Role of Copper Transport Protein Antioxidant 1 in Angiotensin II–Induced Hypertension

Ozumi, Kiyoshi; Varadarajan, Sudhahar; Kim, Ha Won; Chen, Gin‐Fu; Kohno, Takashi; Finney, Lydia; Vogt, Stefan; McKinney, Ronald; Ushio‐Fukai, Masuko; Fukai, Tohru

doi:10.1161/hypertensionaha.111.189571

Cited by 60 publications

(61 citation statements)

References 37 publications

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“…These pioneering studies were subsequently replicated in a mammalian system, where genetic inactivation of a mouse Atx1 ortholog (Atox1) was found to greatly impair copper delivery from placenta to fetus resulting in copper deficiency and high mortality of newborn pups (29). More recent studies using Atox1 -/ -mice with a different genetic background found less copper deficiency and mortality compared to the earlier report (72). However, this latter study revealed a significant inhibitory effect of Atox1 inactivation on copper delivery (via Cu-ATPase ATP7A) to SOD3, an important antioxidant molecule at the cell surface.…”

Section: Discovery Of Dual Function Of Atox1mentioning

confidence: 90%

“…However, this latter study revealed a significant inhibitory effect of Atox1 inactivation on copper delivery (via Cu-ATPase ATP7A) to SOD3, an important antioxidant molecule at the cell surface. In addition, downregulation of SOD3 mRNA and protein in response to Atox1 inactivation was observed, making connection between copper metabolism and anti-oxidant defense even more intertwined (72 These findings opened an avenue for intensive investigations of biochemical properties of Atox1 and the mechanism of Atox1-mediated copper delivery to the secretory pathway. Over the years, great progress has been made in these areas Copper enters the cell through the high-affinity copper transporter Ctr1 and binds to cytosolic copper chaperones (Atox1 and CCS) and/or small thiol molecules such as glutathione for further intracellular distribution (''Labile'' Cu pool).…”

Section: Discovery Of Dual Function Of Atox1mentioning

confidence: 95%

“…Data obtained in several different organisms indicate that, although important, Atox1 is not obligatory for the activity of the copper-exporting systems, and may only be required for copper export via secretory pathway when copper is limiting. Mice and flies with the genetically deleted Atox1 are born and develop into adulthood, whereas this does not happen if they lack active copper transporters (34,72). New data have emerged showing a protective effect of Atox1 on cells' growth in low GSH (30) along with the studies illustrating the dual role of Atox1 in maintaining the mRNA levels for the secreted Cu/Zndependent superoxide dismutase 3, SOD3 along with transferring copper to SOD3 during biosynthesis (42).…”

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confidence: 99%

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An Expanding Range of Functions for the Copper Chaperone/Antioxidant Protein Atox1

Hatori

Lutsenko²

2013

Antioxidants & Redox Signaling

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Section: Discovery Of Dual Function Of Atox1mentioning

confidence: 90%

Section: Discovery Of Dual Function Of Atox1mentioning

confidence: 95%

mentioning

confidence: 99%

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An Expanding Range of Functions for the Copper Chaperone/Antioxidant Protein Atox1

Hatori

Lutsenko²

2013

Antioxidants & Redox Signaling

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“…The physical association between ATP7A and SOD3 in angiotensin II-treated mutant mice attests to the attempt to rescue the increase of vascular superoxide through an enhanced loading of the antioxidant cuproenzyme with copper [141]. Ozumi et al [142] pointed out the role of the cytosolic copper transport protein ATOX1, from which ATP7A pumps obtain copper ions, in the vascular response to angiotensin II. The importance of ATOX1 in such a context is emphasized by the restricted intracellular copper content (10 -18 M ) [76].…”

Section: Role Of Copper Transport Systems During Angiogenesismentioning

confidence: 99%

“…The importance of ATOX1 in such a context is emphasized by the restricted intracellular copper content (10 -18 M ) [76]. An enhanced copper egress from endothelia has been detected in response to angiotensin II, associated with active SOD3 biosynthesis and release [142]. Interestingly, a recent study on vascular complications in diabetes mellitus induced in mice evidenced a reduced expression of ATP7A in blood vessels, associated with an impairment of SOD3 activity [143].…”

Section: Role Of Copper Transport Systems During Angiogenesismentioning

confidence: 99%

Behind the Link between Copper and Angiogenesis: Established Mechanisms and an Overview on the Role of Vascular Copper Transport Systems

Urso

Maffia²

2015

J Vasc Res

123

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Angiogenesis critically sustains the progression of both physiological and pathological processes. Copper behaves as an obligatory co-factor throughout the angiogenic signalling cascades, so much so that a deficiency causes neovascularization to abate. Moreover, the progress of several angiogenic pathologies (e.g. diabetes, cardiac hypertrophy and ischaemia) can be tracked by measuring serum copper levels, which are being increasingly investigated as a useful prognostic marker. Accordingly, the therapeutic modulation of body copper has been proven effective in rescuing the pathological angiogenic dysfunctions underlying several disease states. Vascular copper transport systems profoundly influence the activation and execution of angiogenesis, acting as multi-functional regulators of apparently discrete pro-angiogenic pathways. This review concerns the complex relationship among copper-dependent angiogenic factors, copper transporters and common pathological conditions, with an unusual accent on the multi-faceted involvement of the proteins handling vascular copper. Functions regulated by the major copper transport proteins (CTR1 importer, ATP7A efflux pump and metallo-chaperones) include the modulation of endothelial migration and vascular superoxide, known to activate angiogenesis within a narrow concentration range. The potential contribution of prion protein, a controversial regulator of copper homeostasis, is discussed, even though its angiogenic involvement seems to be mainly associated with the modulation of endothelial motility and permeability.

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A Copper Story: From Protein Folding and Metal Transport to Cancer

Wittung-Stafshede

2016

Israel Journal of Chemistry

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Enzymes need to fold into unique three‐dimensional structures in order to function. Copper ions are cofactors in many essential enzymes. Such enzymes need to couple polypeptide folding with metal incorporation, as the metal sites are often integrated within the folded structure. Since free copper ions are toxic, most organisms have highly specialized copper transport systems. The human cytoplasmic copper chaperone Atox1 delivers copper to P1B‐type ATPases in the Golgi, for incorporation into copper‐dependent enzymes following the secretory path. Copper plays key roles in cancer development, as copper‐dependent enzymes are needed for tumor growth and metastasis. In addition, platinum‐based drugs are exported out of cells by the copper transport machinery. Recent findings also imply that some copper transport proteins regulate cell growth and development. In this brief journey of my later career, I will discuss the roles of copper in protein folding, mechanisms of copper ion transport, and cisplatin hitchhiking. The identification of new partners for Atox1 underscore the importance of further research in this area for combating cancer.

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Role of Copper Transport Protein Antioxidant 1 in Angiotensin II–Induced Hypertension

Cited by 60 publications

References 37 publications

An Expanding Range of Functions for the Copper Chaperone/Antioxidant Protein Atox1

An Expanding Range of Functions for the Copper Chaperone/Antioxidant Protein Atox1

Behind the Link between Copper and Angiogenesis: Established Mechanisms and an Overview on the Role of Vascular Copper Transport Systems

A Copper Story: From Protein Folding and Metal Transport to Cancer

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