Gaspar-Cordeiro A, Marques Caetano S, Amaral C, Rodrigues-Pousada C, Pimentel C

In the yeast Saccharomyces cerevisiae Aft1, the low iron-sensing transcription factor is known to regulate the expression of the FET3 gene. However, we found that a strain-lacking FET3 is more sensitive to copper excess than a strain-lacking AFT1, and accordingly, FET3 expression is not fully compromised in the latter. These ...

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findings suggest that, under such conditions, another regulator comes into play and controls FET3 expression. In this work, we identify Ace1, the regulator of copper detoxification genes, as a regulator of FET3. We suggest that the activation of FET3 by Ace1 prevents the hyper activation of Aft1, possibly by assuring the adequate functioning of mitochondrial iron-sulfur cluster biogenesis. While reinforcing the link between iron and copper homeostasis, this work unveils a novel protection mechanism against copper toxicity mediated by Ace1, which relies in the activation of FET3 and results in the restriction of Aft1 activity as a means to prevent excessive copper accumulation.

Date: Mar. 31, 2018

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