Huiyun Wu scite author profile

SUMMARY:Dietary copper restriction causes heart hypertrophy in animal models. Several studies have indicated that this cardiomyopathy is mediated by oxidative stress. Metallothionein (MT), a low molecular weight and cysteine-rich protein, functions in protecting the heart from oxidative injury. We therefore used a cardiac-specific MT-overexpressing transgenic mouse model to test the hypothesis that MT inhibits copper deficiency-induced heart hypertrophy. Dams of both transgenic pups and non-transgenic littermates were fed a copper-adequate or copper-deficient diet, starting on the fourth day post-delivery, and the weanling mice were continued on the dams' diets until they were killed. Heart hypertrophy developed in copper-deficient pups by the fourth week of the combined pre-and post-weaning feeding and aggressively progressed until the end of the experiment (6 weeks). MT overexpression did not prevent the occurrence of heart hypertrophy, but inhibited the progression of this cardiomyopathy, which correlated with its suppression of cardiac lipid peroxidation. Corresponding to the progression of heart hypertrophy, myocardial apoptosis and atrial natriuretic peptide (ANP) production in the left ventricle were detected in non-transgenic copper-deficient mice; these effects were significantly suppressed in transgenic copper-deficient mice. Measurement of apoptosis by TUNEL assay and Annexin V-FITC confocal microscopy in primary cultures of cardiomyocytes revealed that ANP was largely responsible for the myocyte apoptosis and that MT inhibited ANP-induced apoptosis. The data clearly demonstrate that elevation of MT in the heart inhibits oxidative injury and suppresses the progression of heart hypertrophy in copper deficiency, although it does not block its initiation. The results suggest that MT inhibits the transition from heart hypertrophy to failure by suppressing apoptosis through inhibition of both cardiac ANP production and its apoptotic effect. (Lab Invest 2000, 80:745-757).

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Alterations in Hypertrophic Gene Expression by Dietary Copper Restriction in Mouse Heart

Kang

Saari

2000

Proc Soc Exp Biol Med

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Abstract. Dietary copper (Cu) restriction causes a hypertrophic cardiomyopathy similar to that induced by work overload in rodent models. However, a possible change in the program of hypertrophic gene expression has not been studied in the Cu‐deficient heart. This study was undertaken to fill that gap. Dams of mouse pups were fed a Cu‐deficient diet (0.35 mg/kg diet) or a Cu‐adequate control diet (6.10 mg/kg) on the fourth day after birth, and weanling mice continued on the dams′ diet until they were sacrificed. After 5 weeks of feeding, Cu concentrations were dramatically decreased in the heart and the liver of the mice fed the Cu‐deficient diet. Corresponding to these changes, serum ceruloplasmin concentrations and hepatic Cu,Zn‐superoxide dismutase activities were significantly (P < 0.05) depressed. The size of the Cu‐deficient hearts was greatly enlarged as estimated from the absolute heart weight and the ratio of heart weight to body weight. The abundances of mRNAs for atrial natriuretic factor, β‐myosin heavy chain, and α‐skeletal actin in left ventricles were all significantly increased in the Cu‐ deficient hearts. Furthermore, Cu deficiency activated the expression of the c‐myc oncogene in the left ventricle. This study thus demonstrated that a molecular program of alterations in embryonic genes, similar to that shown in the work‐overloaded heart, was activated in the hypertrophied heart induced by Cu deficiency.

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The use of biomarkers in the antioxidant responses ofDaphnia magnato the acute and chronic exposure to no. 20 diesel oil and 2,4-dichlorophenol

Wu¹,

Xu²,

Hong³

et al. 2011

Chemical Speciation & Bioavailability

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Alterations in Hypertrophic Gene Expression by Dietary Copper Restriction in Mouse Heart

Kang¹,

Wu²,

Saari³

2000

Proc Soc Exp Biol Med

View full text Add to dashboard Cite

Dietary copper (Cu) restriction causes a hypertrophic cardiomyopathy similar to that induced by work overload in rodent models. However, a possible change in the program of hypertrophic gene expression has not been studied in the Cu-deficient heart. This study was undertaken to fill that gap. Dams of mouse pups were fed a Cu-deficient diet (0.35 mg/kg diet) or a Cu-adequate control diet (6.10 mg/kg) on the fourth day after birth, and weanling mice continued on the dams' diet until they were sacrificed. After 5 weeks of feeding, Cu concentrations were dramatically decreased in the heart and the liver of the mice fed the Cu-deficient diet. Corresponding to these changes, serum ceruloplasmin concentrations and hepatic Cu,Zn-superoxide dismutase activities were significantly (P<0.05) depressed. The size of the Cu-deficient hearts was greatly enlarged as estimated from the absolute heart weight and the ratio of heart weight to body weight. The abundances of mRNAs for atrial natriuretic factor, beta-myosin heavy chain, and alpha-skeletal actin in left ventricles were all significantly increased in the Cu- deficient hearts. Furthermore, Cu deficiency activated the expression of the c-myc oncogene in the left ventricle. This study thus demonstrated that a molecular program of alterations in embryonic genes, similar to that shown in the work-overloaded heart, was activated in the hypertrophied heart induced by Cu deficiency.

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Huiyun Wu

Induction of Antioxidants by Adriamycin in Mouse Heart

Metallothionein Inhibits Myocardial Apoptosis in Copper-Deficient Mice: Role of Atrial Natriuretic Peptide

Alterations in Hypertrophic Gene Expression by Dietary Copper Restriction in Mouse Heart

The use of biomarkers in the antioxidant responses ofDaphnia magnato the acute and chronic exposure to no. 20 diesel oil and 2,4-dichlorophenol

Alterations in Hypertrophic Gene Expression by Dietary Copper Restriction in Mouse Heart

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