It is well established that mitochondria are the main source of ATP production within cells. However, mitochondria have other remarkable functions, serving as important modulators of cellular Ca2+ signaling, and it is now generally recognized that control over Ca2+ homeostasis is intrinsically interwoven with mitochondrial abilities to adjust and tune ATP production. In this review, we describe the mechanisms that mitochondria use to balance Ca2+ homeostasis maintenance and cell energy metabolism. In recent years, the knowledge on the molecular machinery mediating Ca2+ influx/efflux has been improved and, albeit still open to further investigations, several lines of evidence converge on the hypothesis that plasma membrane Na+/Ca2+ exchanger (NCX) isoforms are also expressed at the mitochondrial level, where they contribute to the Ca2+ and Na+ homeostasis maintenance. In particular, the connection between mitochondrial NCX activity and metabolic substrates utilization is further discussed here. We also briefly focus on the alterations of both mitochondrial Ca2+ handling and cellular bioenergetics in neurodegenerative diseases, such as Parkinson's and Alzheimer's disease.
Keywords: Bioenergetics; Calcium; Glutamate; Mitochondria; Na(+)/Ca(2+)exchange.
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