Abstract
The cardiac L-type Ca 2+ channel (Cav1.2) constitutes the main entrance gate for Ca 2+ that triggers cardiac contraction. It has been shown that the distal C-terminus fragment of Cav1.2 α1C subunit (α1C-dCT) is proteolytically cleaved and shuttles between the plasma membrane and the nucleus, which is regulated both developmentally and by Ca 2+ . However, the effects of sex and sex hormone 17β-Estradiol (E2) on α1C-dCT nuclear translocation are still unexplored. To analyze the sexual disparity in the α1C-dCT nuclear translocation, we first generated an antibody directed against a synthetic peptide (GRRASFHLE) located in α1C-dCT, and used it to probe ventricular myocytes from adult female and male mice. Immunocytochemistry of isolated mouse primary adult ventricular myocytes revealed both nuclear staining and cytosolic punctuate staining around the T-tubules. The ratio of nuclear to cytosolic intensity (I nuc /I cyt ) was significantly higher in isolated female cardiomyocytes (1.42±0.05) compared to male cardiomyocytes (1.05±0.02). Western blot analysis of nuclear fraction confirmed these data. Furthermore, we found a significant decrease in nuclear staining intensity of α1C-dCT in both female and male cardiomyocytes upon serum withdrawal for 18h (I nuc /I cyt 1.05±0.02 and 0.89± 0.02, respectively). Interestingly, subsequent E2 treatment (10 -8 M) for 8h normalized the intracellular distribution of α1C-dCT in male cardiomyocytes (I nuc /I cyt 1.04±0.02), but not in female cardiomyocytes. Acute treatment of male cardiomyocytes with E2 for 45min revealed a similar effect. This effect of E2 was revised by ICI 182780, an estrogen receptor (ER) inhibitor, (10 -5 M), indicating the involvement of ER in this signaling pathway. Taken together, we showed for the first time that the shuttling of α1C-CT in cardiomyocytes is regulated in a sex-dependent manner, and E2-activated ER may play a role in the nuclear shuttling of α1C-dCT in male cardiomyocytes. We suggest that this identified novel signaling mechanism may explain, at least partly, the observed sex differences in the regulation of cardiac Cav1.2 channel activity.
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