Comment on Huang et al. Influence of Varied Dietary Cholesterol Levels on Lipid Metabolism in Hamsters. Nutrients 2024, 16, 2472
Leslie M. Klevay

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TopicsAdipose Tissue and Metabolism · Cancer, Lipids, and Metabolism · Diet and metabolism studies
Huang et al. [1] fed groups of Syrian hamsters diets with graded doses of cholesterol for eight weeks. As expected, plasma cholesterol increased from a control value of 135 to 422 mg/dL for animals fed 1% cholesterol. Hepatic glutathione also decreased by 26%. The authors allude to antioxidant defense and oxidative damage, etc. Glutathione may affect these processes related to cardiovascular disease.
Copper deficiency induced by cholesterol feeding has been confirmed several times in four independent laboratories [2] since its discovery more than three decades ago [3]. Wei et al. [4] produced copper deficiency in mice that was verified by decreased cardiac superoxide dismutase (SOD) and serum copper. Cardiac glutathione also decreased; this finding resembles the decrease in hepatic glutathione found by Huang et al. [1].
It may seem odd that lipid peroxidation in the liver was decreased [1] if copper deficiency was induced. A comparison of metabolic changes in several evaluations of copper status in animals and people revealed a wide range of changes: 11 to 94% [5]. Perhaps lipid peroxidation is comparatively resistant to deficiency [6].
Kuhn [7] suggests that when scientists fail to recognize and control a relevant variable, experiments must be performed again. Perhaps the authors [1] will repeat their experiments with an extra group fed increased dietary copper to determine which of their findings depends on adequate copper. Measurements of copper status such as ceruloplasmin, serum copper, and SOD will be helpful. Ceruloplasmin may be a less sensitive measure of copper deficiency than SOD [5,8], which may play an important role in shielding intracellular components from oxidative damage [9].
The reference list from the paper itself. Each links out to its DOI / PubMed record.
- 1Huang C.-H. Hsu H.-S. Chiang M.-T. Influence of Varied Dietary Cholesterol Levels on Lipid Metabolism in Hamsters Nutrients 202416247210.3390/nu 1615247239125351 PMC 11314022 · doi ↗ · pubmed ↗
- 2Klevay L.M. Metabolic interactions among dietary cholesterol, copper, and fructose Am. J. Physiol.-Endocrinol. Metab.2010298 E 138E 13910.1152/ajpendo.00591.200920009038 · doi ↗ · pubmed ↗
- 3Klevay L.M. Dietary cholesterol lowers liver copper in rabbits Biol. Trace Elem. Res.198816515710.1007/BF 027953332484535 · doi ↗ · pubmed ↗
- 4Wei T. Wang Q. Chen T. Zhou Z. Li S. Li Z. Zhang D. The possible association of mitochondrial fusion and fission in copper deficiency-induced oxidative damage and mitochondrial dysfunction of the heart J. Trace Elem. Med. Biol.20248512748310.1016/j.jtemb.2024.12748338878467 · doi ↗ · pubmed ↗
- 5Klevay L.M. Diagnosis of copper deficiency (Rapid responce to Chhertri, SK, et al. Published 2014 Jun 17. doi:10:1136/bmj.g 3691)BMJ 2014348 g 3691 click Copper deficiency I The BMJ, and Responses 2493853110.1136/bmj.g 3691 · doi ↗ · pubmed ↗
- 6Youmans J.B. Deficiency diseases A Textbook of Medicine 9th ed. Cecil R.L. Loeb R.F. Gutman A.B. Mc Dermott W. Wolff H.G. W. B. Saunders Philadelphia, PA, USA 1955588591
- 7Kuhn T.S. The Structure of Scientific Revolutions 2nd ed.The University of Chicago Press Chicago, IL, USA 197059
- 8Di Silvestro R.A. Joseph E.L. Zhang W. Raimo A.E. Kim Y.M. A randomized trial of copper supplementation effects on blood copper enzyme activities and parameters related to cardiovascular health Metabolism 2012611242124610.1016/j.metabol.2012.02.00222444781 · doi ↗ · pubmed ↗
