The salt-secreting mangrove, Avicennia marina, and non-salt-secreting mangrove, Kandelia candel were cultivated in sand with various salinities(0‰, 10‰, 20‰, 30‰, 40‰) for 60 d. Plasma membrane vesicles of high-p...The salt-secreting mangrove, Avicennia marina, and non-salt-secreting mangrove, Kandelia candel were cultivated in sand with various salinities(0‰, 10‰, 20‰, 30‰, 40‰) for 60 d. Plasma membrane vesicles of high-purity in leaves and roots of A.marina and K. candel seedlings were obtained by two-phase partitioning. The function of the plasma membranes, the activity of ATPase, membrane potential and transmembrane proton gradient, at various salinities were investigated. The results showed that within a certain range of salinity(A. marina and roots of K. candel: 0—30‰; leaves of K.candel: 0—20‰), the activity of ATPase increased with increasing salinity, while high salinity(above 30‰ or 20‰) inhibited ATPase activity. In comparison with A. marina, K. candel appeared to be more sensitive to salinity. The dynamics of membrane potential and transmembrane proton gradient in leaves and roots of A. marina and K. candel seedlings were similar to that of ATPase. When treated directly by NaCl all the indexes were inhibited markedly: there was a little increase within 0—10‰(K. candel) or 0—20‰(A. marina) followed by sharp declining. It indicated that the structure and function of plasma membrane was damaged severely.展开更多
AIM:To test whether the expression and activity of H,K-ATPase in parietal cells would be affected by cigarette smoke extract.METHODS: Extracts of cigarette smoke were administered into mice by gastric gavage (5 mg/kg ...AIM:To test whether the expression and activity of H,K-ATPase in parietal cells would be affected by cigarette smoke extract.METHODS: Extracts of cigarette smoke were administered into mice by gastric gavage (5 mg/kg body weight/day) for 3 d or in drinking water for 7 or 14 d. For the latter, each day a mouse consumed 5 mL water containing extracts of two cigarettes, on average. Control littermate mice received only vehicle. To compare the amount of H,K-ATPase in control and smoke-treated mice, the stomach was processed for Western blotting and immunohistochemical analysis using monoclonal antibodies specific for α- or β-subunits of H,K-ATPase. The p-nitrophenylphospatase activity assay was used as a measurement for K-dependent H,K-ATPase activity.RESULTS: Probed transblots showed an increase in the amount of H,K-ATPase in smoke-treated mice which was confirmed by immunohistochemistry and was found to be due to increased amounts of protein per parietal cell rather than an increased parietal cell number. The increase in the amount of H,K-ATPase was associated with an enhancement of its enzymatic activity. K-dependent activity in control and smoke-treated mice was significantly different (respectively, 0.12 μmol/mg vs 0.27 μmol/mg per minute, P<0.05).CONCLUSION: Administration of cigarette smoke extract is associated with an increase in the amount and activity of H,K-ATPase and hence, smokers are susceptible to development of peptic ulcer.展开更多
AIM: To determine the in vivo andin vivo effects of cysteamine (CS) on expression and activity of H+-K+-ATPase of gastric mucosal cells in weaning piglets.METHODS: Eighteen litters of newborn Xinhuai piglets were empl...AIM: To determine the in vivo andin vivo effects of cysteamine (CS) on expression and activity of H+-K+-ATPase of gastric mucosal cells in weaning piglets.METHODS: Eighteen litters of newborn Xinhuai piglets were employed in the in vivo experiment and allocated to control and treatment groups. From 12 d of age (D12), piglets in control group were fed basal diet, while the treatment group received basal diet supplemented with 120 mg/kg CS. Piglets were weaned on D35 in both groups. Six piglets from each group (n = 6) were slaughtered on D28 (one week before weaning), D35(weaning), D36.5, D38, D42, and D45 (36 h, 72 h,one week and 10 d after weaning), respectively. Semiquantitative RT-PCR was performed todetermine the levels of H+-K+-ATPase mRNA in gastric mucosa. H+-K+-ATPase activity in gastric mucosa homogenate was also determined. Gastric mucosal epithelial cells from piglets through primary cultures were used to further elucidate the effect of CS on expression and activity of H+-K+-ATPase in vivo. Cells were treated for 20 h with 0.001,0.01, and 0.1 mg/mL of CS (n = 4), respectively. The mRNA expression of H+-K+-ATPase and somatostatin (SS)as well as the H+-K+-ATPase activity were determined.RESULTS: in vivo, both mRNA expression and activity of H+-K+-ATPase in gastric mucosa of control group exhibited a trend to increase from D28 to D45, reaching a peak on D45, but did not show significant age differences. Furthermore, neither the mRNA expression nor the activity of H+-K+-ATPase was affected significantly by weaning. CS increased the mRNA expression of H+-K+-ATPase by 73%, 53%, 30% and 39% on D28(P = 0.014), D35 (P = 0.017), D42 (P = 0.013) and D45(P = 0.046), respectively. In accordance with the mRNA expression, H+-K+-ATPase activities were significantly higher in treatment group than in control group on D35(P = 0.043) and D45 (P = 0.040). In vivo, CS exhibited a dose-dependent effect on mRNA expression and activity of H+-K+-ATPase. Both H+-K+-ATPase mRNA expression and activity in gastric mucosal epithelial cells were significantly elevated after 20 h of exposure to the moderate (H+-K+-ATPase expression: P=0.03; H+-K+-ATPase activity: P = 0.014) and high concentrations (H+-K+-ATPase expression: P=0.017; H+-K+-ATPase activity:P = 0.022) of CS. Significant increases in SS mRNA expression were observed to accompany the elevation of H+-K+-ATPase expression and activity induced by the moderate (P = 0.024) and high concentrations (P = 0.022) of CS. Low concentration of CS exerted no effects either on expression and activity of H+-K+-ATPase or on SS mRNA expression in cultured gastric mucosal epithelial cells.CONCLUSION: No significant changes are observed in mRNA expression and activity of H+-K+-ATPase in gastric mucosa of piglets around weaning from D28 to D45. CS increases expression and activity of gastric H+-K+-ATPase in vivo and in vivo. SS is involved in mediating the effect of CS on gastric H+-K+-ATPase expression and activity in weaning piglets.展开更多
H+-K+-ATPase (HKA) is composed of two different subunits: an alpha and a beta subunit. Previous studies have shown that in the kidney gastric HKA (HKA alpha 1) predominates under normal dietary conditions while coloni...H+-K+-ATPase (HKA) is composed of two different subunits: an alpha and a beta subunit. Previous studies have shown that in the kidney gastric HKA (HKA alpha 1) predominates under normal dietary conditions while colonic HKA (HKA alpha 2) predominates under potassium depleted conditions [1]. The purpose of the current study was to elucidate the association between the beta and different alpha subunits from stomach, colon and kidney under normal and potassium depleted conditions. Black Swiss mice were fed a potassium-free diet for 2 weeks, beta subunit expression of HKA in stomach mucosae, colon mucosae and renal outer medulla was examined and compared between normal diet and potassium depleted diet. In wild type (WT) mice, the concentrations of the beta subunit under potassium deficient conditions were found significantly increased compared with normal dietary conditions in colon mucosae (8.27 ± 0.73 vs 6.62 ± 0.55 μg/μl, n = 7, p = 0.0416), whereas in cHKA (HKA alpha 2) mice colon mucosae, the concentrations of the beta subunit were statistically the same (5.05 ± 0.31 vs 4.76 ± 0.37 μg/μl, n = 13, p = 0.2833), and the concentration of the beta subunit stayed the same in renal outer medulla and stomach mucosae as well. The data indicate that potassium deficiency results in a significant increase in the levels of HKA beta subunit concentration in the colonic tissue of WT mice. The results indicate that the HKA beta subunit associates with the cHKA (HKA alpha 2) in order to mediate bicarbonate reabsorption under potassium depletion (hypokalemia)展开更多
The H-K-ATPase (HKA), a potassium-dependent proton transporter in the outer medullary collecting duct (OMCD) plays an important role in acid-base homeostasis. The OMCD contains two HKA isoforms;gastric (HKAα1), domin...The H-K-ATPase (HKA), a potassium-dependent proton transporter in the outer medullary collecting duct (OMCD) plays an important role in acid-base homeostasis. The OMCD contains two HKA isoforms;gastric (HKAα1), dominant under normal dietary conditions (ND), and colonic (HKAα2), induced under a K-free diet (KD). The enzymatic activity (EA) of HKA in the OMCD is incompletely understood. The focus of the present study is elucidating the EA of the HKA in HKAα1 and HKAα2 knockout (KO) mice under ND and KD. KO mice were subjected to ND or KD for 10 days. Ten OMCD tubules were extracted, half placed in potassium-free media (Solution 2), half in potassium-containing media (Solution 3). Fluorescence measurements are based on the hydrolysis of ATP to ADP, coupled with the oxidation of NADH. ADP is determined by a decrease in NADH fluorescence. In K presence, NADH fluorescence of HKAα1 KO mice read 13.5 ± 0.7 ppm for ND and 10.3 ± 0.2 ppm for KD, indicating stimulation of the colonic isoform. HKAα2 KO mice averaged 6.8 ± 0.3 ppm for ND and 5.4 ± 0.3 ppm for KD in solution 2 (p p α2 isoform. A significant difference in ATP production in HKAα2 KO mice is likely due to enhanced EA of H-ATPase under potassium depletion.展开更多
文摘The salt-secreting mangrove, Avicennia marina, and non-salt-secreting mangrove, Kandelia candel were cultivated in sand with various salinities(0‰, 10‰, 20‰, 30‰, 40‰) for 60 d. Plasma membrane vesicles of high-purity in leaves and roots of A.marina and K. candel seedlings were obtained by two-phase partitioning. The function of the plasma membranes, the activity of ATPase, membrane potential and transmembrane proton gradient, at various salinities were investigated. The results showed that within a certain range of salinity(A. marina and roots of K. candel: 0—30‰; leaves of K.candel: 0—20‰), the activity of ATPase increased with increasing salinity, while high salinity(above 30‰ or 20‰) inhibited ATPase activity. In comparison with A. marina, K. candel appeared to be more sensitive to salinity. The dynamics of membrane potential and transmembrane proton gradient in leaves and roots of A. marina and K. candel seedlings were similar to that of ATPase. When treated directly by NaCl all the indexes were inhibited markedly: there was a little increase within 0—10‰(K. candel) or 0—20‰(A. marina) followed by sharp declining. It indicated that the structure and function of plasma membrane was damaged severely.
基金Supported by Research Grants from UAE University and Terry Fox Foundation (to Karam SM)
文摘AIM:To test whether the expression and activity of H,K-ATPase in parietal cells would be affected by cigarette smoke extract.METHODS: Extracts of cigarette smoke were administered into mice by gastric gavage (5 mg/kg body weight/day) for 3 d or in drinking water for 7 or 14 d. For the latter, each day a mouse consumed 5 mL water containing extracts of two cigarettes, on average. Control littermate mice received only vehicle. To compare the amount of H,K-ATPase in control and smoke-treated mice, the stomach was processed for Western blotting and immunohistochemical analysis using monoclonal antibodies specific for α- or β-subunits of H,K-ATPase. The p-nitrophenylphospatase activity assay was used as a measurement for K-dependent H,K-ATPase activity.RESULTS: Probed transblots showed an increase in the amount of H,K-ATPase in smoke-treated mice which was confirmed by immunohistochemistry and was found to be due to increased amounts of protein per parietal cell rather than an increased parietal cell number. The increase in the amount of H,K-ATPase was associated with an enhancement of its enzymatic activity. K-dependent activity in control and smoke-treated mice was significantly different (respectively, 0.12 μmol/mg vs 0.27 μmol/mg per minute, P<0.05).CONCLUSION: Administration of cigarette smoke extract is associated with an increase in the amount and activity of H,K-ATPase and hence, smokers are susceptible to development of peptic ulcer.
基金Supported by the National Natural Science Foundation of China, No. 30270975 National Basic Research Program of China, No. 2004CB117505
文摘AIM: To determine the in vivo andin vivo effects of cysteamine (CS) on expression and activity of H+-K+-ATPase of gastric mucosal cells in weaning piglets.METHODS: Eighteen litters of newborn Xinhuai piglets were employed in the in vivo experiment and allocated to control and treatment groups. From 12 d of age (D12), piglets in control group were fed basal diet, while the treatment group received basal diet supplemented with 120 mg/kg CS. Piglets were weaned on D35 in both groups. Six piglets from each group (n = 6) were slaughtered on D28 (one week before weaning), D35(weaning), D36.5, D38, D42, and D45 (36 h, 72 h,one week and 10 d after weaning), respectively. Semiquantitative RT-PCR was performed todetermine the levels of H+-K+-ATPase mRNA in gastric mucosa. H+-K+-ATPase activity in gastric mucosa homogenate was also determined. Gastric mucosal epithelial cells from piglets through primary cultures were used to further elucidate the effect of CS on expression and activity of H+-K+-ATPase in vivo. Cells were treated for 20 h with 0.001,0.01, and 0.1 mg/mL of CS (n = 4), respectively. The mRNA expression of H+-K+-ATPase and somatostatin (SS)as well as the H+-K+-ATPase activity were determined.RESULTS: in vivo, both mRNA expression and activity of H+-K+-ATPase in gastric mucosa of control group exhibited a trend to increase from D28 to D45, reaching a peak on D45, but did not show significant age differences. Furthermore, neither the mRNA expression nor the activity of H+-K+-ATPase was affected significantly by weaning. CS increased the mRNA expression of H+-K+-ATPase by 73%, 53%, 30% and 39% on D28(P = 0.014), D35 (P = 0.017), D42 (P = 0.013) and D45(P = 0.046), respectively. In accordance with the mRNA expression, H+-K+-ATPase activities were significantly higher in treatment group than in control group on D35(P = 0.043) and D45 (P = 0.040). In vivo, CS exhibited a dose-dependent effect on mRNA expression and activity of H+-K+-ATPase. Both H+-K+-ATPase mRNA expression and activity in gastric mucosal epithelial cells were significantly elevated after 20 h of exposure to the moderate (H+-K+-ATPase expression: P=0.03; H+-K+-ATPase activity: P = 0.014) and high concentrations (H+-K+-ATPase expression: P=0.017; H+-K+-ATPase activity:P = 0.022) of CS. Significant increases in SS mRNA expression were observed to accompany the elevation of H+-K+-ATPase expression and activity induced by the moderate (P = 0.024) and high concentrations (P = 0.022) of CS. Low concentration of CS exerted no effects either on expression and activity of H+-K+-ATPase or on SS mRNA expression in cultured gastric mucosal epithelial cells.CONCLUSION: No significant changes are observed in mRNA expression and activity of H+-K+-ATPase in gastric mucosa of piglets around weaning from D28 to D45. CS increases expression and activity of gastric H+-K+-ATPase in vivo and in vivo. SS is involved in mediating the effect of CS on gastric H+-K+-ATPase expression and activity in weaning piglets.
文摘H+-K+-ATPase (HKA) is composed of two different subunits: an alpha and a beta subunit. Previous studies have shown that in the kidney gastric HKA (HKA alpha 1) predominates under normal dietary conditions while colonic HKA (HKA alpha 2) predominates under potassium depleted conditions [1]. The purpose of the current study was to elucidate the association between the beta and different alpha subunits from stomach, colon and kidney under normal and potassium depleted conditions. Black Swiss mice were fed a potassium-free diet for 2 weeks, beta subunit expression of HKA in stomach mucosae, colon mucosae and renal outer medulla was examined and compared between normal diet and potassium depleted diet. In wild type (WT) mice, the concentrations of the beta subunit under potassium deficient conditions were found significantly increased compared with normal dietary conditions in colon mucosae (8.27 ± 0.73 vs 6.62 ± 0.55 μg/μl, n = 7, p = 0.0416), whereas in cHKA (HKA alpha 2) mice colon mucosae, the concentrations of the beta subunit were statistically the same (5.05 ± 0.31 vs 4.76 ± 0.37 μg/μl, n = 13, p = 0.2833), and the concentration of the beta subunit stayed the same in renal outer medulla and stomach mucosae as well. The data indicate that potassium deficiency results in a significant increase in the levels of HKA beta subunit concentration in the colonic tissue of WT mice. The results indicate that the HKA beta subunit associates with the cHKA (HKA alpha 2) in order to mediate bicarbonate reabsorption under potassium depletion (hypokalemia)
文摘The H-K-ATPase (HKA), a potassium-dependent proton transporter in the outer medullary collecting duct (OMCD) plays an important role in acid-base homeostasis. The OMCD contains two HKA isoforms;gastric (HKAα1), dominant under normal dietary conditions (ND), and colonic (HKAα2), induced under a K-free diet (KD). The enzymatic activity (EA) of HKA in the OMCD is incompletely understood. The focus of the present study is elucidating the EA of the HKA in HKAα1 and HKAα2 knockout (KO) mice under ND and KD. KO mice were subjected to ND or KD for 10 days. Ten OMCD tubules were extracted, half placed in potassium-free media (Solution 2), half in potassium-containing media (Solution 3). Fluorescence measurements are based on the hydrolysis of ATP to ADP, coupled with the oxidation of NADH. ADP is determined by a decrease in NADH fluorescence. In K presence, NADH fluorescence of HKAα1 KO mice read 13.5 ± 0.7 ppm for ND and 10.3 ± 0.2 ppm for KD, indicating stimulation of the colonic isoform. HKAα2 KO mice averaged 6.8 ± 0.3 ppm for ND and 5.4 ± 0.3 ppm for KD in solution 2 (p p α2 isoform. A significant difference in ATP production in HKAα2 KO mice is likely due to enhanced EA of H-ATPase under potassium depletion.
