The role of Kinesin-1 in neuronal dense core vesicle transport and lifespan regulation in C. elegans

Fast axonal transport is crucial for neuronal function and is driven by kinesins and cytoplasmic dynein. We investigated the role of the kinesin-1 motor complex in dense core vesicle (DCV) transport in C. elegans , using mutants in kinesin light chains ( klc -1 and klc -2) and the kinesin motor subunit ( unc-116 ) expressing an ida-1::gfp transgene that labels DCVs in the ALA neuron. A reduced-function unc-116(rf) mutation greatly impaired DCV transport in both directions. A klc-2(rf) reduced-function mutation decreased DCV velocity in both directions and reduced the frequency of body bends during swimming. In contrast, the klc-1(-) null mutation had no effect on anterograde transport or swimming ability, but surprisingly it increased the speed of retrograde DCV transport. We also determined lifespan, finding that klc-1(-) or klc-2(rf) single mutants were wild-type whereas the unc-116(rf) , ida-1::gfp and unc-116(rf) ; ida-1::gfp strains were short-lived. Strikingly, the ida-1::gfp transgenic synergistically interact with either klc mutant to extend lifespan compared to wild-type and parental strains. Our findings suggest that kinesin-1 not only influences anterograde and retrograde DCV transport but also plays a role in regulating lifespan.