TY - JOUR
T1 - Whole genome sequencing of orofacial cleft trios from the Gabriella Miller Kids First Pediatric Research Consortium identifies a new locus on chromosome 21
AU - Mukhopadhyay, Nandita
AU - Bishop, Madison
AU - Mortillo, Michael
AU - Chopra, Pankaj
AU - Hetmanski, Jacqueline B.
AU - Taub, Margaret A.
AU - Moreno, Lina M.
AU - Valencia-Ramirez, Luz Consuelo
AU - Restrepo, Claudia
AU - Wehby, George L.
AU - Hecht, Jacqueline T.
AU - Deleyiannis, Frederic
AU - Butali, Azeez
AU - Weinberg, Seth M.
AU - Beaty, Terri H.
AU - Murray, Jeffrey C.
AU - Leslie, Elizabeth J.
AU - Feingold, Eleanor
AU - Marazita, Mary L.
N1 - Funding Information:
These studies are part of the Gabriella Miller Kids First Pediatric Research Program consortium (Kids First), supported by the Common Fund of the Office of the Director of the National Institutes of Health ( www.commonfund.nih.gov/KidsFirst ). Washington University’s McDonell Genome Institute was awarded an administrative supplement (3U54HG003079-12S1) to sequence structural birth defect samples including the European descent Orofacial Cleft samples for the current study funded through Kids First (X01-HL132363, MLM, EF). Further, the Broad Institute Sequencing Center was awarded a grant (U24-HD090743) to sequence structural birth defect cohort samples including the Latin American Orofacial Cleft family samples for the current study funded through Kids First (X01-HL136465, MLM, EF). The sequencing centers plus the Kids First Data Resource Center (kidsfirstdrc.org, supported by the NIH Common Fund through U2CHL138346) provided quality control analyses in support of this project. The data analyzed and reported in this manuscript were accessed from dbGaP [ www.ncbi.nlm.nih.gov/gap ; European trios : dbGaP accession number phs001168.v2.p2; Colombian trios : dbGaP accession number phs001420.v1.p1] and from the Kids First Data Resource Center (kidsfirstdrc.org). Additional grants supported the assembling of the cohorts, collection of the phenotypic data and samples, and data analysis [R01-DE016148 (MLM, SMW), R03-DE026469 (MLM, EF), R01-DE012472 (MLM), U01-DD000295 (GLW), R01-DE014581 (THB), R01-DE011931 (JTH), R21-DE016930 (MLM), and R01-DE014667 (Andrew Lidral and LMM), and R00-DE025060 (EJL)]. Many thanks to the participating families and study teams worldwide without whom these studies would not have been possible. Additional thanks to Andrew Lidral, Mauricio Arcos-Burgos, and Andrew Czeizel.
Funding Information:
These studies are part of the Gabriella Miller Kids First Pediatric Research Program consortium (Kids First), supported by the Common Fund of the Office of the Director of the National Institutes of Health (www.commonfund.nih.gov/KidsFirst). Washington University?s McDonell Genome Institute was awarded an administrative supplement (3U54HG003079-12S1) to sequence structural birth defect samples including the European descent Orofacial Cleft samples for the current study funded through Kids First (X01-HL132363, MLM, EF). Further, the Broad Institute Sequencing Center was awarded a grant (U24-HD090743) to sequence structural birth defect cohort samples including the Latin American Orofacial Cleft family samples for the current study funded through Kids First (X01-HL136465, MLM, EF). The sequencing centers plus the Kids First Data Resource Center (kidsfirstdrc.org, supported by the NIH Common Fund through U2CHL138346) provided quality control analyses in support of this project. The data analyzed and reported in this manuscript were accessed from dbGaP [www.ncbi.nlm.nih.gov/gap ; European trios : dbGaP accession number phs001168.v2.p2; Colombian trios : dbGaP accession number phs001420.v1.p1] and from the Kids First Data Resource Center (kidsfirstdrc.org). Additional grants supported the assembling of the cohorts, collection of the phenotypic data and samples, and data analysis [R01-DE016148 (MLM, SMW), R03-DE026469 (MLM, EF), R01-DE012472 (MLM), U01-DD000295 (GLW), R01-DE014581 (THB), R01-DE011931 (JTH), R21-DE016930 (MLM), and R01-DE014667 (Andrew Lidral and LMM), and R00-DE025060 (EJL)]. Many thanks to the participating families and study teams worldwide without whom these studies would not have been possible. Additional thanks to Andrew Lidral, Mauricio Arcos-Burgos, and Andrew Czeizel.
Publisher Copyright:
© 2019, The Author(s).
PY - 2020/2/1
Y1 - 2020/2/1
N2 - Orofacial clefts (OFCs) are among the most prevalent craniofacial birth defects worldwide and create a significant public health burden. The majority of OFCs are non-syndromic, and the genetic etiology of non-syndromic OFCs is only partially determined. Here, we analyze whole genome sequence (WGS) data for association with risk of OFCs in European and Colombian families selected from a multicenter family-based OFC study. This is the first large-scale WGS study of OFC in parent–offspring trios, and a part of the Gabriella Miller Kids First Pediatric Research Program created for the study of childhood cancers and structural birth defects. WGS provides deeper and more specific genetic data than using imputation on present-day single nucleotide polymorphic (SNP) marker panels. Genotypes of case–parent trios at single nucleotide variants (SNV) and short insertions and deletions (indels) spanning the entire genome were called from their sequences using human GRCh38 genome assembly, and analyzed for association using the transmission disequilibrium test. Among genome-wide significant associations, we identified a new locus on chromosome 21 in Colombian families, not previously observed in other larger OFC samples of Latin American ancestry. This locus is situated within a region known to be expressed during craniofacial development. Based on deeper investigation of this locus, we concluded that it contributed risk for OFCs exclusively in the Colombians. This study reinforces the ancestry differences seen in the genetic etiology of OFCs, and underscores the need for larger samples when studying for OFCs and other birth defects in populations with diverse ancestry.
AB - Orofacial clefts (OFCs) are among the most prevalent craniofacial birth defects worldwide and create a significant public health burden. The majority of OFCs are non-syndromic, and the genetic etiology of non-syndromic OFCs is only partially determined. Here, we analyze whole genome sequence (WGS) data for association with risk of OFCs in European and Colombian families selected from a multicenter family-based OFC study. This is the first large-scale WGS study of OFC in parent–offspring trios, and a part of the Gabriella Miller Kids First Pediatric Research Program created for the study of childhood cancers and structural birth defects. WGS provides deeper and more specific genetic data than using imputation on present-day single nucleotide polymorphic (SNP) marker panels. Genotypes of case–parent trios at single nucleotide variants (SNV) and short insertions and deletions (indels) spanning the entire genome were called from their sequences using human GRCh38 genome assembly, and analyzed for association using the transmission disequilibrium test. Among genome-wide significant associations, we identified a new locus on chromosome 21 in Colombian families, not previously observed in other larger OFC samples of Latin American ancestry. This locus is situated within a region known to be expressed during craniofacial development. Based on deeper investigation of this locus, we concluded that it contributed risk for OFCs exclusively in the Colombians. This study reinforces the ancestry differences seen in the genetic etiology of OFCs, and underscores the need for larger samples when studying for OFCs and other birth defects in populations with diverse ancestry.
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U2 - 10.1007/s00439-019-02099-1
DO - 10.1007/s00439-019-02099-1
M3 - Article
C2 - 31848685
AN - SCOPUS:85076590149
SN - 0340-6717
VL - 139
SP - 215
EP - 226
JO - Human Genetics
JF - Human Genetics
IS - 2
ER -