Actin-Mediated Endocytosis Limits Intracellular Cr Accumulation and Cr Toxicity during Chromate Stress

Chromate toxicity is well documented, but the underlying toxic mechanism(s) has yet to be fully elucidated. Following a Cr toxicity screen against > 6000 heterozygous yeast mutants, here we show that Cr resistance requires normal function of the cortical actin cytoskeleton. Furthermore, Cr-stressed yeast cells exhibited an increased number of actin patches, the sites of endocytosis. This was coincident with a marked stimulation of endocytosis following Cr exposure. Genetic dissection of actin nucleation from endocytosis revealed that endocytosis, specifically, was required for Cr resistance. A series of further endocytosis mutants (sac6Δ, chc1Δ, end3Δ) exhibited elevated Cr sensitivity. These mutants also showed markedly elevated cellular Cr accumulation, explaining their sensitivities. In wild-type cells, an initial endocytosis-independent phase of Cr uptake was followed by an endocytosis-dependent decline in Cr accumulation. The results indicate that actin-mediated endocytosis is required to limit Cr accumulation and toxicity. It is proposed that this involves ubiquitin-dependent endocytic inactivation of a plasma membrane Cr transporter(s). We showed that such an action was not dependent on the transporters that have been characterized to date, the sulfate (and chromate) permeases Sul1p and Sul2p.