TY - JOUR
T1 - Functional characterization of tissue-specific enhancers in the DLX5/6 locus
AU - Birnbaum, Ramon Y.
AU - Everman, David B.
AU - Murphy, Karl K.
AU - Gurrieri, Fiorella
AU - Schwartz, Charles E.
AU - Ahituv, Nadav
N1 - Funding Information:
This research was supported by the NICHD (R01HD059862) and from the NHGRI (R01HG005058). R.Y.B. is supported in part by the UCSF Program for Breakthrough Biomedical Research postdoctoral award, which is funded in part by the Sandler Foundation. N.A. and R.Y.B. are also supported in part by NINDS (1R01NS079231). N.A. is also supported by NIGMS (GM61390), NHGRI (1R01HG006768) and NIDDK (1R01DK090382). D.B.E and C.E.S. were supported, in part, by a grant from the South Carolina Department of Disabilities and Special Needs and the Genetic Endowment of South Carolina and a previous grant (#8510) from Shriners Hospitals for Children. The content is solely the responsibility of the authors and does not necessarily represent the official views of the NIH, NICHD, NHGRI, NINDS, NIDDK or the NIGMS.
PY - 2012/11/1
Y1 - 2012/11/1
N2 - Disruption of distaless homeobox 5 and 6 (Dlx5/6) in mice results in brain, craniofacial, genital, ear and limb defects. In humans, chromosomal aberrations in the DLX5/6 region, some of which do not encompass DLX5/6, are associated with split hand/foot malformation 1 (SHFM1) as well as intellectual disability, craniofacial anomalies and hearing loss, suggesting that the disruption of DLX5/6 regulatory elements could lead to these abnormalities. Here, we characterized enhancers in the DLX5/6 locus whose tissue-specific expression and genomic location along with previously characterized enhancers correlate with phenotypes observed in individuals with chromosomal abnormalities. By analyzing chromosomal aberrations at 7q21, we refined the minimal SHFM1 critical region and used comparative genomics to select 26 evolutionary conserved non-coding sequences in this critical region for zebrafish enhancer assays. Eight of these sequences were shown to function as brain, olfactory bulb, branchial arch, otic vesicle and fin enhancers, recapitulating dlx5a/6a expression. Using a mouse enhancer assay, several of these zebrafish enhancers showed comparable expression patterns in the branchial arch, otic vesicle, forebrain and/or limb at embryonic day 11.5. Examination of the coordinates of various chromosomal rearrangements in conjunction with the genomic location of these tissue-specific enhancers showed a correlation with the observed clinical abnormalities. Our findings suggest that chromosomal abnormalities that disrupt the function of these tissue-specific enhancers could be the cause of SHFM1 and its associated phenotypes. In addition, they highlight specific enhancers in which mutations could lead to non-syndromic hearing loss, craniofacial defects or limb malformations.
AB - Disruption of distaless homeobox 5 and 6 (Dlx5/6) in mice results in brain, craniofacial, genital, ear and limb defects. In humans, chromosomal aberrations in the DLX5/6 region, some of which do not encompass DLX5/6, are associated with split hand/foot malformation 1 (SHFM1) as well as intellectual disability, craniofacial anomalies and hearing loss, suggesting that the disruption of DLX5/6 regulatory elements could lead to these abnormalities. Here, we characterized enhancers in the DLX5/6 locus whose tissue-specific expression and genomic location along with previously characterized enhancers correlate with phenotypes observed in individuals with chromosomal abnormalities. By analyzing chromosomal aberrations at 7q21, we refined the minimal SHFM1 critical region and used comparative genomics to select 26 evolutionary conserved non-coding sequences in this critical region for zebrafish enhancer assays. Eight of these sequences were shown to function as brain, olfactory bulb, branchial arch, otic vesicle and fin enhancers, recapitulating dlx5a/6a expression. Using a mouse enhancer assay, several of these zebrafish enhancers showed comparable expression patterns in the branchial arch, otic vesicle, forebrain and/or limb at embryonic day 11.5. Examination of the coordinates of various chromosomal rearrangements in conjunction with the genomic location of these tissue-specific enhancers showed a correlation with the observed clinical abnormalities. Our findings suggest that chromosomal abnormalities that disrupt the function of these tissue-specific enhancers could be the cause of SHFM1 and its associated phenotypes. In addition, they highlight specific enhancers in which mutations could lead to non-syndromic hearing loss, craniofacial defects or limb malformations.
UR - http://www.scopus.com/inward/record.url?scp=84868126624&partnerID=8YFLogxK
U2 - 10.1093/hmg/dds336
DO - 10.1093/hmg/dds336
M3 - Article
C2 - 22914741
AN - SCOPUS:84868126624
SN - 0964-6906
VL - 21
SP - 4930
EP - 4938
JO - Human Molecular Genetics
JF - Human Molecular Genetics
IS - 22
M1 - dds336
ER -