Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Regulation of intracellular pH (pHi) was studied in Fu5, a rat hepatoma cell line that maintains a variety of differentiated functions. Microspectrofluorimetry of the pH-sensitive dye 2',7'-biscarboxyethyl-5(6)-carboxyfluorescein (BCECF) was used to measure pHi in 10-15 cells growing on cover glasses that were mounted in a flow-through chamber on the stage of a microscope. In N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid (HEPES)-buffered solutions, pHi was 7.14, and intrinsic buffer capacity was inversely related to pHi. Amiloride (0.1 mM) caused pHi to decrease by 0.33 pH units in 4 min. Recovery from an acid load (using either NH4 prepulse technique or Na-free solutions) was completely blocked by amiloride. In HCO3-CO2-buffered solutions, pHi was 7.15, and buffer capacity was relatively insensitive to pHi between pHi of 6.6 and 7.2. Amiloride caused pHi to decrease by only 0.09 units. Recovery from an acid load was Na dependent, occurred in Cl-free solutions, and was totally blocked by the combination of amiloride plus 0.5 mM dihydro-4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (H2DIDS); recovery occurred when either amiloride or H2DIDS was removed. Removal of external Cl caused a rapid, H2DIDS-blockable alkalinization that was faster in HCO3-CO2 than in HEPES. The apparent Km for Clout for relaxation of Cl-free alkalinization was 4.5 mM. Rate of HCO3 transport during Cl-free treatment increased at alkaline resting pHi. It is concluded that Fu5 cells have two Na-dependent base-loading mechanisms and an acid-loading Cl-HCO3 exchanger. In solutions containing HCO3-CO2, the Na-H exchanger accounts for approximately 40% of recovery from an acid load, and a Na-HCO3 cotransporter accounts for the remainder. Recovery from an alkaline load appears to occur through the activity of the Cl-HCO3 exchanger.
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PMID:pH regulation in hepatoma cells: roles for Na-H exchange, Cl-HCO3 exchange, and Na-HCO3 cotransport. 255 Nov 79

We have previously demonstrated in a rat ascites hepatoma cell line (Yoshida AH 130) the presence of a glucose-activatable and amiloride sensitive Na+/H+ exchange (Cell Biol. Int. Rep., 1984, 8, 297-307). Amiloride is known to inhibit this exchange and to cause a cytoplasmic acidification, with inhibition of protein and DNA synthesis, in cells induced to grow. Amiloride appears also to penetrate the cells and to inhibit directly protein synthesis. In the present report we describe experiments in which the activity of amiloride (0.1, 0.4 and 3.0 mM) on protein synthesis and the internal pH of cells was compared in exponential growing and stationary phase Yoshida ascites cells. In phosphate buffered medium and Na+ out = 147 mM no inhibition of protein synthesis (3H-leu incorporation into total cell protein) and no internal acidification (14C-DMO distribution between intra- and extracellular volume) were produced by 0.1 and 0.4 mM amiloride in exponential growing cells. In stationary phase cells, on the contrary, 0.4 mM amiloride inhibited protein synthesis by 60% without decreasing the internal pH. When the Na+ out was lowered to 25 mM, to reduce competition with amiloride, and/or all Na+ out was substituted with choline, 0.1 and 0.4 mM amiloride markedly inhibited protein synthesis and decreased the internal pH in exponential growing cells. No apparent inhibition occurred in stationary phase cells under the same conditions, possibly due to a preexistent internal acidification, with severe decrease of protein synthesis. Fluorimetric studies of amiloride "binding" to ascites cells showed that a reduced number of amiloride receptor sites could exist in Yoshida hepatoma cells at the stationary phase of growth.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amiloride inhibits protein synthesis and lowers the intracellular pH in exponential growing Yoshida rat ascites hepatoma (AH 130) cells: evidence for a role of the Na+/H+ exchanger. 299 26

This study was designed to investigate the effects of a growing H6 hepatoma on the intracellular element content in three distinctly different tissue cell populations of the mouse host (hepatocytes, fibroblasts, and crystal enterocytes). X-ray microanalysis measurements of the intranuclear concentrations of several elements (sodium, magnesium, phosphorus, sulfur, chlorine, and potassium) were made. Briefly, the tumor presence significantly increased intranuclear sodium concentration but not the concentration of magnesium, phosphorus, sulfur, chlorine, or potassium in three tissue cell types of mice that were anorectic and cachectic. A second aim of the study was to see if injections of the diuretic amiloride, a drug reported to block passive influx of sodium into mammalian cells, would counteract the effect of the tumor presence and lower the intranuclear concentration of sodium towards that of a non-tumor-bearing host. Amiloride did significantly lower the intranuclear level of sodium in the host tissues to that of non-tumor-bearing mice. The amiloride-caused decrease on intracellular sodium was correlated to a decreased cell proliferation activity in the tumor cells and duodenal enterocytes. A possible relationship between the intracellular concentration of sodium in tissue cells and cancer cachexia is discussed.
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PMID:Effect of cancer cachexia and amiloride treatment on the intracellular sodium content in tissue cells. 682 79

The effects of amiloride, a reported inhibitor of serum-stimulated sodium influx, were tested on tumor growth, tumor cell proliferation, and intracellular element content of cancer cells in vivo. We have shown previously that cancer cells have high intranuclear levels of sodium compared to those of their normal counterpart cells and have postulated that such a high level of sodium may be involved in the cancer state. We now report that amiloride, when given in a series of injections, inhibited both H6 hepatoma and DMA/J mammary adenocarcinoma growth in vivo in a dose-dependent fashion and that 3 injections of amiloride at a dose of 1.0 microgram/g body weight into mice bearing H6 hepatomas resulted in a significant decrease in the intranuclear content of sodium but not the content of magnesium, phosphorus, sulfur, chlorine, or potassium as measured by electron probe X-ray microanalysis in the H6 hepatoma cells. Amiloride at dosages as low as 1.0 microgram/g body weight per injection also inhibited tumor cell proliferation as measured by the tritated thymidine autoradiography labeling index. Amiloride caused no changes in the mean profile diameters of metaphase or interphase H6 hepatoma or DMA/J mammary adenocarcinoma cells, suggesting that the action of amiloride on tumor growth was not due to cell volume changes. These data show that amiloride both inhibited tumor growth and decreased the proliferation of the tumor cells in the H6 hepatomas which was correlated with a decreased intranuclear sodium content.
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PMID:Effects of amiloride on tumor growth and intracellular element content of tumor cells in vivo. 684 85

Intracellular pH (pHi) plays an important role in the metabolic activation of quiescent cells after a proliferative stimulus, and Na+/H+ exchange activity is required for growth in some extrahepatic tumors. To investigate intracellular acid/base homeostasis in hepatoma cells and the effects of putative liver growth factors on Na+/h+ exchange activity, we have studied intracellular pH (pHi) regulation in Hep G2 cells, a well-differentiated hepatoma cell line, both in resting conditions and after administration of epidermal growth factor (EGF), transforming growth factor-alpha (TGF alpha), and insulinlike growth factor-II (IGF-II). The effects of fetal calf serum, TGF alpha, and amiloride on 3H-Thymidine incorporation were also studied. Amiloride (1 mmol/L) and external Na+ removal decreased baseline pHi in both HEPES and KRB. In HEPES, cells recovered from an acid load (20 mmol/L NH4Cl) by an amiloride inhibitable Na+/H+ exchange. In KRB, an additional, DIDS-inhibitable, Na(+)- and HCO3- dependent, but Cl(-)-independent acid extruder (Na:HCO3 cotransport) was activated. No evidence was found for a Cl/HCO3 exchange acting as acid loader. Administration of EGF and TGF alpha, but not of IGF-II, induced a dose-dependent, amiloride-inhibitable increase in baseline pHi, together with an increase in Na+/H+ exchange activity, shifting to the right the JH/pHi curve. Finally, 3H-thymidine incorporation in Hep G2 cells, in the presence of FCS or TGF alpha, was strongly inhibited by amiloride. In conclusion, in Hep G2 cells, pHi is mainly regulated by Na+/H+ exchange, which activity can be stimulated by EGF and TGF alpha, but not by IGF-II. Administration of TGF alpha stimulates DNA synthesis, an effect that is blocked by amiloride, an inhibitor of Na+/H+ exchanger. These data suggest that Na+/H+ exchange activation may play a critical role in the growth of some hepatic tumors.
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PMID:Intracellular pH regulation in Hep G2 cells: effects of epidermal growth factor, transforming growth factor-alpha, and insulinlike growth factor-II on Na+/H+ exchange activity. 763 29

Amiloride and its more potent analog, hexamethylene amiloride (HMA), inhibits Na+ :H+ exchange and decreases intracellular pH in a concentration-dependent way in two human hepatocarcinoma cell lines and in a rat hepatocarcinoma cell line that differs in its phenotypic characteristics, resembling the clinical situation encountered in human hepatocarcinomas. After 24 h of exposure, DNA synthesis and cell protein content of the cultures decreases according to the concentration of the drugs and in parallel to Na+ exchange inhibition and the drop in pHi promoted. RNA and protein syntheses are less sensitive to its action. The above effects induced by HMA are accompanied by an abrupt decrease in cell viability and lysosomal integrity at 24 h. These effects develop gradually with the exposure time as does the increase in free radical production. Decreased viability is totally or partially restored by N-acetylcysteine or deferoxamine, but the degree of intracellular acidification produced is not. These results tend to suggest that intracellular acidification can diminish cell growth and provoke cytotoxic cell death by diminishing reduced glutathione (GSH) levels and impairing lysosomal integrity, reflecting the sensitivity of hepatocarcinoma cells to Na+ exchange inhibition and intracellular acidosis.
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PMID:Na+ :H+ exchange inhibition induces intracellular acidosis and differentially impairs cell growth and viability of human and rat hepatocarcinoma cells. 1040 66

We demonstrated previously that rat ascites hepatoma MM1 cells require both lysophosphatidic acid (LPA) and fibronectin (FN) for phagokinetic motility and transcellular migration and that these events are regulated through the RhoA-ROCK pathway. It remains to be elucidated, however, how the signals from both LPA and FN are integrated into cell migration. To examine this, total cellular lysates after stimulation with LPA or FN were subjected to time-course immunoblot analysis with anti-phosphotyrosine antibodies (Abs). Consequently, tyrosine-phosphorylation of paxillin was obviously persistent after stimulation with FN + LPA as compared to after stimulation with either alone. Tyrosine-phosphorylated paxillin comprised 2 components; slowly and fast migrating ones. Immunoblotting of anti-paxillin immunoprecipitates with phosphorylation site-specific Abs revealed the following: tyrosine-phosphorylation was enhanced preferentially on a slowly migrating component after stimulation with FN + LPA; this component contained phosphorylation at both tyrosine residue (Y) 31 and Y118; and phosphorylation of paxillin at Y181 was constitutive and not augmented by stimulation with either FN or LPA. Amiloride, an inhibitor of the Na+/H+ antiporter downstream of ROCK, suppressed cell motility and correspondingly paxillin tyrosine-phosphorylation at both Y31 and Y118. Paxillin phosphorylation weakly induced by FN alone, insufficient for cell migration, was not inhibited by amiloride. These results demonstrate that LPA collaborates with FN for persistent tyrosine phosphorylation of paxillin at both Y31 and Y118, regulated by the Na+/H+ antiporter downstream of ROCK and that this phosphorylated paxillin is essential for MM1 cancer cell migration.
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PMID:Involvement of phosphorylation of Tyr-31 and Tyr-118 of paxillin in MM1 cancer cell migration. 1177 84