Overexpression of mitochondrial fusion genes enhances resilience and extends longevity

Abstract

AbstractThe dynamicity of the mitochondrial network is crucial for meeting the ever-changing metabolic and energy needs of the cell. Mitochondrial fission promotes the degradation and distribution of mitochondria, while mitochondrial fusion maintains mitochondrial function through the complementation of mitochondrial components. Previously, we have reported that mitochondrial networks are tubular, interconnected and well-organized in young, healthyC. elegans, but become fragmented and disorganized with advancing age and in models of age-associated neurodegenerative disease. In this work, we examine the effects of increasing mitochondrial fission or mitochondrial fusion capacity by ubiquitously overexpressing the mitochondrial fission genedrp-1or the mitochondrial fusion genesfzo-1andeat-3, individually or in combination. We then measured mitochondrial function, mitochondrial network morphology, physiologic rates, stress resistance and lifespan. Surprisingly, we found that overexpression of either mitochondrial fission or fusion machinery both resulted in an increase in mitochondrial fragmentation. Similarly, both mitochondrial fission and mitochondrial fusion overexpression strains have extended lifespans and increased stress resistance, which appears to be at least partially due to the upregulation of multiple stress response pathways in these strains. Overall, our work demonstrates that increasing the expression of mitochondrial fission or fusion genes extends lifespan and improves biological resilience without promoting the maintenance of a youthful mitochondrial network morphology. This work highlights the importance of the mitochondria for both resilience and longevity.IMPORTANTManuscripts submitted to Review Commons are peer reviewed in a journal-agnostic way.Upon transfer of the peer reviewed preprint to a journal, the referee reports will be available in full to the handling editor.The identity of the referees will NOT be communicated to the authors unless the reviewers choose to sign their report.The identity of the referee will be confidentially disclosed to any affiliate journals to which the manuscript is transferred.GUIDELINESFor reviewers:https://www.reviewcommons.org/reviewersFor authors:https://www.reviewcommons.org/authorsCONTACTThe Review Commons office can be contacted directly at:office@reviewcommons.org