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Short-term magnesium deficiency downregulates telomerase, upregulates neutral sphingomyelinase and induces oxidative DNA damage in cardiovascular tissues: relevance to atherogenesis, cardiovascular diseases and aging.
Nilank C Shah, Gatha J Shah, Zhiqiang Li, Xian‐Cheng Jiang, Bella T. Altura, Burton M. Altura
PubMed · 2014 · ▲ 55 citations
Abstract
THE PRESENT WORK TESTED THE HYPOTHESES THAT: 1) short-term dietary deficiency of magnesium (Mg; 21 days) in rats (MgD) would result in a downregulation of telomerase in cardiac and aortic smooth muscle cells, 2) low levels of Mg(2+) added to drinking water (DW) would either prevent or greatly reduce the downregulation of telomerase in MgD, 3) MgD in rats would cause an upregulation of neutral-sphingomyelinase (N-SMAse) and p53, 4) short-term MgD would result in oxidation of DNA in diverse cardiac muscle and aortic smooth muscle cells as exemplified by measurement of 8-hydroxydeoxyguanosine (8-OH-dG), and 5) cross-talk between telomerase, N-SMase, p53, and 8-OH-dG would be evident in left ventricular (LV), right ventricular (RV), atrial and aortic smooth muscle obtained from rats subjected to short-term MgD. The data indicated that short-term MgD (10% normal dietary intake) resulted in downregulation of telomerase in LV, RV, atrial and aortic muscle cells; even very low levels of water-bourne Mg(2+) (e.g., 15-40 mg/lday) either prevented or ameliorated the downregulation of telomerase. Our experiments also showed that MgD resulted in a 7-10 fold increased formation of 8-OH-dG in the cardiac and aortic muscle cells. The experiments also confirmed that short-term dietary deficiency of Mg resulted in greatly increased upregulation of N-SMAse and p53 in the cardiac and aortic muscle tissues. These new experiments point to a sizeable cross-talk among telomerase, N-SMAse, and p53 in rat cardiac and peripheral vascular muscle exposed to a short-term MgD. These studies would be compatible with the idea that even short-term MgD could cause alterations of the genome in diverse cell types leading to mutations of cardiac, vascular, and endothelial cells seen in aging and atherogenesis. Since we have shown, previously, that activation of N-SMAse in MgD leads to synthesis and release of ceramide in cardiovascular tissues and cells, we believe this pathway, most likely, helps to result in downregulation of telomerase, upregulation of transcription factors (e.g., p53; NF-kB), cytokine release, mutations, transformations, and dysfunctional growth seen in the cardiac and vascular cells observed in the normal aging process, atherogenesis, hypertension, and cardiac failure. Lastly, we suggest ways in which this hypothesis can be tested.
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APA
Shah, N.C., Shah, G.J., Li, Z., Jiang, X., Altura, B.T., & Altura, B.M. (2014). Short-term magnesium deficiency downregulates telomerase, upregulates neutral sphingomyelinase and induces oxidative DNA damage in cardiovascular tissues: relevance to atherogenesis, cardiovascular diseases and aging. <em>PubMed</em>. https://openalex.org/W1523733768
Vancouver
Shah NC, Shah GJ, Li Z, Jiang X, Altura BT, Altura BM. Short-term magnesium deficiency downregulates telomerase, upregulates neutral sphingomyelinase and induces oxidative DNA damage in cardiovascular tissues: relevance to atherogenesis, cardiovascular diseases and aging. PubMed. 2014.
BibTeX
@unpublished{nilank2014Shortt,
title = {Short-term magnesium deficiency downregulates telomerase, upregulates neutral sphingomyelinase and induces oxidative DNA damage in cardiovascular tissues: relevance to atherogenesis, cardiovascular diseases and aging.},
author = {Nilank C Shah and Gatha J Shah and Zhiqiang Li and Xian‐Cheng Jiang and Bella T. Altura and Burton M. Altura},
journal = {PubMed},
year = {2014},
}
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