Concomitant tumor resistance (CR) is a phenomenon originally described in 1906 in which a tumor-bearing host is resistant to the growth of secondary tumor implants and metastasis. Although recent studies have indicated that T-cell-dependent processes mediate CR in hosts bearing immunogenic small tumors, manifestations of CR induced by immunogenic and nonimmunogenic large tumors have been associated with an elusive serum factor. In this study, we identify this serum factor as tyrosine in its meta and ortho isoforms. In three different murine models of cancer that generate CR, both meta-tyrosine and ortho-tyrosine inhibited tumor growth. In addition, we showed that both isoforms of tyrosine blocked metastasis in a fourth model that does not generate CR but is sensitive to CR induced by other tumors. Mechanistic studies showed that the antitumor effects of the tyrosine isoforms were mediated, in part, by early inhibition of mitogen-activated protein/extracellular signal-regulated kinase pathway and inactivation of STAT3, potentially driving tumor cells into a state of dormancy. By revealing a molecular basis for the classical phenomenon of CR, our findings may stimulate new generalized approaches to limit the development of metastases that arise after resection of primary tumors, an issue of pivotal importance to oncologists and their patients. Cancer Res; 71(22); 7113-24. Ó2011 AACR.
Background/Aims: Diabetes mellitus may impact on the regulation of renal Na+-glucose cotransporter type 2 (SGLT2), however, previous studies have yielded conflicting results on the effects of streptozotocin (STZ)-induced diabetes on SGLT-mediated glucose transport. Methods: Diabetes was induced in male Wistar rats. The studies were performed at 3 (D3), 7 (D7) and 14 (D14) days after a single i.p. injection of STZ. SGLT2 activity was measured using α-14C-methyl glucose uptake in brush-border vesicles (BBV) from renal cortex, and SGLT2 expression was assessed by immunoblotting. Phospholipids were quantified by a modification of Fiske-Subarow‘s method after being separated by thin-layer chromatography. Results: Glucose uptake was reduced in all groups of diabetic rats. SGLT2 expression decreased in D3 and D7. There was a decrease in sphingomyelin (SM) content and an increase in phosphatidylcholine (PC) content in BBV from D14 versus control, without differences in phosphatidylinositol (PI), phosphatidylserine (PS) and phosphatidylethanolamine (PE). Conclusion: The downregulation of SGLT2 activity during STZ-induced diabetes may be a protective mechanism to control the excess of circulating glucose and could be a consequence of a decrease in SGLT2 expression in D3 and D7, whereas altered activity of SGLT2 in D14 could be a consequence of changes in membrane lipid composition. However, we cannot discard the possibility that the decrease in SGLT2 activity could be due to a covalent modification of the active site of the protein.
Background/Aims: The renal sodium glucose cotransporter (SGLT2) and the water channel aquaporin-2 (AQP2) play a critical role in tubular sodium and water reabsorption and in the regulation of extracellular fluid volume both in physiologic and pathophysiologic conditions. However, there is little information about SGLT2 and AQP2 expression and/or activity in hypertension and there are no reports during hypertension induced by chronic nitric oxide synthase (NOS) inhibition. Methods: Hypertension was induced in rats by oral administration of NG-nitro-L-arginine methyl ester (L-NAME) (20 mg/kg/24 h) for 6 (H6) or 12 (H12) weeks. SGLT2 activity was measured using α-14C-methylglucose active uptake. The expression level of transporters was assessed by immunohistochemistry and/or immunoblotting. Results: SGLT2 activity was reduced in both H6 and H12; this was due neither to a decrease in SGLT2 expression nor to a change in membrane phospholipid composition. In H6, AQP2 expression diminished only in the inner medulla (IM), while in H12 it diminished in both outer (OM) and IM. This reduced expression of AQP2 may partially account for the increased urinary volume and decreased urinary osmolality in H12, since we obtained a strong correlation between AQP2 expression and these urinary parameters in both OM and IM. Conclusion: We propose that in rats in which hypertension is induced by NOS inhibition, SGLT2 activity and AQP2 expression are modified to compensate for the elevated arterial pressure. However, we cannot discount the possibility that the observed changes are due to the decrease in NO production itself.
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