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pubmed:abstractText |
The whole-cell patch-clamp technique was used to study the effect of primaquine, an inhibitor of vesicular transport, on the calcium-release-activated current (Icrac) in rat megakaryocytes. Addition of primaquine, before emptying of internal Ca2+ stores by ionomycin, prevented the development of Icrac, with a half-maximal concentration of near 100 microM. Maximal inhibition (> or = 83%) was observed at 0.6-1 mM primaquine. At 1 mM, chloroquine, a related compound which is less effective at blocking vesicular secretion, had no effect on Icrac. Primaquine (0.8 mM) added after sustained activation of Icrac caused a gradual block of current, with maximal inhibition of 50% observed after 2-3 min. At 1 mM, internal guanosine 5'-[gamma-thio]triphosphate reduced Icrac by 65 +/- 13%. Neither 1 mM GTP nor 2 mM guanosine 5'-[beta-thio]diphosphate had any significant effect on Icrac. The recognized role of GTPases in the regulation of vesicular trafficking, together with block of Icrac activation by primaquine, provide evidence that the channels carrying Icrac may be stored in a vesicular membrane compartment and transferred to the plasma membrane following store depletion.
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