[Histamine-liberating effect of antihistaminics on the isolated rat mast cells] Sublethal effects of inorganic mercury on the body growth rate and liver function enzymes of phenobarbitone-pretreated and promethazine-pretreated rabbits. Effect of antihistamines and chlorpromazine on the calcium-induced hyperpolarization of the Amphiuma red cell membrane. Rx drugs

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Biull Eksp Biol Med. 1978 Mar;85(3):329-32.
[Histamine-liberating effect of antihistaminics on the isolated rat mast cells]

[Article in Russian]

Gushchin IS, Deriugin IL, Kaminka ME.

Research Allergological Laboratory of the USSR Academy of Medical Sciences and Laboratory of Pharmacology, S. Ordzhonikidze Research Chemico-Pharmaceutical Institute, Moscow. Among the tested new antihistaminic drugs (quinuclidine derivatives) quinuclidyl-3-(O-tolyl) carbinol possessed histamine releasing action (HRA) on the isolated rat mast cells. In used concentrations (up to 0.4 mmol) all phenothiazines (promethazine, phenethazine, chlorpromazine, methylene blue) had HRA. There was no correlation between the HRA and the antihistaminic activity of the tested drugs. Histamine release induced by antihistaminic drugs and a steep dose-response curve, was produced at low temperature and was not inhibited under conditions of inhibition of energy-dependent stage of 48/80-induced histamine release. It was concluded that the tested antihistaminic drugs which had HRA were non-selective histamine releasers.

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J Environ Pathol Toxicol Oncol. 1994;13(2):125-32.
Sublethal effects of inorganic mercury on the body growth rate and liver function enzymes of phenobarbitone-pretreated and promethazine-pretreated rabbits.

Anjum F, Shakoori AR.

Department of Pharmacology, University of Cambridge, England.

Hepatotoxic effects of inorganic mercury with and without pretreatment of phenobarbitone and promethazine have been described in experiments on domesticated rabbits. The total body weight and the relative liver weight decreased after mercury treatment under all experimental conditions. After phenobarbitone (PB) treatment, the serum glutamate oxaloacetate transaminase (GOT), glutamate pyruvate transaminase (GPT), isocitrate dehydrogenase (ICDH), and lactate dehydrogenase (LDH) activities decreased to 31%, 77%, 20%, and 27%, respectively, whereas the serum alkaline phosphatase (AP) activity increased 54%. After promethazine (PM) treatment, however, the serum GPT activity was inhibited 73%, whereas the serum LDH activity increased 53%. Both hepatic GPT and AP activities decreased after PB (41% and 46%, respectively) and after PM (50% and 52%, respectively) treatments, while the activities of LDH and ICDH increased (after PB: 924% and 108%, respectively; after PM: 147% and 40%, respectively). After mercuric chloride (HgCl2) treatment, the serum GOT, GPT, LDH, and ICDH activities decreased 69%, 83%, 11%, and 48%, respectively. The hepatic GOT, LDH, and AP activities increased 56%, 129%, and 51%, respectively. The administration of HgCl2 in PB-pretreated animals was associated with a decrease in the activities of serum GOT and AP (57% and 69%, respectively), while the ICDH activity increased 27%. The hepatic GOT, GPT, and AP increased 58%, 135%, and 77%, respectively, after mercury treatment, whereas LDH and ICDH were inhibited 78% and 29%.(ABSTRACT TRUNCATED AT 250 WORDS)

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Biochim Biophys Acta. 1976 Nov 2;448(4):599-606.
Effect of antihistamines and chlorpromazine on the calcium-induced hyperpolarization of the Amphiuma red cell membrane.

Gardos G, Lassen UV, Pape L.

1. It has previously been demonstrated that an increase in extracellular Ca2+ conce-tratio- induces a trandient increase in K+ permeability and associated hyperpolarization of the red cell membrane of the giant salamander, Amphiuma meand. This phenomenon is analogous to the Ca2+-induced KCl loss observed in ATP-depleted human red cells and red cell ghosts. 2. Histamine, which enhances the Ca2+-induced K+ loss from depleted human red cells, is without effect on this Ca2+-induced hyperpolarization of Amphiuma red cells. 3. Promethazine (10 muM) and mepyramine (1 mM), which inhibit the Ca2+-induced K+ loss in depleted human red cells, also block the Ca2+-related hyperpolarization of Amphiuma erythrocytes. 4. Chlorpromazine (25 muM), despite being a weak antihistamine, is equally effective in blocking the Ca2+-induced hyperpolarization of Amphiuma red cells. 5. Ionophore A23187 causes a large and sustained Ca2+/K+-dependent hyperpolarization even in the presence of normal (1.8 mM) concentrations of Ca2+. This hyperpolarization is relatively insensitive to chlorpromazine and promethazine. 6. The inhibition of the Ca2+-induced hyperpolarization of the Amphiuma red cell membrane by chlorpromazine and promethazine may berelated to their properties as local anaesthetics.

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