Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0847097 (acidity)
15,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calciosomes are small cytoplasmic vacuoles identified in various nonmuscle cell types by their content of protein(s) similar to calsequestrin (CS), the Ca2+ storage protein of the muscle sarcoplasmic reticulum (SR). These entities have been interpreted as the "primitive" counterpart of the SR, and suggested to be the organelle target of inositol-1,4,5-triphosphate action (Volpe, P., K. H. Krause, S. Hashimoto, F. Zorzato, T. Pozzan, J. Meldolesi, and D. P. Lew. Proc. Natl. Acad. Sci. USA. 85:1091-1095). Immunoperoxidase and immunogold experiments carried out in both thick and ultrathin cryosections of rat hepatocytes and pancreatic acinar cells by using antimuscle CS antibodies revealed a specific labeling widely distributed in the entire cytoplasm, while nuclei were negative. Individual calciosomes appeared as small (105 nm) membrane-bound vacuoles intermingled with, and often apposed to ER cisternae and mitochondria. Other calciosomes were scattered in the Golgi area, in between zymogen granules and beneath the plasma membrane. The cumulative volume of the CS-positive organelles was measured to account for the 0.8 and 0.45% of the cytoplasm in liver and pancreas cells, respectively. The real total volume of the calciosome compartment is expected to be approximately twice as large. In hepatocytes, structures similar to CS-positive calciosomes were decorated by antibodies against the Ca2+ ATPase of muscle SR, while ER cisternae were not. By dual labeling, colocalization was revealed in 53.6% of the organelles, with 37.6% positive for the ATPase only. CS appeared preferentially confined to the content, and the Ca2+ ATPase to the contour of the organelle. The results suggested a partial segregation of the two antigens, reminiscent of their well-known segregation in muscle SR. Additional dual-label experiments demonstrated that hepatic calciosomes express neither two ER markers (cytochrome-P450 and NADH-cytochrome b5 reductase) nor the endolysosome marker, luminal acidity (revealed by 3-[2,4-dinitroanilino]-3'-amino-N-methyl dipropylamine). Calciosomes appear as unique cytological entities, ideally equipped to play a role in the rapid-scale control of the cytosolic-free Ca2+ in nonmuscle cells.
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PMID:Immunocytochemistry of calciosomes in liver and pancreas. 297 58

The acidity and lipophilicity of the fluorinated arylalkylsulphonamides are determined by the nature of the substituents on their aromatic rings. Herbicidal and anti-inflammatory effects of these compounds appear to increase with their lipophilicity. According to Mitchell's chemiosmotic theory, lipophilic weak-acid uncoupling agents act by transporting protons across the inner mitochondrial membrane and thus destroying the proton-electrochemical potential gradient required for ATP synthesis and ion transport. 1:1:1-Trifluoro-N-[2-methyl-4-(phenylsulphonyl) phenyl]methanesulphonamide (Perfluidone), a pre- and post-emergence herbicide (at 20 microM concentration), in isolated rat-liver mitochondria caused (1) a 2-fold stimulation of metabolic state-4 respiration, (2) a reduction of respiratory control ratio (RCR) by at least 50%, (3) an enhancement of latent ATPase activity by 40%, (4) a significant passive swelling of mitochondria in 0.15 N NH4Cl(delta A520 = -0.46 +/- 0.003), (5) proton intrusion during state-4 respiration (356 ng H+/min/mg protein; ng H+/min/mg protein with 5 microM perfluidone), and (6) at least 100% stimulation of oligomycin-inhibited respiration. These profiles are qualitatively comparable with those of the classical lipophilic weak-acid uncoupler, carbonylcyanide-trifluoro-methoxyphenylene hydrazone (FCCP), which acts by promoting the electrogenic transport of H+ ions across mitochondrial membrane.
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PMID:Protonophoric properties of fluorinated arylalkylsulfonamides. Observations with perfluidone. 299 24

The H+K+-ATPase is supposed to be the terminal step in the acid-secreting pathway in the parietal cell. Omeprazole blocks this enzyme, resulting in a marked inhibition of basal and stimulated acid secretion. With omeprazole 20 mg daily, 24-hour intragastric acidity is decreased by about 90%. Several clinical studies have now been published in which omeprazole has been compared with the H2-receptor antagonists cimetidine and ranitidine. Omeprazole in doses between 20 and 40 mg daily resulted in healing rates between 65% and 82% after treatment for 2 weeks and between 90% and 100% after treatment for 4 weeks. Treatment with omeprazole also gave faster and more pronounced pain relief. One comparative study in gastric ulcer has also been published showing healing rates equal to those with ranitidine. Placebo-controlled trials have also shown very pronounced therapeutic effect in reflux esophagitis. Omeprazole seems to be the drug of choice in Zollinger-Ellison syndrome, giving beneficial clinical effects and pronounced and long-lasting reduction in gastric acid secretion.
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PMID:Clinical perspectives of drugs inhibiting acid secretion--H+K+-ATPase inhibitors. 302 57

The effect of gastric anacidity on the absorption of food-bound cobalamins is uncertain. Omeprazole, an inhibitor of the enzyme H-K-ATPase in the parietal cell, is the most potent inhibitor of gastric acidity known so far. In 17 healthy male volunteers the absorption of liver-bound cobalamins was assessed after a single intravenous dose of omeprazole (80 mg) or placebo in a double-blind, crossover manner. The effect of omeprazole on pH, gastric acidity, and intrinsic factor (IF) concentration was measured in aspirates of gastric juice 5 min before and 30 and 60 min after the administration of liver homogenate containing 0.74 nmol of 57Co-labelled cobalamins. Omeprazole treatment resulted in anacidity (pH values above 6.0) in 14 individuals 30 min after the liver dose and in 15 individuals after 60 min. The IF concentration was unchanged in the omeprazole experiment as compared with the placebo experiment. The absorption of liver-bound cobalamins was 310 pmol (189-501 pmol) in the omeprazole experiment as compared with 415 pmol (150-549 pmol) in the placebo experiment (median values and range, p = 0.5228). We suggest that anacidity induced by omeprazole does not reduce the absorption of liver-bound cobalamins.
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PMID:The effect of omeprazole on gastric acidity and the absorption of liver cobalamins. 357 26

Gastric ulcerations induced in rats by a combination of indomethacin and cold-stress (5 +/- 1 degrees C) for 6 hr were more severe than those induced by indomethacin or cold-stress alone. The acidity of gastric juice was increased in rats treated with indomethacin plus cold-stressed. Histamine H2 receptor antagonists, (H+-K+) ATPase inhibitors and prostaglandins inhibited gastric ulcer formation in indomethacin plus cold-stress treated rats, whereas anticholinergics aggravated the ulceration. The indomethacin plus cold-stress induced acid secretion was inhibited by cimetidine and omeprazole in pylorus-ligated rats. Atropine had less effect on the increase in acidity than cimetidine and omeprazole. These findings indicate that the ulcer formation in indomethacin plus cold-stress treated rats is related the increased in acidity of gastric juice. This gastric ulcer model may be useful for evaluating antiulcer agents.
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PMID:Effects of indomethacin and cold-stress on gastric acid secretion and ulceration. The effects of anti-acid secretory agents in rats. 367 83

Gastric secretion was measured in nine patients with duodenal ulcer before, and after treatment for four weeks with omeprazole 20 mg or 40 mg daily. Basal acidity and acid output were affected variably by 20 mg, but inhibited totally by 40 mg daily. Sham feed stimulated acid output was reduced by 20 mg daily and completely inhibited by 40 mg daily. Maximal pentagastrin stimulated acid output was halved by 20 mg omeprazole daily and 84% inhibited by 40 mg daily. The reduction in acidity was always greater than the reduction of volume. Pepsin output after pentagastrin was little altered but with the reduced secretory volume pepsin concentrations were increased by both doses. The major cause of reduced aspirate acid output after omeprazole is decreased secretion of the primary acid component of the parietal cell by the proton pump H+K+ ATPase. Duodenogastric alkaline reflux is, however, markedly increased after omeprazole and is an additional factor in the resultant hypoacidity or even anacidity after this drug.
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PMID:Basal, sham feed and pentagastrin stimulated gastric acid, pepsin and electrolytes after omeprazole 20 mg and 40 mg daily. 393 37

Fatigue--or decrease in force generation--is a reduction of simultaneously attached cross-bridges in the force generating state. Two processes are necessary for the force generation: Firstly Ca++ release from the sarcoplasmic reticulum to the sarcoplasm and the binding of Ca++ by the troponin molecule and secondly the turnover of myosin-actin cross-bridges. These processes require energy in at least three different ATPase reactions and can consequently be inhibited when ATP hydrolysis is decreased, i.e. when ATP content is to low or when the reaction products (ADP, Pi and H+) reach inhibiting levels or when muscle pH has decreased to values inhibiting actomyosin ATPase activity (22). Low pH will also decrease Ca++ release and Ca++ affinity by troponin (23). In isometric contraction the force is well preserved as long as ADP phosphorylation can be provided by both PCr degradation and anaerobic glycolysis. When the PCr store is exhausted the force starts to decline and if muscle activation is maintained the force will continue to decrease along with falling glycolytic rate. ADP phosphorylation rate decreases successively and ATP content falls with an at least transient increase in ADP. The ATP decrease, apart from the minor increase in ADP, is balanced by an equimolar increase in IMP. Lactate accumulation produces an increasing acidity with muscle pH values down to 6.25. Early changes in free ADP content cannot be excluded as reason for the initial decrease in force production followed by more pronounced inhibition of ATPase activity during continued contraction due to both substrate lack and product inhibition together with pH effect on the excitation--contraction mechanism. In dynamic exercise with supramaximum work intensity the relation between fatigue development and metabolism is similar. In prolonged dynamic exercise relying on oxidative metabolism without lactate formation the point of fatigue is reached when the glycogen store is exhausted. Again ADP phosphorylation rate is decreased when the energy substrate is changed from carbohydrate to fat with lower maximum rate of ATP resynthesis.
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PMID:Biochemistry of muscle fatigue. 396 54

The chloroplast thylakoid ATPase proton pump-driven H+ accumulation in the dark was compared to the light-dependent proton pump driven by either photosystem II or I, in regard to the effects of the resultant acidity on chemical modification reactions. The assays used to detect the acidity effects were: (a)the incorporation of [3H]-acetic anhydride into membrane protein -NH2 groups, and (b) the effect of a certain level of that chemical modification on inhibition of photosystem II water oxidation activity. Based on labeling data with [3H]-acetic anhydride, 20-30 nmol.(mg chl)-1 of -NH3+ groups appear to be metastable in the dark in untreated membranes. The term metastable is used because proton leak-inducing treatments in the dark lead to about 20-30 nmol . (mg chl)-1 increase in acetic anhydride labeling probably due to reaction with the -NH2 form of amine groups. Addition of low levels of uncoupler or a brief thermal treatment caused a loss of protons from the membrane equivalent to the increase in acetic anhydride derivatization. The increase in acetic anhydride derivatization caused inhibition of water oxidation activity. Using thermally sensitized membranes, photosystem II but not photosystem I electron transport (each giving a steady-state proton accumulation of about 50 nmol H+ . (mg chl)-1 restored the lower level of acetic anhydride reactivity as in previous results (Baker et al., 1981). In dark-maintained, thermally treated membranes, ATPase activity, i.e., the proton pump associated with it, also restored the lower level of acetic anhydride labeling, and again acetic anhydride no longer inhibited water oxidation. Because photosystem I activity did not elicit this type of response to acetic anhydride, there appears to be a pathway for ATPase pumped protons which allows them to reach a restricted domain, perhaps intramembrane, common with the photosystem II water oxidation mechanism and unavailable to protons pumped by photosystem I. The membrane structure(s) which determines this site specificity is not yet understood.
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PMID:Site-specific interaction of ATPase-pumped protons with photosystem II in chloroplast thylakoid membranes. 612 37

Experiments were performed to determine the internal pH and membrane potential of platelet alpha-granules. Fluorescence microscopy showed accumulation of weak bases, indicative of an acidic interior, inside secretory vesicles in intact platelets and in isolated alpha-granules. Weak base uptake was pH-dependent and NH+4-sensitive. In isolated alpha-granules suspended in medium buffered at pH 7.2, a delta pH, the difference between internal and external pH, of 1.2 (inside acidic) was measured by [14C]methylamine distribution. Uptake of isotopic or fluorescent amines was reduced by H+/cation exchange via ionophores and by addition of NH+4, but also by increasing the ionic strength suggesting that delta pH is partly due to a Donnan potential. Transmembrane potential measurements by fluorescent or radioactive ion distribution indicated that in the absence of ATP, granules are internally negative. When measured with 86Rb+, this potential could be entirely collapsed by increasing the ionic strength. Addition of ATP X Mg in the absence of permeating anions made the intragranular space more positive, as expected from inward electrogenic H+ pumping. The results are compatible with the coexistence of sealed and leaky subpopulations of alpha-granules. Internal acidity was generated in sealed granules in vivo by a H+-pumping ATPase, whereas in leaky granules acidity is a consequence of an internally negative Donnan potential.
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PMID:The electrochemical H+ gradient of platelet secretory alpha-granules. Contribution of a H+ pump and a Donnan potential. 686 68

Until recently, suppression of gastric acid secretion in patients with peptic ulcer was empirical and of unproven value. Anticholinergic drugs had only modest inhibitory effects on acid secretion, many side effects, and uncertain efficacy. Controlled trials using antacids demonstrated the value of reducing gastric acidity for healing duodenal ulcer. The discovery of histamine-2 (H2) receptor antagonists in the 1970s and the introduction of H+,K(+)-ATPase inhibitors in the 1980s made reduction of acid secretion the first-choice modality for healing and preventing recurrences of duodenal and gastric ulcers. The demonstration in the late 1980s and early 1990s that Helicobacter pylori (Hp) was a major risk factor for duodenal and gastric ulcer recurrences suggested that peptic ulcer could be cured by eradicating this organism from the stomach. However, antibiotic eradication of Hp can be difficult, often requiring simultaneous administration of a drug that suppresses acid secretion. Therefore, H2 and proton pump inhibitors continue to play a role in the management of duodenal and gastric ulcers associated with Hp and also play a primary role in the therapy of other acid-related disorders, such as gastroesophageal reflux diseases, stress ulcers, ulcers associated with nonsteroidal anti-inflammatory drugs, and gastrinoma (Zollinger-Ellison syndrome) and other acid hypersecretory states.
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PMID:Suppression of acid secretion in peptic ulcer disease. 767 7


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