Metaxin-2 tunes mitochondrial transportation and neuronal function in Drosophila.

Metaxins are a family of evolutionarily conserved proteins that reside on the mitochondria outer membrane (MOM) and participate in the protein import into the mitochondria. Metaxin-2 (Mtx2), a member of this family, has been identified as a key component in the machinery for mitochondrial transport in both C. elegans and human neurons. To deepen our understanding of Mtx2's role in neurons, we examined the homologous genes CG5662 and CG8004 in Drosophila. The CG5662 is a non-essential gene while CG8004 null mutants die at late pupal stages. The CG8004 protein is widely expressed throughout the Drosophila nervous system and is targeted to mitochondria. However, neuronal CG8004 is dispensable for animal survival and is partially required for mitochondrial distribution in certain neuropil regions. Conditional knockout of CG8004 in adult gustatory receptor neurons (GRNs) impairs mitochondrial trafficking along GRN axons and diminishes the mitochondrial quantities in axon terminals. The absence of CG8004 also leads to mitochondrial fragmentation within GRN axons, a phenomenon that may be linked to mitochondrial transport through its genetic interaction with the fusion proteins Marf and Opa1. While the removal of neuronal CG8004 is not lethal during the developmental stage, it does have consequences for the lifespan and healthspan of adult Drosophila. At last, double knockout (KO) of CG5662 and CG8004 shows similar phenotypes as the CG8004 single KO, suggesting that CG5662 does not compensate for the loss of CG8004. In summary, our findings suggest that CG8004 plays a conserved and context-dependent role in axonal mitochondrial transport, as well it is important for sustaining neuronal function. Therefore, we refer to CG8004 as the Drosophila Metaxin-2 (dMtx2).