The Role of Sonic Hedgehog in Outflow Tract Development

Dyer, Laura Ann

January 2009

<p>The two major contributing populations to the outflow tract of the heart are the secondary heart field and the cardiac neural crest. These two populations are responsible for providing the myocardium that supports the outflow tract valves, the smooth muscle that surrounds these valves and the outflow vessels themselves, and the septum that divides the primitive, single outflow tract into an aorta and pulmonary trunk. Because the morphogenesis of this region is so complex, its development is regulated by many different signaling pathways. One of these pathways is the Sonic hedgehog pathway. This thesis tests the hypothesis that Sonic hedgehog induces secondary heart field proliferation, which is necessary for normal outflow tract development. To address this hypothesis, I took advantage of small chemical antagonists and agonists to determine how too little or too much hedgehog signaling would affect the secondary heart field, both in in vitro explants and in vivo. I have determined that Sonic hedgehog signaling maintains proliferation in a subset of secondary heart field cells. This proliferation is essential for generating enough myocardium and smooth muscle and also for the cardiac neural crest to septate the outflow tract into two equal-sized vessels. Up-regulating hedgehog signaling induces proliferation, which is quickly down-regulated, showing that the embryo exhibits a great deal of plasticity. Together, these studies have shown that Sonic hedgehog promotes proliferation in a subset of the secondary heart field and that the level of proliferation must be tightly regulated in order to form a normal outflow tract.</p> / Dissertation

Biology, Cell

cardiac neural crest

DiGeorge syndrome

outflow tract

secondary heart field

Sonic hedgehog

Zebrafish Cardiac Development Requires a Conserved Secondary Heart Field

Hami, Danyal

January 2011

<p>Despite its lack of septation, the tissue patterning of the arterial pole of the zebrafish is remarkably similar to the patterning of pulmonary and aortic arterial poles observed in mouse and chick. The secondary heart field (SHF) is a conserved developmental domain in avian and mammalian embryos that contributes myocardium and smooth muscle to the cardiac arterial pole. This field is part of the overall heart field, and its myocardial component has been fate mapped from the mesoderm to the heart in both mammals and birds. In this study I demonstrate that the population that gives rise to the arterial pole of the zebrafish can be traced from the epiblast, is a discrete part of the mesodermal heart field. This zebrafish SHF contributes myocardium after initial heart tube formation, giving rise to both smooth muscle and myocardium. I show that this field expresses Isl1, a transcription factor associated with the SHF in other species. I further show that differentiation, induced by Bmp signaling, occurs in this progenitor population as cells are added to the heart tube. Some molecular pathways required for SHF development in birds and mammals are conserved in teleosts, as Nkx2.5 and Nkx2.7 as well as Fgf8 regulate Bmp signaling in the zebrafish heart fields. Additionally, the transcription factor Tbx1 and the Sonic hedgehog pathway are necessary for normal development of the zebrafish arterial pole.</p> / Dissertation

Developmental Biology

Genetics

Evolution and Development

Bmp signaling

Cardiac arterial pole

Cardiac progenitors

Secondary heart field

Sonic hedgehog

Tbx1