Your search keyword '"Andy Itsara"' showing total 8 results

1. Correction: A 32 kb Critical Region Excluding Y402H in CFH Mediates Risk for Age-Related Macular Degeneration.

Author

Theru A Sivakumaran, Robert P Igo, Jeffrey M Kidd, Andy Itsara, Laura J Kopplin, Wei Chen, Stephanie A Hagstrom, Neal S Peachey, Peter J Francis, Michael L Klein, Emily Y Chew, Vedam L Ramprasad, Wan-Ting Tay, Paul Mitchell, Mark Seielstad, Dwight E Stambolian, Albert O Edwards, Kristine E Lee, Dmitry V Leontiev, Gyungah Jun, Yang Wang, Liping Tian, Feiyou Qiu, Alice K Henning, Thomas LaFramboise, Parveen Sen, Manoharan Aarthi, Ronnie George, Rajiv Raman, Manmath Kumar Das, Lingam Vijaya, Govindasamy Kumaramanickavel, Tien Y Wong, Anand Swaroop, Goncalo R Abecasis, Ronald Klein, Barbara E K Klein, Deborah A Nickerson, Evan E Eichler, and Sudha K Iyengar

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0025598.].

Published

2018

2. A 32 kb critical region excluding Y402H in CFH mediates risk for age-related macular degeneration.

Author

Theru A Sivakumaran, Robert P Igo, Jeffrey M Kidd, Andy Itsara, Laura J Kopplin, Wei Chen, Stephanie A Hagstrom, Neal S Peachey, Peter J Francis, Michael L Klein, Emily Y Chew, Vedam L Ramprasad, Wan-Ting Tay, Paul Mitchell, Mark Seielstad, Dwight E Stambolian, Albert O Edwards, Kristine E Lee, Dmitry V Leontiev, Gyungah Jun, Yang Wang, Liping Tian, Feiyou Qiu, Alice K Henning, Thomas LaFramboise, Parveen Sen, Manoharan Aarthi, Ronnie George, Rajiv Raman, Manmath Kumar Das, Lingam Vijaya, Govindasamy Kumaramanickavel, Tien Y Wong, Anand Swaroop, Goncalo R Abecasis, Ronald Klein, Barbara E K Klein, Deborah A Nickerson, Evan E Eichler, and Sudha K Iyengar

Subjects

Medicine, Science

Abstract

Complement factor H shows very strong association with Age-related Macular Degeneration (AMD), and recent data suggest that multiple causal variants are associated with disease. To refine the location of the disease associated variants, we characterized in detail the structural variation at CFH and its paralogs, including two copy number polymorphisms (CNP), CNP147 and CNP148, and several rare deletions and duplications. Examination of 34 AMD-enriched extended families (N = 293) and AMD cases (White N = 4210 Indian = 134; Malay = 140) and controls (White N = 3229; Indian = 117; Malay = 2390) demonstrated that deletion CNP148 was protective against AMD, independent of SNPs at CFH. Regression analysis of seven common haplotypes showed three haplotypes, H1, H6 and H7, as conferring risk for AMD development. Being the most common haplotype H1 confers the greatest risk by increasing the odds of AMD by 2.75-fold (95% CI = [2.51, 3.01]; p = 8.31×10(-109)); Caucasian (H6) and Indian-specific (H7) recombinant haplotypes increase the odds of AMD by 1.85-fold (p = 3.52×10(-9)) and by 15.57-fold (P = 0.007), respectively. We identified a 32-kb region downstream of Y402H (rs1061170), shared by all three risk haplotypes, suggesting that this region may be critical for AMD development. Further analysis showed that two SNPs within the 32 kb block, rs1329428 and rs203687, optimally explain disease association. rs1329428 resides in 20 kb unique sequence block, but rs203687 resides in a 12 kb block that is 89% similar to a noncoding region contained in ΔCNP148. We conclude that causal variation in this region potentially encompasses both regulatory effects at single markers and copy number.

Published

2011

3. Correction: A 32 kb Critical Region Excluding Y402H in CFH Mediates Risk for Age-Related Macular Degeneration

Author

Manoharan Aarthi, Theru A. Sivakumaran, Manmath Kumar Das, Stephanie A. Hagstrom, Liping Tian, Rajiv Raman, Gonçalo R. Abecasis, Vedam L. Ramprasad, Deborah A. Nickerson, Mark Seielstad, Emily Y. Chew, Parveen Sen, Wei Chen, Michael L. Klein, Lingam Vijaya, Jeffrey M. Kidd, Paul Mitchell, Evan E. Eichler, Yang Wang, Dwight Stambolian, Neal S. Peachey, Peter J. Francis, Ronnie George, Barbara E.K. Klein, Feiyou Qiu, Wan Ting Tay, A. K. Henning, Gyungah Jun, Dmitry V. Leontiev, Laura J. Kopplin, Tien Yin Wong, Albert O. Edwards, Robert P. Igo, Kristine E. Lee, Thomas LaFramboise, Anand Swaroop, Sudha K. Iyengar, Andy Itsara, Govindasamy Kumaramanickavel, and Ronald Klein

Subjects

Multidisciplinary, General Science & Technology, Science, Philosophy, Age related, Medicine, Theology

Abstract

Author(s): Sivakumaran, Theru A; Igo, Robert P; Kidd, Jeffrey M; Itsara, Andy; Kopplin, Laura J; Chen, Wei; Hagstrom, Stephanie A; Peachey, Neal S; Francis, Peter J; Klein, Michael L; Chew, Emily Y; Ramprasad, Vedam L; Tay, Wan-Ting; Mitchell, Paul; Seielstad, Mark; Stambolian, Dwight E; Edwards, Albert O; Lee, Kristine E; Leontiev, Dmitry V; Jun, Gyungah; Wang, Yang; Tian, Liping; Qiu, Feiyou; Henning, Alice K; LaFramboise, Thomas; Sen, Parveen; Aarthi, Manoharan; George, Ronnie; Raman, Rajiv; Das, Manmath Kumar; Vijaya, Lingam; Kumaramanickavel, Govindasamy; Wong, Tien Y; Swaroop, Anand; Abecasis, Goncalo R; Klein, Ronald; Klein, Barbara EK; Nickerson, Deborah A; Eichler, Evan E; Iyengar, Sudha K | Abstract: [This corrects the article DOI: 10.1371/journal.pone.0025598.].

Published

2018

4. A recurrent 16p12.1 microdeletion supports a two-hit model for severe developmental delay

Author

Beatrice N. French, Blake C. Ballif, Jill A. Rosenfeld, Santhosh Girirajan, Eric Haan, Jennifer Kussmann, Shane McCarthy, Valerie Banks, Darren Farber, Carl Baker, John B. Moeschler, Alisha Biser, Kathryn Platky, Bhuwan P. Garg, Jonathan Sebat, Rosemarie Smith, Donna M. McDonald-McGinn, Brian L. Browning, Joe J. Hoo, Jennifer Dickerson, Jillian R Ozmore, Yves Lacassie, Urvashi Surti, Luis F. Escobar, Dima El-Khechen, Andy Itsara, Marie T. McDonald, Corrado Romano, Gregory M. Cooper, David D. Weaver, Bonnie A. Salbert, Wendy E. Smith, Tamim H. Shaikh, Lisa G. Shaffer, Paul R. Mark, Sara Ellingwood, Francesca Antonacci, Jeffrey M. Kidd, Alexander Asamoah, Evan E. Eichler, Cindy Hudson, Marco Fichera, Lynn E. DeLisi, Gordon C. Gowans, Jessica J. Wetherbee, Jozef Gecz, Mary Claire King, Elaine H. Zackai, Jerome L. Gorski, Priscillia Siswara, John P. Johnson, Kathryn Friend, Matthew A. Deardorff, Laura Vives, Deborah L. Levy, Sharon R. Browning, Diane E. Dickel, Heather C Mefford, and Tom Walsh

Subjects

Proband, Developmental Disabilities, Severity of Illness Index, Medical and Health Sciences, 0302 clinical medicine, Gene Frequency, Recurrence, Models, Polymorphism (computer science), 2.1 Biological and endogenous factors, Child, Oligonucleotide Array Sequence Analysis, Pediatric, Genetics, Comparative Genomic Hybridization, 0303 health sciences, Single Nucleotide, Biological Sciences, Phenotype, Pedigree, Child, Preschool, Chromosome Deletion, Human, Adult, Biology, Polymorphism, Single Nucleotide, Article, Chromosomes, 03 medical and health sciences, Genetic, Severity of illness, medicine, Humans, Family, Polymorphism, Preschool, Allele frequency, 030304 developmental biology, Models, Genetic, Pair 16, Neurosciences, Case-control study, Infant, medicine.disease, Brain Disorders, Developmental disorder, Case-Control Studies, Chromosomes, Human, Pair 16, 030217 neurology & neurosurgery, Developmental Biology, Comparative genomic hybridization

Abstract

We report the identification of a recurrent, 520-kb 16p12.1 microdeletion associated with childhood developmental delay. The microdeletion was detected in 20 of 11,873 cases compared with 2 of 8,540 controls (P = 0.0009, OR = 7.2) and replicated in a second series of 22 of 9,254 cases compared with 6 of 6,299 controls (P = 0.028, OR = 2.5). Most deletions were inherited, with carrier parents likely to manifest neuropsychiatric phenotypes compared to non-carrier parents (P = 0.037, OR = 6). Probands were more likely to carry an additional large copy-number variant when compared to matched controls (10 of 42 cases, P = 5.7 × 10 5, OR = 6.6). The clinical features of individuals with two mutations were distinct from and/or more severe than those of individuals carrying only the co-occurring mutation. Our data support a two-hit model in which the 16p12.1 microdeletion both predisposes to neuropsychiatric phenotypes as a single event and exacerbates neurodevelopmental phenotypes in association with other large deletions or duplications. Analysis of other microdeletions with variable expressivity indicates that this two-hit model might be more generally applicable to neuropsychiatric disease. © 2010 Nature America, Inc. All rights reserved.

Published

2010

5. Actionable exomic incidental findings in 6503 participants: challenges of variant classification

Author

Christopher J. O'Donnell, Benjamin S. Wilfond, Steven A. Lubitz, Deborah A. Nickerson, William M. Grady, Robert J. Desnick, Brian H. Shirts, Andrew D. Johnson, Carlos J. Gallego, Melissa A. Kelly, Michael J. Bamshad, Daniel Seung Kim, Heidi L. Rehm, C. Ronald Scott, Kathleen A. Leppig, Matthew C. Dulik, Ora Gordon, Nancy B. Spinner, Lesli A. Kiedrowski, Ella R. Jarvik, Tom Walsh, Jerry H. Kim, Elisabeth A. Rosenthal, Laura K. Conlin, Robin L. Bennett, Jennifer Schleit, Kristy Lee, Colin C. Pritchard, Fuki M. Hisama, Stephanie M. Fullerton, Mari Tokita, Laura M. Amendola, Amber A. Burt, Peter H. Byers, Wendy H. Raskind, Seema M. Jamal, Kalotina Machini, Surabhi Mulchandani, Jerome I. Rotter, Daniel S. Herman, Yaoping Yang, Kent D. Taylor, James P. Evans, Ragan Hart, Peggy D. Robertson, Xiuqing Guo, David R. Crosslin, Gail P. Jarvik, Michael O. Dorschner, Leslie J. Raffel, James T. Bennett, Virginia P. Sybert, Leslie G. Biesecker, Jonathan S. Berg, Mitzi L. Murray, Kristy Crooks, Thomas D. Bird, Holly K. Tabor, Emily H. Turner, C. Sue Richards, Arno G. Motulsky, Steven Joffe, Jenica L. Abrudan, Wylie Burke, Danielle R. Metterville, Avni Santani, Ann Katherine M. Foreman, Stephen S. Rich, Joseph Salama, Kelly L. Jones, Jane E. Ranchalis, Andy Itsara, and Greg M. Cooper

Subjects

Adult, Male, Bioinformatics, In silico, Black People, Genomics, Biology, Genome, Medical and Health Sciences, Polymorphism, Single Nucleotide, White People, Gene Frequency, Clinical Research, medicine, Genetics, Humans, Dominant, Exome, Genetic Testing, Polymorphism, Allele frequency, Genetics (clinical), Exome sequencing, Genetic Association Studies, Genetic testing, Genes, Dominant, Incidental Findings, medicine.diagnostic_test, Whites, Genome, Human, Research, Human Genome, High-Throughput Nucleotide Sequencing, Single Nucleotide, Blacks, Biological Sciences, Good Health and Well Being, Phenotype, Genes, Human genome, Female, Human, Biotechnology

Abstract

Recommendations for laboratories to report incidental findings from genomic tests have stimulated interest in such results. In order to investigate the criteria and processes for assigning the pathogenicity of specific variants and to estimate the frequency of such incidental findings in patients of European and African ancestry, we classified potentially actionable pathogenic single-nucleotide variants (SNVs) in all 4300 European- and 2203 African-ancestry participants sequenced by the NHLBI Exome Sequencing Project (ESP). We considered 112 gene-disease pairs selected by an expert panel as associated with medically actionable genetic disorders that may be undiagnosed in adults. The resulting classifications were compared to classifications from other clinical and research genetic testing laboratories, as well as with in silico pathogenicity scores. Among European-ancestry participants, 30 of 4300 (0.7%) had a pathogenic SNV and six (0.1%) had a disruptive variant that was expected to be pathogenic, whereas 52 (1.2%) had likely pathogenic SNVs. For African-ancestry participants, six of 2203 (0.3%) had a pathogenic SNV and six (0.3%) had an expected pathogenic disruptive variant, whereas 13 (0.6%) had likely pathogenic SNVs. Genomic Evolutionary Rate Profiling mammalian conservation score and the Combined Annotation Dependent Depletion summary score of conservation, substitution, regulation, and other evidence were compared across pathogenicity assignments and appear to have utility in variant classification. This work provides a refined estimate of the burden of adult onset, medically actionable incidental findings expected from exome sequencing, highlights challenges in variant classification, and demonstrates the need for a better curated variant interpretation knowledge base.

Published

2015

6. Resolving the breakpoints of the 17q21.31 microdeletion syndrome with next-generation sequencing

Author

Choli Lee, Joris A. Veltman, Karyn Meltz Steinberg, Edwin Cuppen, Michael C. Zody, Tina Graves, Andy Itsara, Evan E. Eichler, Richard K. Wilson, Carl Baker, Joep de Ligt, Lisenka E.L.M. Vissers, Robert B. Jenkins, Kevin J. Meyer, David A. Koolen, and Hubrecht Institute for Developmental Biology and Stem Cell Research

Subjects

DNA Copy Number Variations, Molecular Sequence Data, Chromosome Breakpoints, Non-allelic homologous recombination, Biology, Genome, DNA sequencing, Article, Genomic disorders and inherited multi-system disorders [IGMD 3], 03 medical and health sciences, 0302 clinical medicine, Segmental Duplications, Genomic, medicine, Genetics, Humans, Genetics(clinical), Homologous Recombination, Genetics (clinical), 030304 developmental biology, Segmental duplication, 0303 health sciences, Comparative Genomic Hybridization, Base Sequence, Sequence Analysis, DNA, medicine.disease, 17q21.31 microdeletion syndrome, Haplotypes, Chromosome Deletion, Smith-Magenis Syndrome, Genetics and epigenetic pathways of disease Genomic disorders and inherited multi-system disorders [NCMLS 6], 030217 neurology & neurosurgery, Reference genome, Comparative genomic hybridization, Chromosomes, Human, Pair 17

Abstract

Item does not contain fulltext Recurrent deletions have been associated with numerous diseases and genomic disorders. Few, however, have been resolved at the molecular level because their breakpoints often occur in highly copy-number-polymorphic duplicated sequences. We present an approach that uses a combination of somatic cell hybrids, array comparative genomic hybridization, and the specificity of next-generation sequencing to determine breakpoints that occur within segmental duplications. Applying our technique to the 17q21.31 microdeletion syndrome, we used genome sequencing to determine copy-number-variant breakpoints in three deletion-bearing individuals with molecular resolution. For two cases, we observed breakpoints consistent with nonallelic homologous recombination involving only H2 chromosomal haplotypes, as expected. Molecular resolution revealed that the breakpoints occurred at different locations within a 145 kbp segment of >99% identity and disrupt KANSL1 (previously known as KANSL1). In the remaining case, we found that unequal crossover occurred interchromosomally between the H1 and H2 haplotypes and that this event was mediated by a homologous sequence that was once again missing from the human reference. Interestingly, the breakpoints mapped preferentially to gaps in the current reference genome assembly, which we resolved in this study. Our method provides a strategy for the identification of breakpoints within complex regions of the genome harboring high-identity and copy-number-polymorphic segmental duplication. The approach should become particularly useful as high-quality alternate reference sequences become available and genome sequencing of individuals' DNA becomes more routine.

Published

2012

7. Recurrent rearrangements of chromosome 1q21.1 and variable pediatric phenotypes

Author

Xavier Estivill, Charles E. Schwartz, Louise Gallagher, Karen Buysse, Soo Mi Park, Iris Casuga, Stefania Gimelli, Regina Regan, Zhaoshi Jiang, Carl Baker, Pasquale Striano, Heather C Mefford, Patrick Verloo, Joris A. Veltman, Giorgio Gimelli, Edward S. Tobias, Sabina Gallati, Jon McClellan, Corrado Romano, Chris Lilley, Kelly Li, Samantha J. L. Knight, Joris Vermeesch, William Reardon, Markus Schwerzmann, Roger E. Stevenson, Koenraad Norga, Martin Poot, Geert Mortier, Yves Spysschaert, Ellen van Binsbergen, Evan E. Eichler, Koenraad Devriendt, Lorraine Gaunt, Bernard Conrad, Lluís Armengol, Stuart Schwartz, Catherine Mercer, John Tolmie, Viv K. Maloney, Lionel Willatt, Antonietta Coppola, Santina Reitano, Susan M. Gribble, John C. K. Barber, Anja De Coene, Frank Speleman, Frédérique Béna, Andy Itsara, Ron Hochstenbach, Caifu Chen, Linde Goossens, Adam Broomer, Tom Walsh, John A. Crolla, Shuwen Huang, Thomy de Ravel, May Tassabehji, Helen V. Firth, Cindy Skinner, Amanda L. Collins, Ernie M.H.F. Bongers, Stylianos E. Antonarakis, Diana Baralle, Michael Gill, Bert B.A. de Vries, Mary Claire King, Jill Clayton-Smith, Nicole de Leeuw, Georgina Parkin, Serena Nik-Zainal, Jonathan Sebat, James S. Sutcliffe, Ingrid Simonic, Björn Menten, Mariangela Lo Giudice, Marco Fichera, Lorenz Räber, Raoul C.M. Hennekam, Sarju G. Mehta, Andrew J. Sharp, Alison Male, Marcel R. Nelen, C. Geoffrey Woods, Mefford, H., Sharp, A., Baker, C., Itsara, A., Jiang, Z., Buysse, K., Huang, S., Maloney, V., Crolla, J., Baralle, D., Collins, A., Mercer, C., Norga, K., De Ravel, T., Devriendt, K., Bongers, E., De Leeuw, N., Reardon, W., Gimelli, S., Bena, F., Hennekam, R., Male, A., Gaunt, L., Clayton-Smith, J., Simonic, I., Park, S., Mehta, S., Nik-Zainal, S., Woods, C., Firth, H., Parkin, G., Fichera, M., Reitano, S., Lo Giudice, M., Li, K., Casuga, I., Broomer, A., Conrad, B., Schwerzmann, M., Räber, L., Gallati, S., Striano, P., Coppola, A., Tolmie, J., Tobias, E., Lilley, C., Armengol, L., Spysschaert, Y., Verloo, P., De Coene, A., Goossens, L., Mortier, G., Speleman, F., Van Binsbergen, E., Nelen, M., Hochstenbach, R., Poot, M., Gallagher, L., Gill, M., Mcclellan, J., King, M. -C., Regan, R., Skinner, C., Stevenson, R., Antonarakis, S., Chen, C., Estivill, X., Menten, B., Gimelli, G., Gribble, S., Schwartz, S., Sutcliffe, J., Walsh, T., Knight, S., Sebat, J., Romano, C., Schwartz, C., Veltman, J., De Vries, B., Vermeesch, J., Barber, J., Willatt, L., Tassabehji, M., Eichler, E., Gimelli, Stefania, Conrad, Bernard, Antonarakis, Stylianos, ANS - Amsterdam Neuroscience, APH - Amsterdam Public Health, Paediatric Genetics, and University of Groningen

Subjects

Male, Microcephaly, Genetics and epigenetic pathways of disease [NCMLS 6], Congenital, Microcephaly/genetics, 0302 clinical medicine, Gene Duplication, Gene duplication, HUMAN GENOME, genetics, ddc:576.5, Copy-number variation, Child, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Heart Defects, Renal disorder [IGMD 9], Psychiatry, Gene Rearrangement, Recombination, Genetic, Genetics, 0303 health sciences, General Medicine, Microdeletion syndrome, Chromosomes, Human, Pair 1/ genetics, Heart Defects, Congenital/genetics, 3. Good health, Phenotype, Chromosomes, Human, Pair 1, Autism spectrum disorder, congenital/genetics, Pair 1, Female, Chromosome Deletion, Functional Neurogenomics [DCN 2], Human, Heart Defects, Congenital, SEGMENTAL DUPLICATIONS, MICRODELETION SYNDROME, Context (language use), COPY-NUMBER VARIATION, Chromosomes, Article, Cataract, Congenital Abnormalities, Genomic disorders and inherited multi-system disorders [IGMD 3], 03 medical and health sciences, Genetic, Translational research [ONCOL 3], Intellectual Disability, medicine, Humans, 22Q11.2 DELETION SYNDROME, Autistic Disorder, 030304 developmental biology, Congenital Abnormalities/ genetics, Chromosome Aberrations, Hereditary cancer and cancer-related syndromes [ONCOL 1], business.industry, Genetic Variation, Autistic Disorder/ genetics, Gene rearrangement, medicine.disease, Recombination, Cataract/congenital/genetics, POLYMORPHISM, INDIVIDUALS, Genetic defects of metabolism [UMCN 5.1], ATRIAL-FIBRILLATION, Autism, genetics, Cataract, congenital/genetics, Child, Chromosome Aberrations, Chromosome Deletion, Chromosomes, genetics, Congenital Abnormalities, genetics, Female, Gene Duplication, Gene Rearrangement, Genetic Variation, Heart Defects, genetics, Humans, Intellectual Disability, genetics, Male, Microcephaly, genetics, Phenotype, Recombination, Mental Retardation/ genetics, business, MENTAL-RETARDATION, ARRAY-CGH, 030217 neurology & neurosurgery, Immunity, infection and tissue repair [NCMLS 1]

Abstract

PUBLISHED, Background Duplications and deletions in the human genome can cause disease or predispose persons to disease. Advances in technologies to detect these changes allow for the routine identification of submicroscopic imbalances in large numbers of patients. Methods We tested for the presence of microdeletions and microduplications at a specific region of chromosome 1q21.1 in two groups of patients with unexplained mental retardation, autism, or congenital anomalies and in unaffected persons. Results We identified 25 persons with a recurrent 1.35-Mb deletion within 1q21.1 from screening 5218 patients. The microdeletions had arisen de novo in eight patients, were inherited from a mildly affected parent in three patients, were inherited from an apparently unaffected parent in six patients, and were of unknown inheritance in eight patients. The deletion was absent in a series of 4737 control persons (P=1.1x10?7). We found considerable variability in the level of phenotypic expression of the microdeletion; phenotypes included mild-to-moderate mental retardation, microcephaly, cardiac abnormalities, and cataracts. The reciprocal duplication was enriched in nine children with mental retardation or autism spectrum disorder and other variable features (P=0.02). We identified three deletions and three duplications of the 1q21.1 region in an independent sample of 788 patients with mental retardation and congenital anomalies. Conclusions We have identified recurrent molecular lesions that elude syndromic classification and whose disease manifestations must be considered in a broader context of development as opposed to being assigned to a specific disease. Clinical diagnosis in patients with these lesions may be most readily achieved on the basis of genotype rather than phenotype., Supported in part by grants from the National Institutes of Health (NIH) (HD043569, to Dr. Eichler), the South Carolina Department of Disabilities and Special Needs (to Drs. Skinner, Stevenson, and Schwartz), the Wellcome Trust (061183, to Dr. Tassabehji), the Andre & Cyprien Foundation and the University Hospitals of Geneva (to Drs. Antonarakis, Bena, and Gallati), and the European Union (EU) (project 219250, to Dr. Sharp; AnEUploidy project 037627, to Drs. Leeuw, Armengol, Antonarakis, Estivill, Veltman, and de Vries). The Irish Autism Study was funded by the Wellcome Trust and the Health Research Board (a grant to Drs. Gallagher and Gill). Dr. Poot was supported by a grant from the Dutch Foundation for Brain Research (Hersenstichting grant 2008(1) 34); Drs. Regan and Knight, by the Oxford Partnership Comprehensive Biomedical Research Centre; Dr. Willatt, by the Cambridge Biomedical Research Centre, with funding from the United Kingdom Department of Health's National Institute for Health Research Biomedical Research Centres funding scheme; Drs. Huang and Maloney, as part of the National Genetics Reference Laboratory (Wessex) by the United Kingdom Department of Health; Ms. Buysse, as a research assistant of the Research Foundation?Flanders (FWO?Vlaanderen); and Dr. Eichler, as an investigator of the Howard Hughes Medical Institute.

Published

2008

8. A 32 kb Critical Region Excluding Y402H in CFH Mediates Risk for Age-Related Macular Degeneration

Author

Dmitry V. Leontiev, Paul Mitchell, Peter J. Francis, Sudha K. Iyengar, Deborah A. Nickerson, Robert P. Igo, Kristine E. Lee, Emily Y. Chew, Gyungah Jun, Manoharan Aarthi, Neal S. Peachey, Parveen Sen, Albert O. Edwards, Stephanie A. Hagstrom, Jeffrey M. Kidd, Theru A. Sivakumaran, Liping Tian, Govindasamy Kumaramanickavel, Ronald Klein, Rajiv Raman, Wei Chen, Mark Seielstad, Dwight Stambolian, Barbara E.K. Klein, Vedam L. Ramprasad, Gonçalo R. Abecasis, Michael L. Klein, Manmath Kumar Das, Ronnie George, Yang Wang, Feiyou Qiu, Andy Itsara, A. K. Henning, Thomas LaFramboise, Anand Swaroop, Lingam Vijaya, Evan E. Eichler, Wan Ting Tay, Laura J. Kopplin, Tien Yin Wong, and Urtti, Arto

Subjects

Aging, Linkage disequilibrium, Epidemiology, Gene Expression, lcsh:Medicine, Neurodegenerative, Linkage Disequilibrium, Cohort Studies, Macular Degeneration, 0302 clinical medicine, Risk Factors, Polymorphism (computer science), 2.1 Biological and endogenous factors, Copy-number variation, Aetiology, lcsh:Science, Base Pairing, Segmental duplication, Genetics, 0303 health sciences, Multidisciplinary, Single Nucleotide, Reference Standards, Genetic Epidemiology, Complement Factor H, Multigene Family, Factor H, Medicine, Research Article, DNA Copy Number Variations, General Science & Technology, Molecular Sequence Data, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Structural variation, 03 medical and health sciences, Humans, Inherited Eye Disorders, Genetic Predisposition to Disease, Polymorphism, Eye Disease and Disorders of Vision, 030304 developmental biology, Base Sequence, lcsh:R, Human Genome, Haplotype, Reproducibility of Results, Correction, eye diseases, Ophthalmology, Haplotypes, Macular Disorders, Genetics of Disease, Mutation, 030221 ophthalmology & optometry, lcsh:Q

Abstract

Complement factor H shows very strong association with Age-related Macular Degeneration (AMD), and recent data suggest that multiple causal variants are associated with disease. To refine the location of the disease associated variants, we characterized in detail the structural variation at CFH and its paralogs, including two copy number polymorphisms (CNP), CNP147 and CNP148, and several rare deletions and duplications. Examination of 34 AMD-enriched extended families (N = 293) and AMD cases (White N = 4210 Indian = 134; Malay = 140) and controls (White N = 3229; Indian = 117; Malay = 2390) demonstrated that deletion CNP148 was protective against AMD, independent of SNPs at CFH. Regression analysis of seven common haplotypes showed three haplotypes, H1, H6 and H7, as conferring risk for AMD development. Being the most common haplotype H1 confers the greatest risk by increasing the odds of AMD by 2.75-fold (95% CI = [2.51, 3.01]; p = 8.31×10(-109)); Caucasian (H6) and Indian-specific (H7) recombinant haplotypes increase the odds of AMD by 1.85-fold (p = 3.52×10(-9)) and by 15.57-fold (P = 0.007), respectively. We identified a 32-kb region downstream of Y402H (rs1061170), shared by all three risk haplotypes, suggesting that this region may be critical for AMD development. Further analysis showed that two SNPs within the 32 kb block, rs1329428 and rs203687, optimally explain disease association. rs1329428 resides in 20 kb unique sequence block, but rs203687 resides in a 12 kb block that is 89% similar to a noncoding region contained in ΔCNP148. We conclude that causal variation in this region potentially encompasses both regulatory effects at single markers and copy number.

Published

2011