Regulation of PDGF signalling and vascular remodelling by peroxiredoxin II

Choi, Myoung Hwan; Lee, In Kyung; Kim, Gyung Whan; Kim, Bang Ul; Han, Ying‐Hao; Yu, Dae‐Yeul; Park, Hye Sun; Kim, Kyung Yong; Lee, Jong Seo; Choi, Chulhee; Bae, Yun Soo; Lee, Ki Young; Rhee, Sue Goo; Kang, Sang Won

doi:10.1038/nature03587

Cited by 369 publications

(343 citation statements)

References 23 publications

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“…Peroxiredoxins have diverse functions in cellular defense-signaling pathways [25], and 2-Cys peroxiredoxin plays direct roles in cellular-signaling events [25-27]. Although its functional significance is unclear, heat-induced dephosphorylation of 2-Cys peroxiredoxin may be involved in the transduction of cellular-signaling.…”

Section: Discussionmentioning

confidence: 99%

Phosphoproteins regulated by heat stress in rice leaves

Chen

Zhang

et al. 2011

Proteome Sci

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BackgroundHigh temperature is a critical abiotic stress that reduces crop yield and quality. Rice (Oryza sativa L.) plants remodel their proteomes in response to high temperature stress. Moreover, phosphorylation is the most common form of protein post-translational modification (PTM). However, the differential expression of phosphoproteins induced by heat in rice remains unexplored.MethodsPhosphoprotein in the leaves of rice under heat stress were displayed using two-dimensional electrophoresis (2-DE) and Pro-Q Diamond dye. Differentially expressed phosphoproteins were identified by MALDI-TOF-TOF-MS/MS and confirmed by Western blotting.ResultsTen heat-phosphoproteins were identified from twelve protein spots, including ribulose bisphos-phate carboxylase large chain, 2-Cys peroxiredoxin BAS1, putative mRNA binding protein, Os01g0791600 protein, OSJNBa0076N16.12 protein, putative H(+)-transporting ATP synthase, ATP synthase subunit beta and three putative uncharacterized proteins. The identification of ATP synthase subunit beta was further validated by Western-blotting. Four phosphorylation site predictors were also used to predict the phosphorylation sites and the specific kinases for these 10 phosphoproteins.ConclusionHeat stress induced the dephosphorylation of RuBisCo and the phosphorylation of ATP-β, which decreased the activities of RuBisCo and ATP synthase. The observed dephosphorylation of the mRNA binding protein and 2-Cys peroxiredoxin may be involved in the transduction of heat-stress signaling, but the functional importance of other phosphoproteins, such as H+-ATPase, remains unknown.

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Section: Discussionmentioning

confidence: 99%

Phosphoproteins regulated by heat stress in rice leaves

Chen

Zhang

et al. 2011

Proteome Sci

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“…Over-oxidation of Prx is believed to occur when H 2 O 2 concentrations exceed the capacity of Prx regeneration by the Trx system, and originally was proposed to act as a "floodgate" to promote H 2 O 2 signaling [61]. While a small portion of PrxI and II have been reported to be hyper-oxidized in response to physiological stimuli, PrxII dampens signaling through interactions with the PDGF receptor in the absence of hyper-oxidation [62].…”

Section: Control Of H 2 O 2 Tonementioning

confidence: 99%

“…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

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698

652

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“…Based on observations that NOX-dependent signaling is in many cases mitigated by H 2 O 2 -degrading enzymes such as catalase or peroxiredoxins (39,55,56), it is commonly assumed that H 2 O 2 is the active signaling molecule in these signaling pathways. Indeed, H 2 O 2 readily oxidizes cysteine thiolate moieties, e.g.…”

Section: Superoxide As a Signaling Moleculementioning

confidence: 99%

“…Additionally, NOX-mediated effects on e.g. cell proliferation or migration also depend on strict spatial localization of NOX activation in association with the cytoskeleton (70,71) or in membrane rafts (43,72,73), and on direct interactions with target proteins (3,43,55). This allows for effective oxidative signaling in the presence of abundant cytosolic antioxidant mechanisms (Cu/Zn SOD, GSH peroxidase), and assures confined oxidant production and target specificity.…”

Section: Location Mattersmentioning

confidence: 99%

NADPH oxidases in lung biology and pathology: Host defense enzymes, and more

Vliet

2008

Free Radical Biology and Medicine

187

192

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The deliberate production of reactive oxygen species (ROS) by phagocyte NADPH oxidase is widely appreciated as a critical component of antimicrobial host defense. Recently, additional homologs of NADPH oxidase (NOX) have been discovered throughout the animal and plant kingdoms, which appear to possess diverse functions in addition to host defense, including cell proliferation, differentiation, and regulation of gene expression. Several of these NOX homologs are also expressed within the respiratory tract, where they participate in innate host defense as well as in epithelial and inflammatory cell signaling and gene expression, and fibroblast and smooth muscle cell proliferation, in response to bacterial or viral infection and environmental stress. Inappropriate expression or activation of NOX/DUOX during various lung pathologies suggests their specific involvement in respiratory disease. This review summarizes the current state of knowledge regarding the general functional properties of mammalian NOX enzymes, and their specific importance in respiratory tract physiology and pathology.

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Regulation of PDGF signalling and vascular remodelling by peroxiredoxin II

Cited by 369 publications

References 23 publications

Phosphoproteins regulated by heat stress in rice leaves

Phosphoproteins regulated by heat stress in rice leaves

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

NADPH oxidases in lung biology and pathology: Host defense enzymes, and more

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