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  • Title: DSCR1 gene expression is dependent on NFATc1 during cardiac valve formation and colocalizes with anomalous organ development in trisomy 16 mice.
    Author: Lange AW, Molkentin JD, Yutzey KE.
    Journal: Dev Biol; 2004 Feb 15; 266(2):346-60. PubMed ID: 14738882.
    Abstract:
    The Down syndrome critical region 1 (DSCR1) gene is present in the region of human chromosome 21 and the syntenic region of mouse chromosome 16, trisomy of which is associated with congenital heart defects observed in Down syndrome. DSCR1 encodes a regulatory protein in the calcineurin/NFAT signal transduction pathway. During valvuloseptal development in the heart, DSCR1 is expressed in the endocardium of the developing atrioventricular and semilunar valves, the muscular interventricular septum, and the ventricular myocardium. Human DSCR1 contains an NFAT-rich calcineurin-responsive element adjacent to exon 4. Transgenic mice generated with a homologous regulatory region of the mouse DSCR1 gene linked to lacZ (DSCR1(e4)/lacZ) show gene activation in the endocardium of the developing valves and aorticopulmonary septum of the heart, recapitulating a specific subdomain of endogenous DSCR1 cardiac expression. DSCR1(e4)/lacZ expression in the developing valve endocardium colocalizes with NFATc1 and, endocardial DSCR1(e4)/lacZ, is notably reduced or absent in NFATc1(-/-) embryos. Furthermore, expression of the endogenous DSCR1(e4) isoform is decreased in the outflow tract of NFATc1(-/-) hearts, and the DSCR1(e4) intragenic element is trans-activated by NFATc1 in cell culture. In trisomy 16 (Ts16) mice, expression of endogenous DSCR1 and DSCR1(e4)/lacZ colocalizes with anomalous valvuloseptal development, and transgenic Ts16 hearts have increased beta-galactosidase activity. DSCR1 and DSCR1(e4)/lacZ also are expressed in other organ systems affected by trisomy 16 in mice or trisomy 21 in humans including the brain, eye, ear, face, and limbs. Together, these results show that DSCR1(e4) expression in the developing valve endocardium is dependent on NFATc1 and support a role for DSCR1 in normal cardiac valvuloseptal formation as well as the abnormal development of several organ systems affected in individuals with Down syndrome.
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