Our goal is to define mitochondrial iron metabolism in eukaryotes at the molecular and biochemical level by studying proteins required for mitochondrial iron transport and utilization. We have identified mitochondrial iron importers in yeast, Mrs3/Mrs4, and vertebrates, Mitoferrin1 and Mitoferrin2. We demonstrated that the mitoferrins show tissue specific expression patterns and tissue specific functions. We have generated mice with floxed alleles of both Mitoferrin1 and Mitoferrin2. We will utilize specific expression of Cre recombinase to identify the tissue specific function of the mitoferrins. We will examine the mechanism of mitochondrial dysfunction by deleting mitoferrins in vitro in specific cell types through the use of recombinant Tat-Cre. Through genetic screens we identified genes that are required for hemoglobinization in developing erythrocytes. We will determine the function of these genes. We will determine if Abcb10 has roles other than stabilizing Mfrn1, if deletion of Atpif1 affects ferrochelatase activity through altered mitochondrial pH and if reductio of SLC25A39, the Mtm1 yeast homologue, affects mitochondrial superoxide dismutase activity. We determined that the mitochondrial iron pool is tightly regulated, but can be increased by overexpression of mitochondrial iron importers. We will determine the physiological consequences of increased levels of mitochondrial iron in both yeast and mammalian cells. We had identified Mmt1 and Mmt2 as mitochondrial iron exporters. We discovered that MMT1 and MMT2 are transcriptionally upregulated by low iron and by oxidant stress. We have identified Yap1 as the oxidant stress activated transcription factor for MMT1. We will identify the transcriptional factor responsible for the low iron induction of MMT1/MMT2 and the physiological function of mitochondrial iron export. We will determine if mammalian mitochondria can act as a iron reservoir and if there are mammalian mitochondrial iron exporters.

Public Health Relevance

Mitochondrial iron metabolism is essential for life. Malregulation of mitochondrial iron metabolism leads to disease. We will determine the mechanisms that regulate mitochondrial iron import and export. Our studies will provide information that may be used to manage and diagnose human diseases due to altered mitochondrial iron metabolism.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK052380-18
Application #
8806557
Study Section
Molecular and Cellular Hematology (MCH)
Program Officer
Roy, Cindy
Project Start
1998-02-01
Project End
2017-01-31
Budget Start
2015-02-01
Budget End
2016-01-31
Support Year
18
Fiscal Year
2015
Total Cost
$324,075
Indirect Cost
$106,575
Name
University of Utah
Department
Pathology
Type
Schools of Medicine
DUNS #
009095365
City
Salt Lake City
State
UT
Country
United States
Zip Code
84112
Ward, Diane M; Chen, Opal S; Li, Liangtao et al. (2018) Altered sterol metabolism in budding yeast affects mitochondrial iron-sulfur (Fe-S) cluster synthesis. J Biol Chem 293:10782-10795
Seguin, Alexandra; Takahashi-Makise, Naoko; Yien, Yvette Y et al. (2017) Reductions in the mitochondrial ABC transporter Abcb10 affect the transcriptional profile of heme biosynthesis genes. J Biol Chem 292:16284-16299
Chung, Jacky; Wittig, Johannes G; Ghamari, Alireza et al. (2017) Erythropoietin signaling regulates heme biosynthesis. Elife 6:
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Li, Liangtao; Miao, Ren; Jia, Xuan et al. (2014) Expression of the yeast cation diffusion facilitators Mmt1 and Mmt2 affects mitochondrial and cellular iron homeostasis: evidence for mitochondrial iron export. J Biol Chem 289:17132-41
Chen, Caiyong; Garcia-Santos, Daniel; Ishikawa, Yuichi et al. (2013) Snx3 regulates recycling of the transferrin receptor and iron assimilation. Cell Metab 17:343-52
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Wang, Yongming; Langer, Nathaniel B; Shaw, George C et al. (2011) Abnormal mitoferrin-1 expression in patients with erythropoietic protoporphyria. Exp Hematol 39:784-94
Reeder, Nancy L; Kaplan, Jerry; Xu, Jun et al. (2011) Zinc pyrithione inhibits yeast growth through copper influx and inactivation of iron-sulfur proteins. Antimicrob Agents Chemother 55:5753-60

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