Characterization of Nfatc1 regulation identifies an enhancer required for gene expression that is specific to pro-valve endocardial cells in the developing heart

doi:10.1242/dev.01640

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Development ePress online publication date 2 Feb 2005
doi: 10.1242/dev.01640

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Research article: Development and disease

Characterization of Nfatc1 regulation identifies an enhancer required for gene expression that is specific to pro-valve endocardial cells in the developing heart

Bin Zhou^*, Bingruo Wu, Kevin L. Tompkins, Kathleen L. Boyer, Justin C. Grindley, and H. Scott Baldwin
^* Author for correspondence (e-mail: bin.zhou{at}vanderbilt.edu)

Nfatc1 is an endocardial transcription factor required fordevelopment of cardiac valves. Herein, we describe identificationand characterization of a tissue-specific enhancer in the firstintron of murine Nfatc1 that activates a heterogenic promoterand directs gene expression in a subpopulation of endocardialcells of the developing heart: the pro-valve endocardial cells.This enhancer activity begins on embryonic day (E) 8.5 in endocardialcells at the ventricular end of the atrioventricular canal,intensifies and extends from E9.5 to E11.5 in endocardium alongthe atrioventricular canal and outflow tract. By E12.5, theenhancer activity is accentuated in endocardial cells of formingvalves. Sequential deletion analysis identified that a 250 bpDNA fragment at the 3' end of the intron 1 is required for endocardial-specificactivity. This region contains two short conserved sequenceshosting a cluster of binding sites for transcription factors,including Nfat and Hox proteins. Electrophoresis mobility shiftand chromatin immunoprecipitation assays demonstrated bindingof Nfatc1 to the Nfat sites, and inactivation of Nfatc1 downregulatedthe enhancer activity in pro-valve endocardial cells. By contrast,mutation of the Hox site abolished its specificity, allowinggene expression in non pro-valve endocardium and extracardiacvasculature. Thus, autoregulation of Nfatc1 is required formaintaining high Nfatc1 expression in pro-valve endocardialcells, while suppression through the Hox site prevents its expressionoutside pro-valve endocardial cells during valve development.Our data demonstrate the first autonomous cell-specific enhancerfor pro-valve endocardial cells and delineate a unique transcriptionalmechanism that regulates endocardial Nfatc1 expression withindeveloping cardiac valves.

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