Transcription of the mating-type-regulated lncRNA IRT1 is governed by TORC1 and PKA
journal contributionposted on 15.10.2020, 08:48 by Fabien Moretto, Folkert J van Werven
Cell fate decisions are controlled by multiple cell-intrinsic and -extrinsic factors. In budding yeast, the decision to enter gametogenesis or sporulation is dictated by nutrient availability and mating type. Recently, we showed that in diploid cells harbouring opposite mating types (MATa and MATα), the protein kinase A (PKA) and target of rapamycin complex I (TORC1) signalling pathways integrate at the promoter of the master regulatory transcription factor IME1 to control sporulation via nutrient availability (Weidberg, et al. 2016). In cells with a single mating type (MATa or MATα), however, IME1 is repressed by transcription through the IME1 promoter of a long non-coding RNA called IRT1, which prevents this cell type from undergoing sporulation. Here, we investigated the role of nutrient signalling in mating-type control of IME1. We find that expression of IRT1, like IME1 itself, depends on nutrient availability and the activities of PKA and TORC1. IRT1 transcription is repressed when nutrients are ample and TORC1 and PKA are active. In contrast, inhibition of PKA and TORC1 is sufficient to recruit Rme1 to the IRT1 promoter and induce IRT1-mediated repression of IME1. Finally, we provide evidence that IRT1 and IME1 are co-repressed by the Tup1-Cyc8 complex when nutrients are ample. Thus, in cells with a single mating-type nutrient availability regulates mating-type repression of IME1 and sporulation. Our results indicate that there is a hierarchy between nutrient and mating-type signals in controlling the decision to enter sporulation.
GametogenesisIME1IRT1Long non-coding RNAMating typeNutrientsProtein kinase ARme1SignallingSporulationTORC1TranscriptionTup1Cyclic AMP-Dependent Protein KinasesGene Expression Regulation, FungalGenes, Mating Type, FungalModels, GeneticMutationNuclear ProteinsPromoter Regions, GeneticRNA, Long NoncodingRepressor ProteinsReverse Transcriptase Polymerase Chain ReactionSaccharomyces cerevisiaeSaccharomyces cerevisiae ProteinsSignal TransductionSpores, FungalTranscription FactorsTranscription, Geneticvan Werven FC001203Microbiology0604 Genetics0605 Microbiology