Trol Mean ?SD (n) 18.5 ?1.3 (6) 19.2 ?1.2 (8) 1.47 ?0.19 (6)** 3.45 ?0.82 (8) * 17.1 ?2.4 (6) 51.4 ?19 (8) * 228 ?14.7 (6) 146.4 ?12.1 (8) * RSD 7.3 6.1 12 23 13 36 6.4 8 Zn + genistein Mean ?SD (n) 17.2 ?2.3 (6) 17.0 ?1.1 (10) 1.74 ?0.45 (6) 2.87 ?0.79 (8) * 16.3 ?2.1 (5) 33.4 ?9.6 (10) * 236.8 ?18.7 (6) 160.8 ?9.3 (10) * RSD 13 6.6 26 27 12 28 7.8 5.*differences (p 0.05) between concentrations of metals in DMBA (+) and DMBA (-) groups of each type of diet **differences (p 0.05) between concentrations of metals in each type of diet (DMBA-) relative to standard diet (DMBA-) SD – standard deviation; RSD – relative standard deviation ( ); n- number of samplesBobrowska-Korczak et al. Journal of Biomedical Science 2012, 19:43 http://www.jbiomedsci.com/content/19/1/Page 5 ofTable 4 Altered calcium content in cancerous tissues (DMBA+) vs calcium content in normal tissues (DMBA-) (g/g wet weight)Diet DMBA(-) Mean (confidence interval) (n) 234.8 (73.0 – 754.8) (5) 216.4 (54.8 – 854.2) (6) 83.6 (58.5 – 119.5) (6) 64.7** (60.9 – 68.8) (5) DMBA(+) Mean (confidence interval) (n) 404.4 (178.0 – 916.7) (7) 97.8 (82.4 – 115.9) (8) 510.1* (195.4 – 1334.7) (8) 219.7* (97.9 – 493.6) (10) pStandard< 0.343 < 0.949 < 0.001 < 0.ZnZn + resveratrol Zn + genistein*differences between concentrations PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/28893839 of calcium in DMBA (+) and DMBA (-) groups of each type of diet **differences between concentrations of calcium in each type of diet (DMBA-) relative to standard diet (DMBA-)resulted in strong copper accumulation in malignant tumors. Thus it seems that a key role in this SIS3 site effective accumulation of copper was played by a combination of Zn and DMBA, and to some extent by polyphenols. Copper plays a significant role in the process of neoplastic angiogenesis. Malignant tumors can develop relatively easily up to the size of 1-2 mm3 . Their further growth requires the formation within the tumor of a network of blood vessels that ensure better cell nourishment, and also allow their expansion in the form of metastases [7]. The process of angiogenesis begins as a result of metabolic oxidative stress in tumor cells. The first stage of this process always involves the activation of endothelial cells. The copper ions have a stimulating effect on the proliferation process, through their ONO-4059 web activating role with respect to various growth factors such as VEGF (vascular endothelial growth factor), TNF (tumor necrosis factor), EGF (epidermal growth factor) or IL-1 (interleukin 1). The factors that have been activated bind with receptors in endothelial cells. As a result, the cell passes from phase G0 to phase G1 and the cell proliferation process is activated. Besides, the presence of copper is required for some proteins to obtain antigenic properties, e.g. for ceruloplasmin, angiogenin or glycyl-L-histydyl-L-lysine tripeptide [7]. The investigations of Brem and Wotoczko-Obadio [13] showed that after decreasing copper concentration by using penicillamin and a special diet poor in copper the proliferating cell can enter phase G0 again, or apoptosis can occur, as a result of which the angiogenic activity of VEGF, TNF, EGF or IL-1 is inhibited [13]. Therefore, because of a very important role of copper in tumor angiogenesis, it seems necessary to search forcompounds that would have a chelating effect or that would reduce its amount in the bloodstream. Zinc is a natural copper antagonist. Zinc-induced metallothioneins in intestinal lumen bind to copper thus inhibiting its absorption into.Trol Mean ?SD (n) 18.5 ?1.3 (6) 19.2 ?1.2 (8) 1.47 ?0.19 (6)** 3.45 ?0.82 (8) * 17.1 ?2.4 (6) 51.4 ?19 (8) * 228 ?14.7 (6) 146.4 ?12.1 (8) * RSD 7.3 6.1 12 23 13 36 6.4 8 Zn + genistein Mean ?SD (n) 17.2 ?2.3 (6) 17.0 ?1.1 (10) 1.74 ?0.45 (6) 2.87 ?0.79 (8) * 16.3 ?2.1 (5) 33.4 ?9.6 (10) * 236.8 ?18.7 (6) 160.8 ?9.3 (10) * RSD 13 6.6 26 27 12 28 7.8 5.*differences (p 0.05) between concentrations of metals in DMBA (+) and DMBA (-) groups of each type of diet **differences (p 0.05) between concentrations of metals in each type of diet (DMBA-) relative to standard diet (DMBA-) SD – standard deviation; RSD – relative standard deviation ( ); n- number of samplesBobrowska-Korczak et al. Journal of Biomedical Science 2012, 19:43 http://www.jbiomedsci.com/content/19/1/Page 5 ofTable 4 Altered calcium content in cancerous tissues (DMBA+) vs calcium content in normal tissues (DMBA-) (g/g wet weight)Diet DMBA(-) Mean (confidence interval) (n) 234.8 (73.0 – 754.8) (5) 216.4 (54.8 – 854.2) (6) 83.6 (58.5 – 119.5) (6) 64.7** (60.9 – 68.8) (5) DMBA(+) Mean (confidence interval) (n) 404.4 (178.0 – 916.7) (7) 97.8 (82.4 – 115.9) (8) 510.1* (195.4 – 1334.7) (8) 219.7* (97.9 – 493.6) (10) pStandard< 0.343 < 0.949 < 0.001 < 0.ZnZn + resveratrol Zn + genistein*differences between concentrations PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/28893839 of calcium in DMBA (+) and DMBA (-) groups of each type of diet **differences between concentrations of calcium in each type of diet (DMBA-) relative to standard diet (DMBA-)resulted in strong copper accumulation in malignant tumors. Thus it seems that a key role in this effective accumulation of copper was played by a combination of Zn and DMBA, and to some extent by polyphenols. Copper plays a significant role in the process of neoplastic angiogenesis. Malignant tumors can develop relatively easily up to the size of 1-2 mm3 . Their further growth requires the formation within the tumor of a network of blood vessels that ensure better cell nourishment, and also allow their expansion in the form of metastases [7]. The process of angiogenesis begins as a result of metabolic oxidative stress in tumor cells. The first stage of this process always involves the activation of endothelial cells. The copper ions have a stimulating effect on the proliferation process, through their activating role with respect to various growth factors such as VEGF (vascular endothelial growth factor), TNF (tumor necrosis factor), EGF (epidermal growth factor) or IL-1 (interleukin 1). The factors that have been activated bind with receptors in endothelial cells. As a result, the cell passes from phase G0 to phase G1 and the cell proliferation process is activated. Besides, the presence of copper is required for some proteins to obtain antigenic properties, e.g. for ceruloplasmin, angiogenin or glycyl-L-histydyl-L-lysine tripeptide [7]. The investigations of Brem and Wotoczko-Obadio [13] showed that after decreasing copper concentration by using penicillamin and a special diet poor in copper the proliferating cell can enter phase G0 again, or apoptosis can occur, as a result of which the angiogenic activity of VEGF, TNF, EGF or IL-1 is inhibited [13]. Therefore, because of a very important role of copper in tumor angiogenesis, it seems necessary to search forcompounds that would have a chelating effect or that would reduce its amount in the bloodstream. Zinc is a natural copper antagonist. Zinc-induced metallothioneins in intestinal lumen bind to copper thus inhibiting its absorption into.
Calcimimetic agent
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