Affiliation:
1. Department of Biology, San Diego State University, San Diego, CA 92182, USA
Abstract
The genetic model system Drosophila has contributed fundamentally to our understanding of mammalian heart specification, development, and congenital heart disease. The relatively simple Drosophila heart is a linear muscular tube that is specified and develops in the embryo and persists throughout the life of the animal. It functions at all stages to circulate hemolymph within the open circulatory system of the body. During Drosophila metamorphosis, the cardiac tube is remodeled, and a new layer of muscle fibers spreads over the ventral surface of the heart to form the ventral longitudinal muscles. The formation of these fibers depends critically upon genes known to be necessary for mammalian second heart field (SHF) formation. Here, we review the prior contributions of the Drosophila system to the understanding of heart development and disease, discuss the importance of the SHF to mammalian heart development and disease, and then discuss how the ventral longitudinal adult cardiac muscles can serve as a novel model for understanding SHF development and disease.
Funder
NIH
American Heart Association
Subject
Pharmacology (medical),General Pharmacology, Toxicology and Pharmaceutics
Reference123 articles.
1. GBD 2017 Congenital Heart Disease Collaborators (2020). Global, regional, and national burden of congenital heart disease, 1990–2017: A systematic analysis for the Global Burden of Disease Study. Lancet Child Adolesc. Health, 4, 185–200.
2. Heart development in Drosophila and its relationship to vertebrates;Bodmer;Trends Cardiovasc. Med.,1995
3. Control of cardiac development by an evolutionarily conserved transcriptional network;Cripps;Dev. Biol.,2002
4. Early signals in cardiac development;Zaffran;Circ. Res.,2002
5. Conserved signaling mechanisms in Drosophila heart development;Ahmad;Dev. Dyn.,2017