison, Madaline B.

AU - Zanko, Andrea

AU - Abramson, Ruth K.

AU - Marder, Karen

AU - Sequeiros, Jorge

AU - MacDonald, Marcy E.

AU - Gusella, James F.

N1 - Funding Information: We thank the HD research participants and their families, who made this work possible; the Harvard Brain Tissue Resource Center; the COHORT Study of the Huntington Study Group; and the Myocardial Infarction Genetics Consortium (MIGen) study, which was funded by grants from the U.S. National Institutes of Health and National Heart, Lung, and Blood Institute's STAMPEED genomics research program (R01 HL087676) and the National Center for Research Resources (U54 RR020278). We also thank investigators and contributors to the HD-MAPS study: Alexandra Durr, Adam Rosenblatt, Luigi Frati, Susan Perlman, P. Michael Conneally, Mary Lou Klimek, Melissa Diggin, Tiffany Hadzi, and Ayana Duckett. This work was supported by grants from the National Institute of Neurological Disorders and Stroke (NS16367) (Huntington's Disease Center Without Walls) and NS32765, the CHDI Foundation, and the Huntington's Disease Society of America's Coalition for the Cure. E.M.R. received a scholarship from the Fundação para a Ciência e a Tecnologia of Portugal (SFRH/BD/44335/2008).

PY - 2012/3/9

Y1 - 2012/3/9

N2 - Age at the onset of motor symptoms in Huntington disease (HD) is determined largely by the length of a CAG repeat expansion in HTT but is also influenced by other genetic factors. We tested whether common genetic variation near the mutation site is associated with differences in the distribution of expanded CAG alleles or age at the onset of motor symptoms. To define disease-associated single-nucleotide polymorphisms (SNPs), we compared 4p16.3 SNPs in HD subjects with population controls in a case:control strategy, which revealed that the strongest signals occurred at a great distance from the HD mutation as a result of "synthetic association" with SNP alleles that are of low frequency in population controls. Detailed analysis delineated a prominent ancestral haplotype that accounted for ∼50% of HD chromosomes and extended to at least 938 kb on about half of these. Together, the seven most abundant haplotypes accounted for ∼83% of HD chromosomes. Neither the extended shared haplotype nor the individual local HTT haplotypes were associated with altered CAG-repeat length distribution or residual age at the onset of motor symptoms, arguing against modification of these disease features by common cis-regulatory elements. Similarly, the 11 most frequent control haplotypes showed no trans-modifier effect on age at the onset of motor symptoms. Our results argue against common local regulatory variation as a factor influencing HD pathogenesis, suggesting that genetic modifiers be sought elsewhere in the genome. They also indicate that genome-wide association analysis with a small number of cases can be effective for regional localization of genetic defects, even when a founder effect accounts for only a fraction of the disorder.

AB - Age at the onset of motor symptoms in Huntington disease (HD) is determined largely by the length of a CAG repeat expansion in HTT but is also influenced by other genetic factors. We tested whether common genetic variation near the mutation site is associated with differences in the distribution of expanded CAG alleles or age at the onset of motor symptoms. To define disease-associated single-nucleotide polymorphisms (SNPs), we compared 4p16.3 SNPs in HD subjects with population controls in a case:control strategy, which revealed that the strongest signals occurred at a great distance from the HD mutation as a result of "synthetic association" with SNP alleles that are of low frequency in population controls. Detailed analysis delineated a prominent ancestral haplotype that accounted for ∼50% of HD chromosomes and extended to at least 938 kb on about half of these. Together, the seven most abundant haplotypes accounted for ∼83% of HD chromosomes. Neither the extended shared haplotype nor the individual local HTT haplotypes were associated with altered CAG-repeat length distribution or residual age at the onset of motor symptoms, arguing against modification of these disease features by common cis-regulatory elements. Similarly, the 11 most frequent control haplotypes showed no trans-modifier effect on age at the onset of motor symptoms. Our results argue against common local regulatory variation as a factor influencing HD pathogenesis, suggesting that genetic modifiers be sought elsewhere in the genome. They also indicate that genome-wide association analysis with a small number of cases can be effective for regional localization of genetic defects, even when a founder effect accounts for only a fraction of the disorder.

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EP - 444

JO - American journal of human genetics

JF - American journal of human genetics

IS - 3

ER -

Common SNP-based haplotype analysis of the 4p16.3 Huntington disease gene region

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