It takes two to tango: The essential role of ER-mitochondrial contact sites in mitochondrial dynamics.

Mitochondria change their shape, size and number, in response to cellular demand, through mitochondrial dynamics. The interaction between mitochondria and the ER, through ER-mitochondrial contact sites, is crucial in mitochondrial dynamics. Several protein complexes tethering mitochondria to the ER include proteins involved in fission or fusion but also proteins involved in calcium homeostasis, which is known to affect mitochondrial dynamics. The formation of these contact sites are especially important for mitochondrial fission as these contact sites induce both outer and inner membrane constriction, prior to recruitment of Drp1. While the exact molecular mechanisms behind these constrictions remain uncertain, several hypotheses have been proposed. In this review, we discuss the involvement of tethering complexes in mitochondrial dynamics and provide an overview of the current knowledge and hypotheses on the constriction of the outer and inner mitochondrial membrane at ER-mitochondrial contact sites.