Ixr1p from Saccharomyces cerevisiae has been previously studied because it binds to DNA containing intrastrand cross-links formed by the anticancer drug cisplatin. Ixr1p is also a transcriptional regulator of anaerobic/hypoxic genes, such as SRP1/TIR1, which encodes a stress-response cell wall manoprotein, and COX5B, which encodes the Vb subunit of the mitochondrial complex cytochrome c oxidase. However, factors controlling IXR1 expression remained unexplored. In the present study we show that IXR1 mRNA levels are controlled by oxygen availability and increase during hypoxia. In aerobiosis, low levels of IXR1 expression are maintained by Rox1p repression through the general co-repressor complex Tup1-Ssn6. Ixr1p itself is necessary for full IXR1 expression under hypoxic conditions. Deletion analyses have identified the region in the IXR1 promoter responsible for this positive auto-control (nucleotides -557 to -376). EMSA (electrophoretic mobility-shift assay) and ChIP (chromatin immunoprecipitation) assays show that Ixr1p binds to the IXR1 promoter both in vitro and in vivo. Ixr1p is also required for hypoxic repression of ROX1 and binds to its promoter. UPC2 deletion has opposite effects on IXR1 and ROX1 transcription during hypoxia. Ixr1p is also necessary for resistance to oxidative stress generated by H2O2. IXR1 expression is moderately activated by H2O2 and this induction is Yap1p-dependent. A model of IXR1 regulation as a relay for sensing different signals related to change in oxygen availability is proposed. In this model, transcriptional adaptation from aerobiosis to hypoxia depends on ROX1 and IXR1 cross-regulation.
In Saccharomyces cerevisiae, HEM13 encodes the enzyme coproporphyrinogen III oxidase, which catalyzes the rate-limiting step in heme biosynthesis. HEM13 is a regulated hypoxic gene repressed by Rox1p and Mot3p under aerobic conditions. In this study, we further investigate the hypoxic expression of HEM13, focusing on the promoter regions that are functionally important during hypoxia and on the effect of deleting the transcriptional regulators Sut1p, Sut2p, Upc2p, Ecm22p and Ixr1p. Ixr1p is necessary for the high expression of HEM13 under hypoxic conditions and its function is exerted in vivo through the HEM13 promoter region extending from -577 to -419. Ixr1p binds in vivo to the HEM13 promoter both under aerobic and under hypoxic conditions. Purified Ixr1p binds in vitro to two sequences extending from -534 to -509 and from -497 to -450, respectively. These DNA regions compete for Ixr1p binding and the consensus KTTSAAYKGTTYASA is important for the regulatory protein to interact. These results suggest that the regulation of HEM13 expression is dependent on two proteins with high mobility group (HMG) domains: Rox1p and Ixr1p. Their interactions with the HEM13 promoter might change in the transition from aerobiosis to hypoxia.
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