MTABC3, a Novel Mitochondrial ATP-binding Cassette Protein Involved in Iron Homeostasis

Mitsuhashi, Noboru; Miki, Takashi; Senbongi, Hiroshi; Yokoi, Norihide; Yano, Hideki; Miyazaki, Masaru; Nakajima, Nobuyuki; Iwanaga, Toshihiko; Yokoyama, Yuji; Shibata, Takehiko

doi:10.1074/jbc.275.23.17536

Cited by 121 publications

(117 citation statements)

References 43 publications

(49 reference statements)

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“…Although iron deficiency has never been shown previously to induce mtDNA damage, excess iron-induced damage to mtDNA has been reported (12,13), as have double-strand breaks in isolated mitochondria subjected to mM concentrations of Fe 2ϩ (32). Iron deficiency can induce nuclear DNA base damage (33).…”

Section: Figmentioning

confidence: 99%

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Iron deficiency and iron excess damage mitochondria and mitochondrial DNA in rats

Walter

Knutson

Paler-Martı́nez

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

304

182

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Approximately two billion people, mainly women and children, are iron deficient. Two studies examined the effects of iron deficiency and supplementation on rats. In study 1, mitochondrial functional parameters and mitochondrial DNA (mtDNA) damage were assayed in iron-deficient (<5 g͞day) and iron-normal (800 g͞day) rats and in both groups after daily high-iron supplementation (8,000 g͞day) for 34 days. This dose is equivalent to the daily dose commonly given to iron-deficient humans. Iron-deficient rats had lower liver mitochondrial respiratory control ratios and increased levels of oxidants in polymorphonuclear-leukocytes, as assayed by dichlorofluorescein (P < 0.05). Rhodamine 123 fluorescence of polymorphonuclear-leukocytes also increased (P < 0.05). Lowered respiratory control ratios were found in daily high-iron-supplemented rats regardless of the previous iron status (P < 0.05). mtDNA damage was observed in both iron-deficient rats and rats receiving daily high-iron supplementation, compared with ironnormal rats (P < 0.05). Study 2 compared iron-deficient rats given high doses of iron (8,000 g) either daily or every third day and found that rats given iron supplements every third day had less mtDNA damage on the second and third day after the last dose compared to daily high iron doses. Both inadequate and excessive iron (10 ؋ nutritional need) cause significant mitochondrial malfunction. Although excess iron has been known to cause oxidative damage, the observation of oxidant-induced damage to mitochondria from iron deficiency has been unrecognized previously. Untreated iron deficiency, as well as excessive-iron supplementation, are deleterious and emphasize the importance of maintaining optimal iron intake.

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Section: Figmentioning

confidence: 99%

“…11). The severe iron overload of mitochondria has been found to induce mitochondrial DNA (mtDNA) damage (12,13). Damage to mtDNA correlates with the mitochondrial dysfunction associated with oxidant stress and aging (14).…”

mentioning

confidence: 99%

Iron deficiency and iron excess damage mitochondria and mitochondrial DNA in rats

Walter

Knutson

Paler-Martı́nez

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

304

182

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“…The human mitochondrial homologs, ABC7 and MTABC3, mutation of which is associated with iron storage diseases such as hereditary X-linked sideroblastic anemia and ataxia (Table I), complement yeast atm1 Ϫ mutants (46,47). Arabidopsis AtATM3 (alias STA1), whose deficiency causes dwarfism and chlorosis (48), restores the maturation of cytosolic FeS proteins in and suppresses the iron hyperaccumulation phenotype of atm1 Ϫ yeast (49).…”

Section: Half-molecule Abc Transportersmentioning

confidence: 99%

The Arabidopsis thaliana ABC Protein Superfamily, a Complete Inventory

Sánchez-Fernández¹,

Davies²,

Coleman³

et al. 2001

Journal of Biological Chemistry

481

414

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“…Mammalian ABC transporters are found predominantly in the plasma membrane but are also known to play essential roles in a number of organelles, including the endoplasmic reticulum, peroxisome, and the mitochondrion (2). Mammalian mitochondrial ABC transporters have recently gained attention for their role in heme biosynthesis and iron sulfur cluster synthesis (7)(8)(9)(10)(11)(12). Accordingly, their involvement in the pathophysiology of acquired and inherited forms of sideroblastic anemias has been suggested and, in the case of ABCB7, already demonstrated.…”

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confidence: 99%

Targeting, Import, and Dimerization of a Mammalian Mitochondrial ATP Binding Cassette (ABC) Transporter, ABCB10 (ABC-me)

Graf

Haigh

Corson

et al. 2004

Journal of Biological Chemistry

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ATP binding cassette (ABC) transporters are a diverse superfamily of energy-dependent membrane translocases. Although responsible for the majority of transmembrane transport in bacteria, they are relatively uncommon in eukaryotic mitochondria. Organellar trafficking and import, in addition to quaternary structure assembly, of mitochondrial ABC transporters is poorly understood and may offer explanations for the paucity of their diversity. Here we examine these processes in ABCB10 (ABC-me), a mitochondrial inner membrane erythroid transporter involved in heme biosynthesis. We report that ABCB10 possesses an unusually long 105-amino acid mitochondrial targeting presequence (mTP). The central subdomain of the mTP (amino acids (aa) 36 -70) is sufficient for mitochondrial import of enhanced green fluorescent protein. The N-terminal subdomain (aa 1-35) of the mTP, although not necessary for the trafficking of ABCB10 to mitochondria, participates in the proper import of the molecule into the inner membrane. We performed a series of amino acid mutations aimed at changing specific properties of the mTP. The mTP requires neither arginine residues nor predictable ␣-helices for efficient mitochondrial targeting. Disruption of its hydrophobic character by the mutation L46Q/ I47Q, however, greatly diminishes its efficacy. This mutation can be rescued by cryptic downstream (aa 106 -715) mitochondrial targeting signals, highlighting the redundancy of this protein's targeting qualities. Mass spectrometry analysis of chemically cross-linked, immunoprecipitated ABCB10 indicates that ABCB10 embedded in the mitochondrial inner membrane homodimerizes and homo-oligomerizes. A deletion mutant of ABCB10 that lacks its mTP efficiently targets to the endoplasmic reticulum. Quaternary structure assembly of ABCB10 in the ER appears to be similar to that in the mitochondria.ABC 1 transporters comprise a large and diverse family of membrane translocases (1). Their function ranges from peptide transport to phospholipid flipping to anion channel formation. Members of the ABC transporter superfamily have been implicated in numerous human diseases (including cystic fibrosis (CFTR/ABCC7), adrenoleukodystrophy (ALDP/ABCD1), Zellweger's syndrome (PMP70/ABCD3), progressive familial intrahepatic cholestasis (SPGP/ABCB11), and Stargardt macular dystrophy (ABCR/ABCA4)) (2). The basic structure of ABC transporters is relatively well conserved and includes a hydrophilic ATP binding cassette and a hydrophobic membranespanning domain (3). Whereas the large members of the family contain two of each domain, the "half-transporters" contain one of each and are predicted to dimerize (3-6). Mammalian ABC transporters are found predominantly in the plasma membrane but are also known to play essential roles in a number of organelles, including the endoplasmic reticulum, peroxisome, and the mitochondrion (2). Mammalian mitochondrial ABC transporters have recently gained attention for their role in heme biosynthesis and iron sulfur cluster synthesis (7-12). According...

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MTABC3, a Novel Mitochondrial ATP-binding Cassette Protein Involved in Iron Homeostasis

Cited by 121 publications

References 43 publications

Iron deficiency and iron excess damage mitochondria and mitochondrial DNA in rats

Iron deficiency and iron excess damage mitochondria and mitochondrial DNA in rats

The Arabidopsis thaliana ABC Protein Superfamily, a Complete Inventory

Targeting, Import, and Dimerization of a Mammalian Mitochondrial ATP Binding Cassette (ABC) Transporter, ABCB10 (ABC-me)

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