Mitochondrial Atpif1 regulates heme synthesis in developing erythroblasts

Defects in the availability of heme substrates or the catalytic activity of the terminal enzyme in heme biosynthesis, ferrochelatase (Fech), impair heme synthesis, and thus cause human congenital anemias 1 , 2 . The inter-dependent functions of regulators of mitochondrial homeostasis and enzymes res...

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Published in:Nature (London) 2012-11, Vol.491 (7425), p.608-612
Main Authors: Shah, Dhvanit I., Takahashi-Makise, Naoko, Cooney, Jeffrey D., Li, Liangtao, Schultz, Iman J., Pierce, Eric L., Narla, Anupama, Seguin, Alexandra, Hattangadi, Shilpa M., Medlock, Amy E., Langer, Nathaniel B., Dailey, Tamara A., Hurst, Slater N., Faccenda, Danilo, Wiwczar, Jessica M., Heggers, Spencer K., Vogin, Guillaume, Chen, Wen, Chen, Caiyong, Campagna, Dean R., Brugnara, Carlo, Zhou, Yi, Ebert, Benjamin L., Danial, Nika N., Fleming, Mark D., Ward, Diane M., Campanella, Michelangelo, Dailey, Harry A., Kaplan, Jerry, Paw, Barry H.
Format: Article
Language:English
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Summary:Defects in the availability of heme substrates or the catalytic activity of the terminal enzyme in heme biosynthesis, ferrochelatase (Fech), impair heme synthesis, and thus cause human congenital anemias 1 , 2 . The inter-dependent functions of regulators of mitochondrial homeostasis and enzymes responsible for heme synthesis are largely unknown. To uncover this unmet need, we utilized zebrafish genetic screens and cloned mitochondrial ATPase inhibitory factor 1 ( atpif1 ) from a zebrafish mutant with profound anemia, pinotage (pnt tq209 ) . We now report a direct mechanism establishing that Atpif1 regulates the catalytic efficiency of vertebrate Fech to synthesize heme. The loss of Atpif1 impairs hemoglobin synthesis in zebrafish, mouse, and human hematopoietic models as a consequence of diminished Fech activity, and elevated mitochondrial pH. To understand the relationship among mitochondrial pH, redox potential, [2Fe-2S] clusters, and Fech activity, we used (1) genetic complementation studies of Fech constructs with or without [2Fe-2S] clusters in pnt, and (2) pharmacological agents modulating mitochondrial pH and redox potential. The presence of [2Fe-2S] cluster renders vertebrate Fech vulnerable to Atpif1-regulated mitochondrial pH and redox potential perturbations. Therefore, Atpif1 deficiency reduces the efficiency of vertebrate Fech to synthesize heme, resulting in anemia. The novel mechanism of Atpif1 as a regulator of heme synthesis advances the understanding of mitochondrial heme homeostasis and red blood cell development. A deficiency of Atpif1 may contribute to important human diseases, such as congenital sideroblastic anemias and mitochondriopathies.
ISSN:0028-0836
1476-4687
DOI:10.1038/nature11536