Superoxide dismutase C affects Dictyostelium contractile vacuole biogenesis and function.

Adwait Kabra, Lou W Kim

Development, growth & differentiation 2020 Dec

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Dictyostelium cells cope with hypo-osmotic stress with a contractile vacuole (CV) system, which consists of one or two vacuoles that cyclically charge and discharge. Uniquely, a F-Actin remodeling dependent minimal mixing of the CV membrane components with the target plasmalemma during the fusion and the dischargement warrants the integrity of the CV bladder for an efficient next CV cycle. The effect of hypo-osmotic stress on F-Actin remodeling activity, however, is currently not well understood. Dictyostelium cells increase the level of intracellular superoxide level in response to hypo-osmotic stress, which in turn activates redox-sensitive Ras proteins, but not Akt, which is one of the Ras downstream targets and a major regulator of F-Actin remodeling. However, Akt is not insulated from the active Ras in cells lacking Superoxide dismutase C (SodC). We report here that sodC- cells were compromised in the CV structure and function and the attenuation of Ras/PI3K/Akt signaling in several independent means significantly improved the compromised CV structure but not the function. Interestingly, when sodC- cells were treated with 5-(N,N-Dimethyl) amiloride hydrochloride (EIPA), an inhibitor of sodium proton exchanger (NHE), both the structure and the function of the CV improved. Thus, a proper CV biogenesis in sodC- cells was insufficient to restore their CV function, which in turn indicates the presence of an additional target for SodC and EIPA that modulates CV function. © 2020 Japanese Society of Developmental Biologists.

Citation

Adwait Kabra, Lou W Kim. Superoxide dismutase C affects Dictyostelium contractile vacuole biogenesis and function. Development, growth & differentiation. 2020 Dec;62(9):516-526