Inverse regulation of calcium channels and beta-adrenergic receptors in virus-transformed human embryonal cells. |
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Authors: | J Drímal D Magna V Knézl J Tokárová L Drímalová |
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Institution: | Institute of Experimental Pharmacology, Slovak Academy of Sciences, Bratislava. |
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Abstract: | Monolayer cultures of human embryonal smooth muscle cells (HEC) were used to study the heterologous regulation of membrane beta-adrenergic receptors and Ca2+ channels. The relationships between the activation of membrane bound alpha-1 and beta-adrenergic receptors, the cyclic nucleotide response and Ca2+ channel binding were studied in a cellular model of latent virus infection (Herpes simplex, Type-2) in a human embryonal cell line. In the early stage of infection (72 h), there was a significant increase in the cell cAMP content, followed by a decrease in the binding capacity of the beta-adrenergic ligand with an increased total number of the 1,4-dihydropyridine Ca2+ channel agonist (-)-S-(3H)BAYK 8644 binding sites on the cell membrane of infected cells. The increased numbers of Ca2+ agonist binding sites were accompanied by an increased cAMP content in the cells and an increased membrane ATP-ase activity. Down-regulation of (3H)DHA binding, and an increased capacity of Ca2+ agonist binding were found after prolonged exposure of HEC to isoprenaline (10(-5) mol.l-1). Stimulation of alpha-1 adrenergic receptors with phenylephrine (10(-6) mol.l-1) was accompanied with only slight but significant increase in (3H)DHA binding and with a significant reduction in the total number of Ca2+ channel agonist binding sites. |
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