Variants of the CFC1 gene in patients with laterality defects associated with congenital cardiac disease

Objectives: This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement. Background: Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predi...

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Published in	Cardiology in the young Vol. 17; no. 3; pp. 268 - 274
Main Authors	Selamet Tierney, Elif Seda, Marans, Zvi, Rutkin, Melissa B., Chung, Wendy K.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 01.06.2007
Subjects	African Americans Amino acids Appendix Asian people Body Patterning - genetics Deoxyribonucleic acid DNA Female Gene Expression Regulation, Developmental Gene Frequency Genes Genetic Variation Genetics Genotype Heart Defects, Congenital - genetics Heterotaxy Humans Intercellular Signaling Peptides and Proteins - genetics isomerism Male mutation Mutation, Missense Original Article Phenotype Polymerase Chain Reaction polymorphism Polymorphism, Genetic Ribonucleic acid RNA mutation Heterotaxy polymorphism genetics isomerism
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Abstract	Objectives: This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement. Background: Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1, and heterozygous CFC1 mutations in humans, have been associated with laterality defects. Methods: Direct sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease. Results: We identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1. The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects. Conclusions: Three non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects.
AbstractList	Objectives: This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement. Background: Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1, and heterozygous CFC1 mutations in humans, have been associated with laterality defects. Methods: Direct sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease. Results: We identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1. The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects. Conclusions: Three non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects. This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement. Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1, and heterozygous CFC1 mutations in humans, have been associated with laterality defects. Direct sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease. We identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1. The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects. Three non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects. Objectives: This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement. Background: Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1 , and heterozygous CFC1 mutations in humans, have been associated with laterality defects. Methods: Direct sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease. Results: We identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1 . The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects. Conclusions: Three non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects. Objectives: This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement. Background: Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1, and heterozygous CFC1 mutations in humans, have been associated with laterality defects. Methods: Direct sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease. Results: We identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1. The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects. Conclusions: Three non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects. [PUBLICATION ABSTRACT] This study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement.OBJECTIVESThis study was designed to assess the frequency and types of genetic variants in CFC1 in children with laterality disorders associated with cardiovascular involvement.Laterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1, and heterozygous CFC1 mutations in humans, have been associated with laterality defects.BACKGROUNDLaterality syndromes are estimated to comprise 3% of neonates with congenital cardiac disease. Genetic predisposition in some cases of laterality defects has been suggested by associated chromosomal anomalies and familial aggregation, often within consanguineous families, suggesting autosomal recessive inheritance. Mice with induced homozygous mutations in cfc1, and heterozygous CFC1 mutations in humans, have been associated with laterality defects.Direct sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease.METHODSDirect sequence analysis of the coding sequence of CFC1 was performed in 42 subjects with laterality defects and congenital cardiac disease.We identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1. The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects.RESULTSWe identified 3 synonymous coding variants, 3 non-synonymous coding variants (N21H, R47Q, and R78W), and 2 intronic variants in CFC1. The N21H variant was observed in 3 of 19 affected Caucasians, and the R47Q variant in another 2. Neither polymorphism was observed in Caucasian controls. Furthermore, all subjects with the N21H polymorphism had double outlet right ventricle. Transmission of both the N21H and R47Q polymorphisms from unaffected parents was demonstrated, and all three non-synonymous variants had significant allele frequencies in unaffected African-American subjects, suggesting that other factors must also contribute to laterality defects.Three non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects.CONCLUSIONSThree non-synonymous variants in CFC1 were identified, the N21H variant being associated with laterality defects in Caucasians, but not fully penetrant. One or more of these non-synonymous missense variants may act as a susceptibility allele in conjunction with other genes, and/or environmental factors, to cause laterality defects.
Author	Selamet Tierney, Elif Seda Rutkin, Melissa B. Chung, Wendy K. Marans, Zvi
Author_xml	– sequence: 1 givenname: Elif Seda surname: Selamet Tierney fullname: Selamet Tierney, Elif Seda organization: Division of Pediatric Cardiology, Morgan Stanley Children's Hospital of New York Presbyterian, Columbia University, College of Physicians & Surgeons, New York, NY, United States of America – sequence: 2 givenname: Zvi surname: Marans fullname: Marans, Zvi organization: Division of Pediatric Cardiology, Morgan Stanley Children's Hospital of New York Presbyterian, Columbia University, College of Physicians & Surgeons, New York, NY, United States of America – sequence: 3 givenname: Melissa B. surname: Rutkin fullname: Rutkin, Melissa B. organization: Department of Radiology, Morgan Stanley Children's Hospital of New York Presbyterian, Columbia University, College of Physicians & Surgeons, New York, NY, United States of America – sequence: 4 givenname: Wendy K. surname: Chung fullname: Chung, Wendy K. organization: Division of Molecular Genetics, Morgan Stanley Children's Hospital of New York Presbyterian, Columbia University, College of Physicians & Surgeons, New York, NY, United States of America
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Cites_doi	10.1038/45803 10.1242/dev.127.16.3567 10.1016/S0959-437X(00)00085-X 10.2337/diab.46.9.1509 10.1086/339079 10.1006/dbio.1996.0148 10.1016/S0092-8674(00)81472-5 10.1006/scdb.1997.0187 10.1083/jcb.145.4.825 10.1016/S0092-8674(00)81705-5 10.1101/gad.11.14.1812 10.1242/dev.124.21.4373 10.1126/science.285.5426.403 10.1006/dbio.1999.9214 10.1038/81695 10.1016/S0168-9525(00)02006-0 10.1242/dev.126.24.5749 10.1101/gad.13.19.2527 10.1016/S0960-9822(00)80059-7 10.1073/pnas.96.9.5043 10.1086/302289 10.1242/dev.126.20.4643 10.1242/dev.126.23.5495 10.1073/pnas.79.22.6861
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SubjectTerms	African Americans Amino acids Appendix Asian people Body Patterning - genetics Deoxyribonucleic acid DNA Female Gene Expression Regulation, Developmental Gene Frequency Genes Genetic Variation Genetics Genotype Heart Defects, Congenital - genetics Heterotaxy Humans Intercellular Signaling Peptides and Proteins - genetics isomerism Male mutation Mutation, Missense Original Article Phenotype Polymerase Chain Reaction polymorphism Polymorphism, Genetic Ribonucleic acid RNA
Title	Variants of the CFC1 gene in patients with laterality defects associated with congenital cardiac disease
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