Elena Hidalgo scite author profile

The Schizosaccharomyces pombe transcription factor Pap1 regulates antioxidant-gene transcription in response to H2O2. Pap1 activation occurs only at low, but not elevated, H2O2 concentrations that instead strongly trigger the mitogen-activated protein kinase Sty1 pathway. Here, we identify the peroxiredoxin Tpx1 as the upstream activator of Pap1. We show that, at low H2O2 concentrations, this oxidant scavenger can transfer a redox signal to Pap1, whereas higher concentrations of the oxidant inhibit the Tpx1-Pap1 redox relay through the temporal inactivation of Tpx1 by oxidation of its catalytic cysteine to a sulfinic acid. This cysteine modification can be reversed by the sulfiredoxin Srx1, its expression in response to high doses of H2O2 strictly depending on active Sty1. Thus, Tpx1 oxidation to the cysteine-sulfinic acid and its reversion by Srx1 constitutes a previously uncharacterized redox switch in H2O2 signaling, restricting Pap1 activation within a narrow range of H2O2 concentrations.Sty1 ͉ thiol oxidation ͉ H2O2 sensor ͉ Prx ͉ fission yeast

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An iron-sulfur center essential for transcriptional activation by the redox-sensing SoxR protein.

Hidalgo

1994

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The soxRS oxidative stress regulon of Escherichia coli is triggered by superoxide (O2.‐) generating agents or by nitric oxide through two consecutive steps of gene activation. SoxR protein has been proposed as the redox sensing gene activator that triggers this cascade of gene expression. We have now characterized two forms of SoxR: Fe‐SoxR contained non‐heme iron (up to 1.6 atoms per monomer); apo‐SoxR was devoid of Fe or other metals. The spectroscopic properties of Fe‐SoxR indicated that it contains a redox active iron‐sulfur (FeS) cluster that is oxidized upon extraction from E. coli. Fe‐SoxR and apo‐SoxR bound the in vivo target, the soxS promoter, with equal affinities and protected the same region from DNase I in vitro. However, only Fe‐SoxR stimulated transcription initiation at soxS in vitro > 100‐fold, similar to the activation of soxS expression in vivo. This stimulation occurred at a step after the binding of RNAP and indicates a conformational effect of oxidized Fe‐SoxR on the soxS promoter. The variable redox state of the SoxR FeS cluster may thus be employed in vivo to modulate the transcriptional activity of this protein in response to specific types of oxidative stress.

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Two-stage control of an oxidative stress regulon: the Escherichia coli SoxR protein triggers redox-inducible expression of the soxS regulatory gene

et al. 1992

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Escherichia coli responds to the redox stress imposed by superoxide-generating agents such as paraquat by activating the synthesis of as many as 80 polypeptides. Expression of a key group of these inducible proteins is controlled at the transcriptional level by the soxRS locus (the soxRS regulon). A two-stage control system was hypothesized for soxRS, in which an intracellular redox signal would trigger the SoxR protein as a transcriptional activator of the soxS gene and the resulting increased levels of SoxS protein would activate transcription of the various soxRS regulon genes (B. Demple and C.F. Amábile Cuevas, Cell 67:837-839, 1990). We have constructed operon fusions of the E. coli lac genes to the soxS promoter to monitor soxS transcription. Expression from the soxS promoter is strongly inducible by paraquat in a manner strictly dependent on a functional soxR gene. Several other superoxide-generating agents also trigger soxR(+)-dependent soxS expression, and the inductions by paraquat and phenazine methosulfate were dependent on the presence of oxygen. Numerous other oxidative stress agents (H2O2, gamma rays, heat shock, etc.) failed to induce soxS, while aerobic growth of superoxide dismutase-deficient bacteria triggered soxR-dependent soxS expression. These results indicate a specific redox signal for soxS induction. A direct role for SoxR protein in the activation of the soxS gene is indicated by band-shift and DNase I footprinting experiments that demonstrate specific binding of the SoxR protein in cell extracts to the soxS promoter. The mode of SoxR binding to DNA appears to be similar to that of its homolog MerR in that the SoxR footprint spans the -10 to -35 region of the soxS promoter.

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Binuclear [2Fe-2S] Clusters in the Escherichia coli SoxR Protein and Role of the Metal Centers in Transcription

Hidalgo

et al. 1995

Journal of Biological Chemistry

192

168

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Elena Hidalgo

A cysteine-sulfinic acid in peroxiredoxin regulates H ₂ O ₂ -sensing by the antioxidant Pap1 pathway

An iron-sulfur center essential for transcriptional activation by the redox-sensing SoxR protein.

Two-stage control of an oxidative stress regulon: the Escherichia coli SoxR protein triggers redox-inducible expression of the soxS regulatory gene

Binuclear [2Fe-2S] Clusters in the Escherichia coli SoxR Protein and Role of the Metal Centers in Transcription

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Elena Hidalgo

A cysteine-sulfinic acid in peroxiredoxin regulates H 2 O 2 -sensing by the antioxidant Pap1 pathway

An iron-sulfur center essential for transcriptional activation by the redox-sensing SoxR protein.

Two-stage control of an oxidative stress regulon: the Escherichia coli SoxR protein triggers redox-inducible expression of the soxS regulatory gene

Binuclear [2Fe-2S] Clusters in the Escherichia coli SoxR Protein and Role of the Metal Centers in Transcription

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A cysteine-sulfinic acid in peroxiredoxin regulates H ₂ O ₂ -sensing by the antioxidant Pap1 pathway