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  • Title: Kinetics of inositol 1,4,5-trisphosphate and inositol cyclic 1:2,4,5-trisphosphate metabolism in intact rat parotid acinar cells. Relationship to calcium signalling.
    Author: Hughes AR, Takemura H, Putney JW.
    Journal: J Biol Chem; 1988 Jul 25; 263(21):10314-9. PubMed ID: 2455713.
    Abstract:
    Stimulation of rat parotid acinar cells by the muscarinic cholinergic receptor agonist methacholine results in the formation of inositol 1,4,5-trisphosphate [1,4,5)IP3) and inositol cyclic 1:2,4,5-trisphosphate [c1:2,4,5)IP3) which, after 40 min, accumulate to a ratio of 1:0.57. The turnover rates of these inositol trisphosphates have been determined in cholinergically stimulated rat parotid cells by measuring the degradation of the 3H-labeled compounds following receptor blockade. (1,4,5)IP3 is rapidly metabolized, with a half-time of 7.6 s; (c1:2,4,5)IP3 declines much more slowly with a half-time of almost 10 min. Because the formation and metabolism of (c1:2,4,5)IP3 are so slow, (c1:2,4,5)IP3 gradually accumulates upon prolonged receptor activation. Inositol trisphosphate turnover was compared to the receptor-mediated changes in cytoplasmic Ca2+ concentration, as measured by the fluorescent Ca2+ indicator, fura-2. The Ca2+ signal decays upon termination of inositol phosphate formation and returns to base line within 30 s. Thus, while (c1:2,4,5)IP3 may have some yet unknown biological effects on Ca2+ homeostasis, its metabolism seems far too slow to be the primary regulator of cytosolic Ca2+ levels under long term stimulatory conditions. The rate at which the Ca2+ signal decays is, however, somewhat slowed after prolonged agonist stimulation. Furthermore, the capacity of the cells to mobilize intracellular Ca2+ in response to a second agonist stimulation is slightly delayed when the duration of the first stimulus is prolonged. The results suggest that the regulation of cytoplasmic Ca2+ levels may be more complicated than initially realized and could depend on the combined actions of more than one inositol polyphosphate.
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