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(Circulation Research. 2008;102:677.)
© 2008 American Heart Association, Inc.

Cellular Biology

c-kit Is Required for Cardiomyocyte Terminal Differentiation

Ming Li^*, Nawazish Naqvi^*, Eiji Yahiro, Ke Liu, Pamela C. Powell, Wayne E. Bradley, David I.K. Martin, Robert M. Graham, Louis J. Dell’Italia, Ahsan Husain

From the Departments of Physiology and Biophysics (M.L., N.N., E.Y., K.L., L.J.D., A.H.) and Medicine (P.C.P., W.E.B., L.J.D., A.H.), University of Alabama at Birmingham; Children’s Hospital Oakland Research Institute (D.I.K.M.), Calif; Victor Chang Cardiac Research Institute (R.M.G.), Darlinghurst, Australia; and Department of Veteran Affairs (L.J.D.), Birmingham, Ala.

Correspondence to Ahsan Husain, University of Alabama at Birmingham, BMR2-435, 901 19th St S, Birmingham, AL 35294. E-mail ahusain{at}physiology.uab.edu

c-kit, the transmembrane tyrosine kinase receptor for stem cell factor, is required for melanocyte and mast cell development, hematopoiesis, and differentiation of spermatogonial stem cells. We show here that in the heart, c-kit is expressed not only by cardiac stem cells but also by cardiomyocytes, commencing immediately after birth and terminating a few days later, coincident with the onset of cardiomyocyte terminal differentiation. To examine the function of c-kit in cardiomyocyte terminal differentiation, we used compound heterozygous mice carrying the W (null) and W^v (dominant negative) mutations of c-kit. In vivo, adult W/W^v cardiomyocytes are phenotypically indistinguishable from their wild-type counterparts. After acute pressure overload adult W/W^v cardiomyocytes reenter the cell cycle and proliferate, leading to left ventricular growth; furthermore in transgenic mice with cardiomyocyte-restricted overexpression of the dominant negative W^v mutant, pressure overload causes cardiomyocytes to reenter the cell cycle. In contrast, in wild-type mice left ventricular growth after pressure overload results mainly from cardiomyocyte hypertrophy. Importantly, W/W^v mice with pressure overload–induced cardiomyocyte hyperplasia had improved left ventricular function and survival. In W/W^v mice, c-kit dysfunction also resulted in an 14-fold decrease (P<0.01) in the number of c-kit⁺/GATA4⁺ cardiac progenitors. These findings identify novel functions for c-kit: promotion of cardiac stem cell differentiation and regulation of cardiomyocyte terminal differentiation.

Key Words: c-kit • cardiomyocyte • terminal differentiation • cardiac stem cells • pressure overload