Abstract
Saccharomyces cerevisiae responds to iron deprivation by increasing the transcription of genes involved in the uptake of environmental iron and in the mobilization of vacuolar iron stores. HMX1 is also transcribed under conditions of iron deprivation and is under the control of the major iron-dependent transcription factor, Aft1p. Although Hmx1p exhibits limited homology to heme oxygenases, it has not been shown to be enzymatically active. We find that Hmx1p is a resident protein of the endoplasmic reticulum and that isolated yeast membranes contain a heme degradation activity that is dependent on HMX1. Hmx1p facilitates the capacity of cells to use heme as a nutritional iron source. Deletion of HMX1 leads to defects in iron accumulation and to expansion of intracellular heme pools. These alterations in the regulatory pools of iron lead to activation of Aft1p and inappropriate activation of heme-dependent transcription factors. Expression of HmuO, the heme oxygenase from Corynebacterium diphtheriae, restores iron and heme levels, as well as Aft1p- and heme-dependent transcriptional activities, to those of wild type cells, indicating that the heme degradation activity associated with Hmx1p is important in mediating iron and heme homeostasis. Hmx1p promotes both the reutilization of heme iron and the regulation of heme-dependent transcription during periods of iron scarcity.
Highlights
Family of plasma membrane metalloreductases [5, 6]
We report that deletion of HMX1 resulted in a decrease in heme degradation activity and that Hmx1p was important for heme iron reutilization and the homeostasis of regulatory pools of iron and heme
The amino acid residues involved in binding heme and cytochrome P-450 reductase are conserved between HO-1 and HmuO, most of these residues are not conserved in Hmx1p
Summary
Vol 278, No 38, Issue of September 19, pp. 36582–36587, 2003 Printed in U.S.A. Regulation of Intracellular Heme Levels by HMX1, a Homologue of Heme Oxygenase, in Saccharomyces cerevisiae*. Deletion of HMX1 leads to defects in iron accumulation and to expansion of intracellular heme pools These alterations in the regulatory pools of iron lead to activation of Aft1p and inappropriate activation of heme-dependent transcription factors. Under conditions of iron deprivation, S. cerevisiae expresses a set of genes involved in the acquisition of iron from the environment and the mobilization of iron from intracellular stores. These genes are under the control of the major iron-dependent transcriptional activator, Aft1p [1]. Additional Aft1p targets are two genes of unknown function: TIS11, a member of the CCCH family of zinc finger proteins, and HMX1, which exhibits homology to heme oxygenases. We report that deletion of HMX1 resulted in a decrease in heme degradation activity and that Hmx1p was important for heme iron reutilization and the homeostasis of regulatory pools of iron and heme
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