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Manganese superoxide dismutase, MnSOD and its mimics.

Publication ,  Journal Article
Miriyala, S; Spasojevic, I; Tovmasyan, A; Salvemini, D; Vujaskovic, Z; St Clair, D; Batinic-Haberle, I
Published in: Biochim Biophys Acta
May 2012

Increased understanding of the role of mitochondria under physiological and pathological conditions parallels increased exploration of synthetic and natural compounds able to mimic MnSOD - endogenous mitochondrial antioxidant defense essential for the existence of virtually all aerobic organisms from bacteria to humans. This review describes most successful mitochondrially-targeted redox-active compounds, Mn porphyrins and MitoQ(10) in detail, and briefly addresses several other compounds that are either catalysts of O(2)(-) dismutation, or its non-catalytic scavengers, and that reportedly attenuate mitochondrial dysfunction. While not a true catalyst (SOD mimic) of O(2)(-) dismutation, MitoQ(10) oxidizes O(2)(-) to O(2) with a high rate constant. In vivo it is readily reduced to quinol, MitoQH(2), which in turn reduces ONOO(-) to NO(2), producing semiquinone radical that subsequently dismutes to MitoQ(10) and MitoQH(2), completing the "catalytic" cycle. In MitoQ(10), the redox-active unit was coupled via 10-carbon atom alkyl chain to monocationic triphenylphosphonium ion in order to reach the mitochondria. Mn porphyrin-based SOD mimics, however, were designed so that their multiple cationic charge and alkyl chains determine both their remarkable SOD potency and carry them into the mitochondria. Several animal efficacy studies such as skin carcinogenesis and UVB-mediated mtDNA damage, and subcellular distribution studies of Saccharomyces cerevisiae and mouse heart provided unambiguous evidence that Mn porphyrins mimic the site and action of MnSOD, which in turn contributes to their efficacy in numerous in vitro and in vivo models of oxidative stress. Within a class of Mn porphyrins, lipophilic analogs are particularly effective for treating central nervous system injuries where mitochondria play key role. This article is part of a Special Issue entitled: Antioxidants and Antioxidant Treatment in Disease.

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Published In

Biochim Biophys Acta

DOI

ISSN

0006-3002

Publication Date

May 2012

Volume

1822

Issue

5

Start / End Page

794 / 814

Location

Netherlands

Related Subject Headings

  • Superoxide Dismutase
  • Porphyrins
  • Molecular Mimicry
  • Mitochondria
  • Humans
  • 51 Physical sciences
  • 31 Biological sciences
  • 06 Biological Sciences
  • 02 Physical Sciences
 

Citation

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ICMJE
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Miriyala, S., Spasojevic, I., Tovmasyan, A., Salvemini, D., Vujaskovic, Z., St Clair, D., & Batinic-Haberle, I. (2012). Manganese superoxide dismutase, MnSOD and its mimics. Biochim Biophys Acta, 1822(5), 794–814. https://doi.org/10.1016/j.bbadis.2011.12.002
Miriyala, Sumitra, Ivan Spasojevic, Artak Tovmasyan, Daniela Salvemini, Zeljko Vujaskovic, Daret St Clair, and Ines Batinic-Haberle. “Manganese superoxide dismutase, MnSOD and its mimics.Biochim Biophys Acta 1822, no. 5 (May 2012): 794–814. https://doi.org/10.1016/j.bbadis.2011.12.002.
Miriyala S, Spasojevic I, Tovmasyan A, Salvemini D, Vujaskovic Z, St Clair D, et al. Manganese superoxide dismutase, MnSOD and its mimics. Biochim Biophys Acta. 2012 May;1822(5):794–814.
Miriyala, Sumitra, et al. “Manganese superoxide dismutase, MnSOD and its mimics.Biochim Biophys Acta, vol. 1822, no. 5, May 2012, pp. 794–814. Pubmed, doi:10.1016/j.bbadis.2011.12.002.
Miriyala S, Spasojevic I, Tovmasyan A, Salvemini D, Vujaskovic Z, St Clair D, Batinic-Haberle I. Manganese superoxide dismutase, MnSOD and its mimics. Biochim Biophys Acta. 2012 May;1822(5):794–814.

Published In

Biochim Biophys Acta

DOI

ISSN

0006-3002

Publication Date

May 2012

Volume

1822

Issue

5

Start / End Page

794 / 814

Location

Netherlands

Related Subject Headings

  • Superoxide Dismutase
  • Porphyrins
  • Molecular Mimicry
  • Mitochondria
  • Humans
  • 51 Physical sciences
  • 31 Biological sciences
  • 06 Biological Sciences
  • 02 Physical Sciences