Dissecting copper homeostasis in diabetes mellitus

Lowe, Jennifer; Taveira-da-Silva, Rosilane; Hilário-Souza, Elaine

doi:10.1002/iub.1614

Cited by 63 publications

(51 citation statements)

References 66 publications

(83 reference statements)

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“…Transition between Cu(I) and Cu(II) leads to the production of reactive oxygen species (ROS) and to consequent peroxidation of lipids, DNA damage leading to cell death. Therefore, copper homeostasis maintenance using copper chelators may represent a strategy for diabetes treatment [16]. A series of pre-clinical and clinical studies demonstrated the potential of trientine in reducing some of the clinical and pathological consequences of diabetes, such as heart failure [88].…”

Section: Diabetes Mellitusmentioning

confidence: 99%

“…ATPase copper-transporting alpha (ATP7A) and ATPase copper-transporting beta (ATP7B) are key players in copper homeostasis being required for copper delivery to the secretory pathway and for efflux of excess copper from the cell. Deregulation of this delicate balance that maintains copper homeostasis has been associated with The aim of the present review is to provide a global overview on the main different chelation therapy approaches which have been evaluated for the treatment of the diseases in which copper imbalance has a key role in the onset of the pathology, including genetic diseases of copper metabolism such as Wilson's diseases [8], neurodegenerative diseases such as Alzheimer's and Parkinson's diseases [14], idiopathic pulmonary fibrosis [15], diabetes [16], and different forms of cancer [17].…”

Section: Introductionmentioning

confidence: 99%

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Current Biomedical Use of Copper Chelation Therapy

Baldari

Rocco

Toietta

2020

IJMS

114

105

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Copper is an essential microelement that plays an important role in a wide variety of biological processes. Copper concentration has to be finely regulated, as any imbalance in its homeostasis can induce abnormalities. In particular, excess copper plays an important role in the etiopathogenesis of the genetic disease Wilson’s syndrome, in neurological and neurodegenerative pathologies such as Alzheimer’s and Parkinson’s diseases, in idiopathic pulmonary fibrosis, in diabetes, and in several forms of cancer. Copper chelating agents are among the most promising tools to keep copper concentration at physiological levels. In this review, we focus on the most relevant compounds experimentally and clinically evaluated for their ability to counteract copper homeostasis deregulation. In particular, we provide a general overview of the main disorders characterized by a pathological increase in copper levels, summarizing the principal copper chelating therapies adopted in clinical trials.

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Section: Diabetes Mellitusmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Current Biomedical Use of Copper Chelation Therapy

Baldari

Rocco

Toietta

2020

IJMS

114

105

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“…Recent results indicate that altered serum Cu homeostasis has an important role in diabetes, obesity, metabolic syndrome and non-alcoholic fatty-liver disease (NAFLD). 25,26 In fact, diabetes mellitus and obesity are known to correlate with an imbalance of transition metals, including Cu. 27 Oxidative stress, insulin resistance, end-product molecules, adipokines, pro-inflammatory cytokines and mitochondrial dysfunction are all related to higher Cu serum levels and are implicated in the development and progression of several chronic inflammatory diseases.…”

Section: Cu and Metabolic Diseasesmentioning

confidence: 99%

Is copper a new target to counteract the progression of chronic diseases?

Balsano¹,

Porcu²,

Sideri³

2018

Metallomics

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“…•− , whereas interaction with H 2 O 2 may generate OH˙in the Fenton and Haber-Weiss reactions [11]. The transition of Cu(I) and Cu(II) may result in the generation of ROS and it may further lead to the oxidation of protein and other molecules [12,13].…”

Section: Introductionmentioning

confidence: 99%

The Influence of Taurine Supplementation on Serum and Tissular Fe, Zn and Cu Levels in Normal and Diet-Induced Insulin-Resistant Rats

Król

Okulicz

Kupsz

2020

Biol Trace Elem Res

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Taurine (Tau) is a β-sulphonated amino acid postulated to improve glucose homeostasis in insulin resistance and diabetes. Changes in carbohydrate metabolism are accompanied by oxidative stress, which may disturb the mineral balance. Therefore, the aim of this study was to assess the effect of Tau supplementation on the levels of trace elements in rats fed either a standard (AIN-93M, 4% fat) diet or a modified high-fat diet (30% fat). For 8 weeks, male Wistar rats were fed these diets supplemented with 3% Tau. Taurine supplementation normalized increased serum insulin concentration and insulin resistance index; however, it did not improve serum CRP concentration in high-fat diet fed rats. The high-fat diet supplemented with Tau decreased the renal and splenic Zn levels, but the tissular Fe content did not change. The effect of Tau supplementation on the mineral balance to some extent depended on the fat content in the rats' diet. The high-fat diet supplemented with Tau decreased the rats' splenic Zn levels but increased their femur levels. In the group fed the standard diet, Tau reduced the rats' femur Zn level, whereas their splenic Zn level was comparable. Tau supplementation decreased the renal Cu level and serum ceruloplasmin concentration in the rats fed the standard diet, but this effect was not observed in the rats fed the high-fat diet. In conclusion, supplementary taurine failed to ameliorate disturbances in mineral homeostasis caused by high-fat diet feeding and led to tissular redistribution of Zn and Cu in the rat.

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Dissecting copper homeostasis in diabetes mellitus

Cited by 63 publications

References 66 publications

Current Biomedical Use of Copper Chelation Therapy

Current Biomedical Use of Copper Chelation Therapy

Is copper a new target to counteract the progression of chronic diseases?

The Influence of Taurine Supplementation on Serum and Tissular Fe, Zn and Cu Levels in Normal and Diet-Induced Insulin-Resistant Rats

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