Abstract
The haploid, olegenious yeast Rhodosporidium toruloides accumulates intracellular lipids and carotenoids upon metabolic stress. Target of Rapamycin (TOR) signaling, essential for cell proliferation, is known to affect cellular lipid accumulation. In contrast to the conventional surrugate cell model S. cerevisiae, which harbours two TOR kinases within its TOR complex, R. toruloides only harbours one TOR kinase, mimicking mammalian systems. We used a proteomics centered approach to probe the cellular response, of the two R. toruloides haplotypes, IFO0559 and IFO0880 upon treatment with the TOR inhibitor rapamycin, with an original focus on difference in carotenoid and lipid accumulation. Unexpectedly, IFO0880 displayed severe growth arrest in response to rapamycin, while IFO0559 did not. Proteomic anaysis revealed differential expression of several proteins involved in cell cycle control, lipogensis, amino acid metabolism and autophagy between the two haplotypes. Among those we identified several proteins previously described in both mammalian oncogenic and aging contexts. This differential haplotype response to rapamycin treatment positions R. toruloides as a promising cell surrugate model to study cellular mechanisms underlying rapamycin response especially for systems with high lipid contents, an emerging hallmark of different forms of mammalian cancer and age related disease.