Determination and cellular localization of adenylyl cyclase isozymes expressed in embryonic chick heart

DMSO-primed P19 pluripotent cells, which recapitulate the first stages of mammalian cardiogenesis and endodermal formation, were used as an in vitro model to analyze the variations in activity and expression of the different adenylyl cyclase (AC) isoforms during the early events of embryonic cell differentiation. Here, we show that the total AC activity, which increases up to 10-fold after differentiation of P19 cells, is mainly associated with increases in AC2, AC5, and AC6 mRNA levels. Particularly, the marked increase in AC5 mRNA correlates with the appearance of beating cardiomyocytes and with the transcription of the atrial myosin light chain (MLC1A) gene which encodes a protein specifically involved in the cardiac muscle cell contractile phenotype. Together, the results strongly suggest that 1) a rise in cyclic AMP (cAMP) may be associated with cardiomyocyte and endodermal cell differentiation during mammalian embryogenesis; and 2) AC5 gene expression starts very early during normal mouse cardiogenesis and correlates with the differentiation of cardiomyocytes.

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Determination and cellular localization of adenylyl cyclase isozymes expressed in embryonic chick heart

Abstract: Mammalian heart has been reported to express AC isozymes (types V and VI) that are inhibited by < ~M [Ca2÷]; avian heart has been reported to express adenylyl cyclase activity that is inhibited by Show more

Cited by 19 publications

References 25 publications

Adenylyl cyclase in the heart: An enzymocytochemical and immunocytochemical approach

Adenylyl cyclase in the heart: An enzymocytochemical and immunocytochemical approach

Intracellular distribution of adenylate cyclase in human cardiocytes determined by electron microscopic cytochemistry

Adenylyl cyclase activity and gene expression during mesodermal differentiation of the P19 embryonal carcinoma cells

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