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Developmental Patterning of the Sinoatrial Node

$247,166R00FY2018HLNIH

Univ Of North Carolina Chapel Hill, Chapel Hill NC

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Cardiac pacemaker cells of the sinoatrial node initiate and maintain the rhythmic beating of the heart. This function requires that pacemaker cells be insulated from, but also connected to, the working myocardium. While the mature sinoatrial node has been extensively studied, little is known regarding how sinoatrial node insulation is patterned during development. Understanding of how native pacemaker cells establish proper connectivity to the remainder of the heart, however, will provide critical insight for future pharmacological and cellular based therapies aimed at correcting sinoatrial node dysfunction and/or arrhythmic disorders. Therefore, this five year career development program is designed to serve two principle purposes: 1) to determine the cellular and molecular mechanisms that regulate sinoatrial node patterning during development, with emphasis on how pacemaker cells become electrogenically insulated, and 2) to provided support and training for the principle investigator, Dr. Michael Bressan, as he transitions from a postdoctoral fellow to an independent researcher. Specifically, this proposal will test the hypothesis that shortly after pacemaker cell differentiation in the embryo, a TGFb/BMP mediated fibrotic program initiates at the sinoatrial node periphery, which in turn insulates and protects central pacemaking cells from atrial myocytes. This will be tested in three specific aims which will a) define the developmental timing and physiological/molecular properties that generate sinoatrial insulation, b) determine the source(s) of the cell population responsible for this insulation, and c) test the requirement of TGFb and BMP for proper generation of this sinoatrial node patterning. Furthermore, this proposed project will allow Dr. Bressan to expand on his current research experience. Under the instruction of Dr. Takashi Mikawa, Dr. Bressan will explore the physiological and molecular mechanisms regulating sinoatrial node patterning at progressive developmental stages and be trained in advance techniques including retroviral mediated somatic transgenesis. Collectively, these studies will significantly advance our understanding of sinoatrial node development, while simultaneously allowing for Dr. Bressan to progress towards his long-term goal of becoming an independent researcher.

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