Bijsterbosch M K, Rigley K P, Klaus G G
Biochem Biophys Res Commun. 1986 May 29;137(1):500-6. doi: 10.1016/0006-291x(86)91238-6.
The new Ca2+-probe indo-1 has a high fluorescence intensity, which allows low intracellular dye loadings. Stimulation of indo-1-loaded mouse B cells with anti-Ig antibodies provoked rapid rise of free cytoplasmic Ca2+ from 100 nM to greater than 1 microM, followed by a decline to a plateau at 300-400 nM. The initial rapid rise was not detected in quin2-loaded cells, presumably due to the Ca2+-buffering effects of the dye. The sustained Ca2+ increase was due to influx, whereas the initial rise was caused by release from intracellular stores. The magnitudes of Ca2+ release and inositol trisphosphate release were closely correlated. Concanavalin A does not provoke inositol trisphosphate release in mouse B cells. It did not induce a rapid initial Ca2+ rise in indo-1-loaded B cells either, but only a sustained increase to 200-300 nM. Finally, Ca2+ influx induced by both anti-Ig and concanavalin A were not affected by membrane depolarization.
新型钙离子探针indo-1具有高荧光强度,这使得细胞内染料负载量较低。用抗Ig抗体刺激负载indo-1的小鼠B细胞会引发游离细胞质钙离子从100 nM迅速升至大于1 μM,随后下降至300 - 400 nM的平台期。在负载quin2的细胞中未检测到最初的快速上升,推测是由于染料的钙离子缓冲作用。钙离子的持续增加是由于内流,而最初的上升是由细胞内储存库释放引起的。钙离子释放量和肌醇三磷酸释放量密切相关。伴刀豆球蛋白A不会在小鼠B细胞中引发肌醇三磷酸释放。它也不会在负载indo-1的B细胞中诱导快速的初始钙离子上升,而只会持续增加至200 - 300 nM。最后,抗Ig和伴刀豆球蛋白A诱导的钙离子内流不受膜去极化的影响。