ENU induced mutations causing congenital cardiovascular anomalies
Author:
Yu Qing1, Shen Yuan1, Chatterjee Bishwanath1, Siegfried Brett H.12, Leatherbury Linda13, Rosenthal Julie1, Lucas John F.45, Wessels Andy4, Spurney Chris F.13, Wu Ying-Jie1, Kirby Margaret L.6, Svenson Karen7, Lo Cecilia W.1
Affiliation:
1. Laboratory of Developmental Biology, National Heart Lung and Blood Institute,National Institutes of Health, Bethesda, MD 20892-8019, USA 2. Department of Pediatrics, National Naval Medical Center, Uniformed Services University of the Health Sciences, Bethesda, MD 20814-5000, USA 3. Pediatric Cardiology, Children's National Medical Center, Washington, DC 20010, USA 4. Department of Anatomy and Cell Biology, Medical University of South Carolina,Charleston, SC 29425, USA 5. Pediatric Cardiology, Medical University of South Carolina, Charleston, SC 29425, USA 6. Department of Pediatrics, Duke University Medical Center, Durham, NC 27710,USA 7. The Jackson Laboratory, Bar Harbor, ME 04609, USA
Abstract
We used non-invasive high frequency ultrasound to screen N-ethyl-N-nitrosourea mutagenized mouse fetuses for congenital cardiovascular anomalies. We ultrasound scanned 7546 mouse fetuses from 262 mutagenized families, and identified 124 families with cardiovascular defects. Represented were most of the major congenital cardiovascular anomalies seen clinically. The ENU-induced mutations in several families were mapped using polymorphic microsatellite DNA markers. One family with forelimb anomalies and ventricular septal defects, phenotypes similar to Holt-Oram syndrome, and one family with transposition of the great arteries and heart situs anomalies were mapped to different regions of mouse chromosome 4. A third mutation causing persistent truncus arteriosus and craniofacial defects, phenotypes reminiscent of DiGeorge syndrome, was mapped to mouse chromosome 2. We note that mouse chromosomes 4 and 2 do not contain Tbx5 or Tbx1, genes previously linked to Holt-Oram and DiGeorge syndromes, respectively. In two other families, the ENU-induced mutation was identified – Sema3CL605P was associated with persistent truncus arteriosus with interrupted aortic arch, and the Gja1W45Xconnexin43 mutation caused conotruncal malformation and coronary aneurysms. Although our screen was designed as a recessive screen, a number of the mutations showed cardiovascular phenotypes in both heterozygote and homozygote animals. These studies show the efficacy of ENU mutagenesis and high-throughput ultrasound phenotyping in recovering mutations causing a wide spectrum of congenital heart defects. These ENU-induced mutations hold promise in yielding new insights into the genetic basis for human congenital heart disease.
Publisher
The Company of Biologists
Subject
Developmental Biology,Molecular Biology
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