Early testosterone replacement attenuates intracellular calcium dyshomeostasis in the heart of testosterone-deprived male rats

- The Ca2+ regulation in the male rat's heart is regulated by testosterone.
- Testosterone deficiency reduces cardiac Ca2+ transient within 4 weeks.
- Testosterone deficiency for 8 weeks reduces the L-type calcium current, but does not alter Ca2+ regulatory protein levels.
- Early testosterone replacement improves cardiac Ca2+ transient and contractility.

BackgroundTestosterone deficiency in elderly men increases the risk of cardiovascular disease. In bilateral orchiectomized (ORX) animals, impaired cardiac Ca2+ regulation was observed, and this impairment could be improved by testosterone replacement, indicating the important role of testosterone in cardiac Ca2+ regulation. However, the temporal changes of Ca2+ dyshomeostasis in testosterone-deprived conditions are unclear. Moreover, the effects of early vs. late testosterone replacement are unknown. We hypothesized that the longer the deprivation of testosterone, the greater the impairment of cardiac Ca2+ homeostasis, and that early testosterone replacement can effectively reduce this adverse effect.MethodsMale Wistar rats were randomly divided into twelve groups, four sets of three. The first set were ORX for 2, 4 and 8 weeks, the second set were sham-operated groups of the same periods, the third set were ORX for 8 weeks coupled with a subcutaneous injection of vehicle (control), testosterone during weeks 1-8 (early replacement) or testosterone during weeks 5-8 (late replacement), and finally the 12-week sham-operated, ORX and ORX treated with testosterone groups. Cardiac Ca2+ transients (n = 4-5/group), L-type calcium current (ICa-L) (n = 4/group), Ca2+ regulatory proteins (n = 6/group) and cardiac function (n = 5/group) were determined.ResultsIn the ORX rats, impaired cardiac Ca2+ transients and reduced ICa-L were observed initially 4 weeks after ORX as shown by decreased Ca2+ transient amplitude, rising rate and maximum and average decay rates. No alteration of Ca2+ regulatory proteins such as the L-type Ca2+ channels, ryanodine receptor type 2, Na+-Ca2+ exchangers and SERCA2a were observed. Early testosterone replacement markedly improved cardiac Ca2+ transients, whereas late testosterone replacement did not. The cardiac contractility was also improved after early testosterone replacement.ConclusionsImpaired cardiac Ca2+ homeostasis is time-dependent after testosterone deprivation. Early testosterone replacement improves cardiac Ca2+ transient regulation and contractility, suggesting the necessity of early intervention in conditions of testosterone-deprivation.

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