Insights into the mechanisms involved in magnesium-dependent inhibition of primary tumor growth

International audienceWe have previously shown that a low Magnesium (Mg)-containing diet reversibly inhibits the growth of primary tumors that develop after the injection of Lewis lung carcinoma (LLC) cells in mice. Here we investigate some of the mechanisms responsible for the Mg-dependent regulation of tumor development by studying cell cycle regulation, tumor angiogenesis, and gene expression under Mg deficiency. The inhibition of LLC tumor growth in Mg-deficient mice is due to a direct effect of low Mg on LLC cell proliferation and to an impairment of the angiogenic switch. We also observed an increase of nitric oxide synthesis and oxidative DNA damage. Complementary DNA arrays reveal that Mg deficiency modulates tumor expression of genes involved in the control of cell cycle, stress response, proteolysis, and adhesion. Our results suggest that Mg has multiple and complex roles in tumor development

Magnesium and neoplasia : From carcinogenesis to tumor growth and progression or treatment

International audienceMagnesium is involved in a wide range of biochemical reactions that are crucial to cell proliferation, differentiation, angiogenesis, and apoptosis. Changes in magnesium availability have been shown to influence biological responses of immuno-inflammatory cells. Equally plausible seems to be an involvement of magnesium in the multistep and interconnected processes that lead to tumor formation and development; however, the "how" and "when" of such an involvement remain to be defined. Here, we reviewed in vitro and in vivo data that indicated a role for magnesium in many biological and clinical aspects of cancer (from neoplastic transformation to tumor growth and progression or pharmacologic treatment). In adopting this approach we went through a full circle from molecular aspects to observational or epidemiological studies that could reconcile in a unifying picture the otherwise fragmentary or puzzling data currently available on the role of magnesium in cancer

Magnesium deficiency affects mammary epithelial cell proliferation: involvement of oxidative stress.

International audienceLow Mg availability reversibly inhibited the growth of mammary epithelial HC11 cells by increasing the number of cells in the G0/G1 phase of the cell cycle. Because low Mg has been reported to promote oxidative reactions, we considered that low Mg-dependent growth arrest was mediated by oxidative stress. Surprisingly, both dichlorofluorescein-detectable reactive oxygen species and hydrogen peroxide-induced oxidative DNA damage were found to be lower in cells cultured in low Mg than in cells grown under control or high-Mg conditions. Gene expression profiling of low- and high-Mg cells showed the modulation of several genes, some regulating cell proliferation. In addition, low Mg cells also displayed overexpression of glutathione S-transferase (GST), leading to increased enzymatic activity. Of note, GST has been shown to modulate cell growth; therefore, we suggest that in low-Mg cells, GST upregulation might have a dual role in protecting against oxidative stress and in modulating cell proliferation