Ca2+ concentrations in mouse sperm mitochondria fluctuate according to the cytosol.

Mitochondria are important organelles in eukaryotic cells and play an essential role in energy production and cell signaling. However, the importance of mammalian sperm mitochondria as an energy source remains to be elucidated because glycolysis is known to be dominant. In this context, one of the functions of mammalian sperm mitochondria is considered as a calcium ion (Ca2+) homeostasis. Previously, the Ca2+ level within the mitochondria of mouse sperm under resting conditions was reported to be high (in the micromolar range) using the fluorescent Ca2+ indicator Calcium Green-5N (CG-5N). To confirm this fact, we performed the semi-quantitative determination of Ca2+ concentration with several Ca2+ indicators. Although we reproduced the previous report of CG-5N, other Ca2+ indicators do not support the result obtained with CG-5N. The results obtained with Rhod-2, Fluo-3, and Fluo-5N indicate that the free Ca2+ concentration in mitochondria is comparable to that of the cytosol at the resting condition and under the condition stimulated by ATP. Although we still do not understand why CG-5N exhibits a distinct result from other indicators, the regulation of Ca2+ concentration in murine sperm mitochondria is analogous to that observed in somatic cells. Namely, the Ca2+ concentrations within sperm mitochondria fluctuate in response to changes in cytosolic Ca2+ levels. Our results contribute to a revised understanding of the role of mitochondria in Ca2+ homeostasis in mammalian sperm.