3 / 7
Journal of Pediatric Health Care and Medicine Volume 1, Issue 1
Page 9
http://pediatrics.cmesociety.comSeptember 11-12, 2017 Los Angeles, CA, USA
14
th
World Pediatrics &
Neonatal Healthcare Conference
Pediatrics & Neonatal Healthcare 2017
Notes:
Kai Jiao
University of Alabama at Birmingham, USA
Functions of
CHD7
, the disease-causing gene forCHARGE syndrome, duringmammalian
heart development
C
HD7
encodes an ATP-dependent nucleosome remodeling factor and haploinsufficiency for
CHD7
is
the leading cause of charge syndrome. Congenital heart defects are major clinical features of CHARGE
syndrome; however, the underlying molecular mechanisms of CHDs in CHARGE patients remain largely
unknown. Our complementary yeast two-hybrid and biochemical assays reveal that
CHD7
is a novel embryonic-
heart-interaction partner of BMP R-SMADs, which are nuclear mediators of BMP signaling pathways.
CHD7
is
associated in a BMP dependent manner with the enhancers of Nkx2.5 that contains functional SMAD1 binding
elements.
CHD7
is required for sustaining the active epigenetic signature of Nkx2.5 regulatory elements and its
proper cardiac expression. Furthermore, inactivation of
CHD7
in mice impairs multiple BMP signaling-regulated
cardiogenic processes at molecular, cellular, and morphological levels. Our results support the model that
CHD7
is recruited by BMP R-SMADs to the enhancers of BMP-targeted cardiogenic genes to epigenetically regulate
their expression. Impaired BMP activities in embryonic hearts may have a major contribution to the heart defects
in CHARGE syndrome.
Biography
Kai Jiao has acquired his MD from Beijing Medical University in 1992 and acquired his PhD from University of Iowa in 2000. He has completed his Postdoctoral
training in Vanderbilt University Medical Center, Drs. Brigid Hogan and Scott Baldwin. He started his own lab in 2005 in Dept. of Genetics, UAB, where he
was promoted to Associated Professor with tenure in 2010. He has published ~40 papers in peer reviewed journals. His major scientific interest is to reveal the
molecular, genetic and epigenetic mechanisms that regulate heart development and their contribution to congenital heart diseases.
kjiao@uab.edu