Tri-dimensional Mitochondria Reconstructions of Cardiac Muscle Changes in Size Across Aging due to the MICOS Complex

Cardiac disease remains a significant cause of death among humans and therapies to treat the disease are lacking. Importantly, heart failure has also been linked to factors including endoplasmic reticulum stress, mitochondrial bioenergetics, insulin signaling, autophagy, and oxidative stress 1, which are all factors the mitochondria plays a role in. Critically, mitochondria break down across aging and heart also decrease in efficiency in aging. Key factors implicated in mitochondria morphology, such as the mitochondrial contact site and cristae organizing system (MICOS), and its role across aging remains to be seen in cardiac muscle. To better understand the relationship between mitochondria in cardiac muscle, we used transmission electron microscopy (TEM) and serial block facing-scanning electron microscopy (SBF-SEM) to quantitatively analyze the 3D networks in cardiac muscle samples of mice at aging intervals. In studying cristae, the inner folds of mitochondria, we observed a loss of morphology across aging. This mimicked what was observed upon CRISPR/Cas9 knockdown of Mitofilin, Chchd3, Chchd6 (some members of the MICOS complex) and Opa1 which showed poorer quality cristae and fragmented mitochondria, while mitochondria length and volume decreased. We are the first to examine mitochondria changes in cardiac muscle across aging. In combination, these data suggest that, in the heart, loss of the MICOS complex may be implicated in the loss of function in mitochondria that is seen across aging.