10 research outputs found
The Na+/H+ Exchanger Controls Deoxycholic Acid-Induced Apoptosis by a H+-Activated, Na+-Dependent Ionic Shift in Esophageal Cells
Apoptosis resistance is a hallmark of cancer cells. Typically, bile acids induce apoptosis. However during gastrointestinal (GI) tumorigenesis the cancer cells develop resistance to bile acid-induced cell death. To understand how bile acids induce apoptosis resistance we first need to identify the molecular pathways that initiate apoptosis in response to bile acid exposure. In this study we examined the mechanism of deoxycholic acid (DCA)-induced apoptosis, specifically the role of Na+/H+ exchanger (NHE) and Na+ influx in esophageal cells. In vitro studies revealed that the exposure of esophageal cells (JH-EsoAd1, CP-A) to DCA (0.2 mM -0.5 mM) caused lysosomal membrane perturbation and transient cytoplasmic acidification. Fluorescence microscopy in conjunction with atomic absorption spectrophotometry demonstrated that this effect on lysosomes correlated with influx of Na+, subsequent loss of intracellular K+, an increase of Ca2+ and apoptosis. However, ethylisopropyl-amiloride (EIPA), a selective inhibitor of NHE, prevented Na+, K+ and Ca2+ changes and caspase 3/7 activation induced by DCA. Ouabain and amphotericin B, two drugs that increase intracellular Na+ levels, induced similar changes as DCA (ion imbalance, caspase3/7 activation). On the contrary, DCA-induced cell death was inhibited by medium with low a Na+ concentrations. In the same experiments, we exposed rat ileum ex-vivo to DCA with or without EIPA. Severe tissue damage and caspase-3 activation was observed after DCA treatment, but EIPA almost fully prevented this response. In summary, NHE-mediated Na+ influx is a critical step leading to DCA-induced apoptosis. Cells tolerate acidification but evade DCA-induced apoptosis if NHE is inhibited. Our data suggests that suppression of NHE by endogenous or exogenous inhibitors may lead to apoptosis resistance during GI tumorigenesis
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Growth of immunogenic skin tumors: Infiltrating leukocytes
Subpopulations of tumor infiltrating leukocytes in immunogenic skin tumors were identified with monoclonal antibodies. The tumors studied included primary UV-induced tumors and JB/MS melanomas, which survive in the host by immunosuppression of the immune response. The proportions of nucleated cells in primary UV-induced tumor cell suspensions which reacted with monoclonal antibodies were: 52% Mac-1+, 21% Lyt-1+, 13% Lyt-2+, 7% L3T4+, and 8% IL-2R+. Thus there was a high proportion of cells of the macrophage lineage in the growing UV-induced tumors. In JB/MS melanoma cell suspensions the mean proportion of macrophages was 6.4%, and total T lymphocytes (Lyt-1) averaged only 5.5%. Thus, there was little leukocytes infiltration into JB/MS melanoma, suggesting that chemotaxis was defective. The high level of macrophages and T cells in the primary UV-induced tumors indicates that chemotaxis was intact. Therefore, either the tumorcidal capacities of the macrophages and Tc were insensitive to activated macrophages and to Tc cells