Purinergic signalling mobilizes mitochondrial Ca 2+ in mouse Sertoli cells

Non‐Technical Summary In mammalian testes, Sertoli cells play a key physiological role in germ cell development. Previous research has implicated local ATP release as a potential mechanism of Sertoli cell stimulation. We show that, in mouse Sertoli cells, two different receptor proteins are activated by ATP. Receptor activation, in turn, causes elevation of calcium ion levels inside the cells. By using a novel method to visualize such calcium signals, we identify mitochondria as essential elements of calcium regulation in the testis. Abstract Intimate bidirectional communication between Sertoli cells and developing germ cells ensures the integrity and efficiency of spermatogenesis. Yet, a conceptual mechanistic understanding of the physiological principles that underlie Sertoli cell autocrine and paracrine signalling is lacking. Here, we characterize a purinergic Ca 2+ signalling network in immature mouse Sertoli cells that consists of both P2X2 and P2Y2 purinoceptor subtypes, the endoplasmic reticulum and, notably, mitochondria. By combining a transgenic mouse model with a dedicated bioluminescence imaging device, we describe a novel method to monitor mitochondrial Ca 2+ mobilization in Sertoli cells at subcellular spatial and millisecond temporal resolution. Our data identify mitochondria as essential components of the Sertoli cell signalling ‘toolkit’ that control the shape of purinergic Ca 2+ responses, and probably several other paracrine Ca 2+ ‐dependent signals.