Magnesium deficiency with high calcium-to-magnesium ratio promotes a metastatic phenotype in the CT26 colon cancer cell line.

Magnesium (Mg) plays important roles in maintaining genomic stability and cellular redox. Mg also serves as nature's physiological calcium (Ca) channel antagonist, controlling intracellular Ca entry. Because Ca is the most important second messenger, its intracellular concentration is tightly regulated. Excess intracellular Ca can activate aberrant signaling pathways leading to the acquisition of pathological characteristics and cell injury. Several epidemiological studies have linked Mg deficiency (MgD) and increased Ca:Mg ratios with higher incidences of colon cancer and increased mortality. While it is estimated that less than 50% of the US population consumes the recommended daily allowance for Mg, Ca supplementation is widespread. Therefore, we studied the effect of MgD, with variable Ca:Mg ratios on cellular oxidative stress, cell migration, calpain activity, and associated signaling pathways using the CT26 colon cancer cell line. MgD (with Ca:Mg ratios >1) elevated intracellular Ca levels, calpain activity and TRPM7 expression, as well as oxidative stress and cell migration, consistent with observed degradation of full-length E-cadherin, ß-catenin, and N-terminal FAK. MgD was accompanied by enhanced degradation of IκBα and the transactivation domain containing the C-terminus of NF-κB p65 (RelA). MgD-exposed CT26 cells exhibited increased p53 degradation and aneuploidy, markers of genomic instability. By contrast, these pathological changes were not observed when CT26 were cultured under MgD conditions where the Ca:Mg ratio was kept at 1. Together, these data support that exposure of colon cancer cells to MgD with physiological Ca concentrations (or increasing Ca:Mg ratios) leads to the acquisition of a more aggressive, metastatic phenotype.

Magnesium improves cisplatin-mediated tumor killing while protecting against cisplatin-induced nephrotoxicity.

Approximately 30% of all cancer patients treated with cisplatin, a widely used broad-spectrum chemotherapeutic agent, experience acute kidney injury (AKI). Almost all patients receiving cisplatin have magnesium (Mg) losses, which are proposed to aggravate AKI. Currently, there are no methods to successfully treat or prevent cisplatin-AKI. Whereas Mg supplementation has been shown to reduce AKI in experimental models and several small clinical trials, the effects of Mg status on tumor outcomes in immunocompetent tumor-bearing mice and humans have not been investigated. The purpose of this study was to further examine the effects of Mg deficiency (±Mg supplementation) on cisplatin-mediated AKI and tumor killing in immunocompetent mice bearing CT26 colon tumors. Using a model where cisplatin alone (20 mg/kg cumulative dose) produced minimal kidney injury, Mg deficiency significantly worsened cisplatin-mediated AKI, as determined by biochemical markers (blood urea nitrogen and plasma creatinine) and histological renal changes, as well as markers of renal oxidative stress, inflammation, and apoptosis. By contrast, Mg supplementation blocked cisplatin-induced kidney injury. Using LLC-PK1 renal epithelial cells, we observed that Mg deficiency or inhibition of Mg uptake significantly enhanced cisplatin-induced cytotoxicity, whereas Mg supplementation protected against cytotoxicity. However, neither Mg deficiency nor inhibition of Mg uptake impaired cisplatin-mediated killing of CT26 tumor cells in vitro. Mg deficiency was associated with significantly larger CT26 tumors in BALB/c mice when compared with normal-fed control mice, and Mg deficiency significantly reduced cisplatin-mediated tumor killing in vivo. Finally, Mg supplementation did not compromise cisplatin's anti-tumor efficacy in vivo.

Isolation and identification of new phytoconstituents from the fruit extract of Amomum subulatum Roxb.

The fruits of Amomum subulatum Roxb. (Zingiberaceae) (large cardamom), cultivated in the northern Himalayas, are used to treat stomach disorders, pulmonary diseases and liver complaints. Phytochemical investigation of the fruits led to the isolation of four new chemical compounds characterised as geranil-3(10)-en-9-olyl octadec-9-enoate, geranil-3(10)-en-9-carboxyl-ß-D-arabinopyranoside, geranilan-9-carboxy-α-L-arabinopyranoside and stigmast-5-en-3ß-ol-3ß-D-arabinopyranosyl-2'-(3″-methoxy) benzoate-3'-octadec-9‴,12‴,15‴-trienoate, along with the known compounds oleodilinolein and glyceryl trilinoleniate on the basis of spectral data analysis.

Current concepts and prospects of herbal nutraceutical: A review.

Nutraceuticals are food or part of food that provides medical or health benefits including the prevention and/or treatment of a disease. Nutraceutical has advantage over the medicine because they avoid side effect, have naturally dietary supplement, etc. Nutraceutical; on the basis of their natural source, chemical grouping, categories into three key terms -nutrients, herbals, dietary supplements, dietary fiber, etc. The most rapidly growing segments of the industry were dietary supplements (19.5 percent per year) and natural/herbal products (11.6 percent per year). Global nutraceutical market is estimated as USD 117 billion. FDA regulated dietary supplements as foods to ensure that they were safe. In 2006, the Indian government passed Food Safety and Standard Act to regulate the nutraceutical industry. Herbal nutraceutical is used as a powerful instrument in maintaining health and to act against nutritionally induced acute and chronic diseases, thereby promoting optimal health, longevity, and quality of life.