The Gary Null Show - 10.20.22

Video: Interview with Dr. Rupert Sheldrake (41:21) Stomach cancer cells halted with whole tomato extracts Sbarro Institute for Molecular Medicine at Temple University  October 10, 2022 The Mediterranean diet has become regarded as highly beneficial to overall health, maintaining ideal weight and a reduced risk of cancer plus many other chronic disease conditions. One of the staples of this diet is tomatoes, especially the low-acid varieties that are grown in Italy and its impact on cancer risk is quite interesting. Recent research by the Sbarro Institute for Molecular Medicine at Temple University in Philadelphia, Pa. has confirmed that two tomato cultivars grown in Southern Italy inhibit both malignant features and cellular growth in stomach cancer cells. For the study, whole tomato lipophilic extracts were analyzed for their ability to fight and diminish neoplastic features of stomach cancer cells. Both the Corbarino and San Marzano tomato varieties were found to inhibit the cloning behavior of malignant cancer cells as well as impede their growth. When tomato extracts were used on stomach cancer cells, key processes related to cell development, migration and proliferation were inhibited. The tomato extracts ultimately induced apoptosis, or cancer cell death in cancer cells. The study results were published in the Journal of Cellular Physiology. Significantly, the tomato extracts contributed to the movement of cancer cells away from the primary tumor, which resulted in their death. These anticancer effects weren’t related to just one particular compound such as lycopene. Instead, the whole tomato seemed to contribute to its anticancer effects. Previous studies had suggested the carotenoid compound lycopene, which creates the orange-red color of tomatoes, is what fights cancer cells. While lycopene may still be a major factor, the entire tomato seemed to have a highly potent effect against cancer. Amino Acid Arginine Found As Effective As Drugs For Glucose Metabolism And DiabetesUniversity of Copenhagen & University of Cincinnati, October 9, 2022 If you suffer from type 2 diabetes, you may want to consider snacking on nuts to treat the condition. Supplementation with the amino acid arginine, commonly found in almonds and hazelnuts, could help to improve glucose metabolism by as much as 40%, according to new research in mice. The study shows that supplementation with the amino acid significantly improves glucose metabolism in both insulin-sensitive and insulin-resistant metabolisms.In new experiments, researchers from the University of Copenhagen working in collaboration with a research group at the University of Cincinnati, have demonstrated that the amino acid arginine, found in salmon, eggs, and nuts, improves glucose metabolism significantly in both lean (insulin-sensitive) and obese (insulin-resistant) mice.

”In fact, the amino acid is just as effective as several well-established drugs for type 2 diabetics,” says postdoc Christoffer Clemmensen.  As improbable as it may seem, the most important molecule in regulating the function of our arteries is nitric oxide (NO), a gas better known to us as an air pollutant. As synthesized in our arteries in tiny quantities, however, NO acts as a powerful mediator of vasodilation, the mechanism by which arteries dilate, when necessary, to lower our blood pressure and increase the flow of blood to tissues that need it. The principal source of our NO is arginine. This occurs via enzyme-catalyzed reactions that occur in endothelial cells, the thin layer of smooth, tightly “tiled” cells that line the inner walls of our arteries. 

What researchers have found is that L-arginine potentiation of glucose-induced insulin secretion occurs independently of NO.

The researchers found that arginine improves glucose metabolism significantly in both lean (insulin-sensitive) and obese (insulin-resistant) mice. “We can also see that arginine increases the body’s production of glucagon-lik