TY - JOUR
T1 - Developmental genomics of limb malformations
T2 - Allelic series in association with gene dosage effects contribute to the clinical variability
AU - Baylor-Hopkins Center for Mendelian Genomics
AU - Duan, Ruizhi
AU - Hijazi, Hadia
AU - Gulec, Elif Yilmaz
AU - Eker, Hatice Koçak
AU - Costa, Silvia R.
AU - Sahin, Yavuz
AU - Ocak, Zeynep
AU - Isikay, Sedat
AU - Ozalp, Ozge
AU - Bozdogan, Sevcan
AU - Aslan, Huseyin
AU - Elcioglu, Nursel
AU - Bertola, Débora R.
AU - Gezdirici, Alper
AU - Du, Haowei
AU - Fatih, Jawid M.
AU - Grochowski, Christopher M.
AU - Akay, Gulsen
AU - Jhangiani, Shalini N.
AU - Karaca, Ender
AU - Gu, Shen
AU - Coban-Akdemir, Zeynep
AU - Posey, Jennifer E.
AU - Bayram, Yavuz
AU - Sutton, V. Reid
AU - Carvalho, Claudia M.B.
AU - Pehlivan, Davut
AU - Gibbs, Richard A.
AU - Lupski, James R.
N1 - Publisher Copyright:
© 2022 The Author(s)
PY - 2022/10/13
Y1 - 2022/10/13
N2 - Genetic heterogeneity, reduced penetrance, and variable expressivity, the latter including asymmetric body axis plane presentations, have all been described in families with congenital limb malformations (CLMs). Interfamilial and intrafamilial heterogeneity highlight the complexity of the underlying genetic pathogenesis of these developmental anomalies. Family-based genomics by exome sequencing (ES) and rare variant analyses combined with whole-genome array-based comparative genomic hybridization were implemented to investigate 18 families with limb birth defects. Eleven of 18 (61%) families revealed explanatory variants, including 7 single-nucleotide variant alleles and 3 copy number variants (CNVs), at previously reported “disease trait associated loci”: BHLHA9, GLI3, HOXD cluster, HOXD13, NPR2, and WNT10B. Breakpoint junction analyses for all three CNV alleles revealed mutational signatures consistent with microhomology-mediated break-induced replication, a mechanism facilitated by Alu/Alu-mediated rearrangement. Homozygous duplication of BHLHA9 was observed in one Turkish kindred and represents a novel contributory genetic mechanism to Gollop-Wolfgang Complex (MIM: 228250), where triplication of the locus has been reported in one family from Japan (i.e., 4n = 2n + 2n versus 4n = 3n + 1n allelic configurations). Genes acting on limb patterning are sensitive to a gene dosage effect and are often associated with an allelic series. We extend an allele-specific gene dosage model to potentially assist, in an adjuvant way, interpretations of interconnections among an allelic series, clinical severity, and reduced penetrance of the BHLHA9-related CLM spectrum.
AB - Genetic heterogeneity, reduced penetrance, and variable expressivity, the latter including asymmetric body axis plane presentations, have all been described in families with congenital limb malformations (CLMs). Interfamilial and intrafamilial heterogeneity highlight the complexity of the underlying genetic pathogenesis of these developmental anomalies. Family-based genomics by exome sequencing (ES) and rare variant analyses combined with whole-genome array-based comparative genomic hybridization were implemented to investigate 18 families with limb birth defects. Eleven of 18 (61%) families revealed explanatory variants, including 7 single-nucleotide variant alleles and 3 copy number variants (CNVs), at previously reported “disease trait associated loci”: BHLHA9, GLI3, HOXD cluster, HOXD13, NPR2, and WNT10B. Breakpoint junction analyses for all three CNV alleles revealed mutational signatures consistent with microhomology-mediated break-induced replication, a mechanism facilitated by Alu/Alu-mediated rearrangement. Homozygous duplication of BHLHA9 was observed in one Turkish kindred and represents a novel contributory genetic mechanism to Gollop-Wolfgang Complex (MIM: 228250), where triplication of the locus has been reported in one family from Japan (i.e., 4n = 2n + 2n versus 4n = 3n + 1n allelic configurations). Genes acting on limb patterning are sensitive to a gene dosage effect and are often associated with an allelic series. We extend an allele-specific gene dosage model to potentially assist, in an adjuvant way, interpretations of interconnections among an allelic series, clinical severity, and reduced penetrance of the BHLHA9-related CLM spectrum.
KW - Alu/Alu-mediated rearrangement
KW - SV mutagenesis
KW - allelic series
KW - birth defect
KW - clinical genomics
KW - congenital limb malformation
KW - developmental genomics
KW - exome sequencing analysis
KW - gene dosage effect
KW - limb development
UR - http://www.scopus.com/inward/record.url?scp=85136103618&partnerID=8YFLogxK
U2 - 10.1016/j.xhgg.2022.100132
DO - 10.1016/j.xhgg.2022.100132
M3 - Article
AN - SCOPUS:85136103618
SN - 2666-2477
VL - 3
JO - Human Genetics and Genomics Advances
JF - Human Genetics and Genomics Advances
IS - 4
M1 - 100132
ER -