Crystal structure of a multifunctional 2-Cys peroxiredoxin heme-binding protein 23 kDa/proliferation-associated gene product

Hirotsu, Shoko; Abe, Yasuko; Okada, Kengo; Nagahara, Noriyuki; Hori, Hiroyuki; Nishino, Tokuzo; Hakoshima, Toshio

doi:10.1073/pnas.96.22.12333

Cited by 246 publications

(191 citation statements)

References 28 publications

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“…Originally these enzymes were thought to be relatively weak scavengers of H 2 O 2 , but recent work shows that are as active as peroxidases as either catalase or glutathione peroxidase. What distinguishes peroxiredoxins from other peroxidases is their interaction with numerous regulatory proteins, including c-Abl, c-Myc, JNK, and the PDGF receptor [62,[68][69][70][71]. Little is known about how the oxidation state of Prxs influences protein-protein interactions, but one intriguing possibility is that oxidation state of peroxiredoxins may influence the subcellular location or activity of interacting factors.…”

Section: Control Of H 2 O 2 Tonementioning

confidence: 99%

Redox-based regulation of signal transduction: Principles, pitfalls, and promises

Janssen–Heininger¹,

Mossman²,

Heintz³

et al. 2008

Free Radical Biology and Medicine

688

652

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Section: Control Of H 2 O 2 Tonementioning

confidence: 99%

Redox-based regulation of signal transduction: Principles, pitfalls, and promises

Janssen–Heininger¹,

Mossman²,

Heintz³

et al. 2008

Free Radical Biology and Medicine

688

652

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“…NIH-PA Author Manuscript NIH-PA Author Manuscript superfamily [7,8]. Unlike most peroxidases-which contain a heme ring at their active site (e.g., cytochrome c peroxidase) or a redox-sensitive moiety like selenocysteine (glutathione peroxidase; GPx), vanadium (algal bromoperoxide), or flavin (bacterial NADH peroxidase)-Prxs lack cofactor metal ions, prosthetic groups, or cofactors [9].…”

Section: Nih-pa Author Manuscriptmentioning

confidence: 99%

“…A 2-Cys Prx initially reacts with hydroperoxides at the N-terminal Cys (-SH), thus oxidizing the residue to sulfenic acid (-SOH). This cysteinyl-sulfenic acid is unstable and attacks the C-terminal Cys of a second subunit forming an intermolecular disulfide bridge (-SS-) [8]; thus there are two disulfides in a head-to-tail dimer. To regenerate the active 2-Cys Prx, the disulfide must be reduced.…”

Section: Nih-pa Author Manuscriptmentioning

confidence: 99%

A mosquito 2-Cys peroxiredoxin protects against nitrosative and oxidative stresses associated with malaria parasite infection

Peterson

Luckhart

2006

Free Radical Biology and Medicine

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Malaria parasite infection in anopheline mosquitoes induces nitrosative and oxidative stresses that limit parasite development, but also damage mosquito tissues in proximity to the response. Based on these observations, we proposed that cellular defenses in the mosquito may be induced to minimize self-damage. Specifically, we hypothesized that peroxiredoxins (Prxs), enzymes known to detoxify reactive oxygen species (ROS) and reactive nitrogen oxide species (RNOS), protect mosquito cells. We identified an Anopheles stephensi 2-Cys Prx ortholog of Drosophila melanogaster Prx-4783, which protects fly cells against oxidative stresses. To assess function, AsPrx-4783 was overexpressed in D. melanogaster (S2) and in A. stephensi (MSQ43) cells and silenced in MSQ43 cells with RNA interference before treatment with various ROS and RNOS. Our data revealed that AsPrx-4783 and DmPrx-4783 differ in host cell protection and that AsPrx-4783 protects A. stephensi cells against stresses that are relevant to malaria parasite infection in vivo, namely nitric oxide (NO), hydrogen peroxide, nitroxyl, and peroxynitrite. Further, AsPrx-4783 expression is induced in the mosquito midgut by parasite infection at times associated with peak nitrosative and oxidative stresses. Hence, whereas the NO-mediated defense response is toxic to both host and parasite, AsPrx-4783 may shift the balance in favor of the mosquito. KeywordsMalaria; Mosquito; Peroxiredoxin; Plasmodium; Anopheles; Nitric oxide; Nitrosative stress; Free radicals It has long been recognized that reactive oxygen species (ROS) and, more recently, reactive nitrogen oxide species (RNOS) function to defend hosts against pathogens [1]. Although ROS and RNOS are cytotoxic to pathogens and parasites, they also induce oxidative and nitrosative stresses in the host and can damage host tissues [1]. Host protection against oxidative and nitrosative stress, therefore, is vital for homeostasis and hence survival. Gene products that confer protection against ROS are well known. In contrast, gene products that confer protection against RNOS have been identified, but are less well studied. The peroxiredoxins (Prxs) are a recently discovered family of antioxidant peroxidases that can reduce hydrogen peroxide and alkyl hydroperoxides to water and the corresponding alcohols, respectively, and can protect cells from widely divergent organisms against a variety of nitrosative stress challenges [2][3][4][5][6].Prxs do not show sequence homology to other known antioxidant enzymes. Crystal structures of PrxI, II, V, and VI have revealed that Prxs are novel members of the thioredoxin fold * Corresponding author. Fax: +1 530 752 8692. E-mail address: sluckhart@ucdavis.edu (S. Luckhart). NIH Public Access NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript superfamily [7,8]. Unlike most peroxidases-which contain a heme ring at their active site (e.g., cytochrome c peroxidase) or a redox-sensitive moiety like selenocysteine (glutathione peroxidase; GPx), vanadium (algal bro...

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“…Peroxiredoxins (PRDXs), a family of this kind of antioxidants, are classified on the basis of having either one (1‐Cys) or two (2‐Cys) conserved cysteine residues 5. PRDX1 is a member of the 2‐Cys PRDXs subfamily and is present mainly in the cytosol 6. PRDX1 containing a cysteine at the N‐terminal Cys 52 detoxifies peroxides at the expense of Cys 52 oxidation through intermolecular disulphide formation with the other conserved C‐terminal Cys 173 residue 7.…”

Section: Introductionmentioning

confidence: 99%

Peroxiredoxin 1 – an antioxidant enzyme in cancer

Ding

Fan

2016

J Cellular Molecular Medi

160

131

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Peroxiredoxins (PRDXs), a ubiquitous family of redox‐regulating proteins, are reported of potential to eliminate various reactive oxygen species (ROS). As a major member of the antioxidant enzymes, PRDX1 can become easily over‐oxidized on its catalytically active cysteine induced by a variety of stimuli in vitro and in vivo. In nucleus, oligomeric PRDX1 directly associates with p53 or transcription factors such as c‐Myc, NF‐κB and AR, and thus affects their bioactivities upon gene regulation, which in turn induces or suppresses cell death. Additionally, PRDX1 in cytoplasm has anti‐apoptotic potential through direct or indirect interactions with several ROS‐dependent (redox regulation) effectors, including ASK1, p66Shc, GSTpi/JNK and c‐Abl kinase. PRDX1 is proven to be a versatile molecule regulating cell growth, differentiation and apoptosis. Recent studies have found that PRDX1 and/or PRDX1‐regulated ROS‐dependent signalling pathways play an important role in the progression and metastasis of human tumours, particularly in breast, oesophageal and lung cancers. In this paper, we review the structure, effector functions of PRDX1, its role in cancer and the pivotal role of ROS in anticancer treatment.

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Crystal structure of a multifunctional 2-Cys peroxiredoxin heme-binding protein 23 kDa/proliferation-associated gene product

Cited by 246 publications

References 28 publications

Redox-based regulation of signal transduction: Principles, pitfalls, and promises

Redox-based regulation of signal transduction: Principles, pitfalls, and promises

A mosquito 2-Cys peroxiredoxin protects against nitrosative and oxidative stresses associated with malaria parasite infection

Peroxiredoxin 1 – an antioxidant enzyme in cancer

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