Bidwell J P, Carter W B, Fryer M J, Heath H
Division of Endocrinology, Metabolism, and Internal Medicine, Mayo Clinic, Rochester, Minnesota 55905.
Endocrinology. 1991 Dec;129(6):2993-3000. doi: 10.1210/endo-129-6-2993.
We showed recently that the initial peak cytosolic ionized calcium ([Ca2+]i) response to PTH (2-min exposure) is preserved relative to the cAMP response in osteoblast-like rat osteosarcoma cells (ROS 17/2.8) desensitized by 72-h exposure to PTH. We attempted in the present studies to determine the mechanisms for preservation of the [Ca2+]i response and to explore the effects of longer PTH rechallenges. The [Ca2+]i response to a 20-min perifusion with rat PTH [rPTH-(1-34)] was monitored by aequorin luminescence in both naive and PTH-desensitized ROS 17/2.8 cells. The responses of both naive and desensitized cells consisted of two phases: an initial peak, followed by an intermediate plateau that was sustained in the presence of PTH. We observed in the naive cell populations synchronous oscillations in [Ca2+]i concentration during this second phase (amplitude, 10-60 nM; frequency, 1-3/100 sec). These oscillations were maintained through extracellular calcium (EC Ca2+) entry; the initial peak was the result of Ca2+ release from intracellular stores. In desensitized cells, these two phases could not be clearly separated with respect to Ca2+ source, but, as we showed before, exhibited an enhanced dependence on EC Ca2+ entry for the response to PTH. Nevertheless, in the desensitized cells, the sustained [Ca2+]i response was diminished in magnitude and showed little oscillatory behavior. Brief exposure to neomycin sulfate, an inhibitor of phosphoinositide turnover, attenuated the PTH-induced [Ca2+]i rise in both naive and desensitized cells. Protein kinase-C activity did not appear to be required for either phase of the PTH-induced [Ca2+]i response. Exposure to cholera toxin attenuated the [Ca2+]i response to hormone in both naive and desensitized cells, more markedly in the latter. Cholera toxin treatment dramatically increased basal cAMP levels in both cell preparations; PTH-stimulated cAMP production was unchanged in naive cells, but increased nearly 4-fold in desensitized cells. We propose that the preserved PTH-induced peak [Ca2+]i rise in desensitized cells results primarily from the diminished regulation of EC Ca2+ entry by the cAMP response limb. The attenuated sustained oscillatory behavior observed in desensitized cells upon rechallenge with hormone may be the result of reduced phosphoinositide turnover and reduced Ca2+-stimulated Ca2+ release. Thus, the [Ca2+]i response to PTH in osteoblast-like cells is complex and modulable and seems to provide a number of ways to regulate intracellular metabolism under various conditions. We speculate that this plasticity of the [Ca2+]i response to PTH is related to the pleiotropic actions of the hormone on cells of the osteoblast lineage.
我们最近发现,相对于经72小时甲状旁腺激素(PTH)处理而脱敏的大鼠成骨样骨肉瘤细胞(ROS 17/2.8)中的环磷酸腺苷(cAMP)反应,对PTH(2分钟暴露)的初始峰值胞质游离钙离子([Ca2+]i)反应得以保留。在本研究中,我们试图确定[Ca2+]i反应得以保留的机制,并探究更长时间再次给予PTH的影响。通过水母发光蛋白发光监测未处理的和经PTH脱敏的ROS 17/2.8细胞对大鼠PTH[rPTH-(1-34)]20分钟灌流的[Ca2+]i反应。未处理的和脱敏的细胞反应均包括两个阶段:一个初始峰值,随后是在PTH存在下持续的中间平台期。我们在未处理的细胞群体中观察到,在此第二阶段[Ca2+]i浓度存在同步振荡(幅度为10 - 60 nM;频率为1 - 3/100秒)。这些振荡通过细胞外钙(EC Ca2+)内流得以维持;初始峰值是细胞内钙库释放Ca2+的结果。在脱敏细胞中,就Ca2+来源而言,这两个阶段无法清晰区分,但正如我们之前所表明的,对PTH的反应对EC Ca2+内流的依赖性增强。然而,在脱敏细胞中,持续的[Ca2+]i反应幅度减小且几乎没有振荡行为。短暂暴露于硫酸新霉素(一种磷酸肌醇代谢抑制剂)可减弱PTH诱导的未处理的和脱敏的细胞中[Ca2+]i的升高。蛋白激酶C活性似乎并非PTH诱导的[Ca2+]i反应的任何一个阶段所必需。暴露于霍乱毒素可减弱未处理的和脱敏的细胞中对激素的[Ca2+]i反应,在后者中更明显。霍乱毒素处理显著增加了两种细胞制剂中的基础cAMP水平;PTH刺激的cAMP产生在未处理的细胞中未改变,但在脱敏的细胞中增加了近4倍。我们提出,脱敏细胞中保留的PTH诱导的峰值[Ca2+]i升高主要源于cAMP反应分支对EC Ca2+内流的调节减弱。在用激素再次刺激时,脱敏细胞中观察到的减弱的持续振荡行为可能是磷酸肌醇代谢减少和Ca2+刺激的Ca2+释放减少的结果。因此,成骨样细胞中对PTH的[Ca2+]i反应是复杂且可调节的,似乎提供了多种在各种条件下调节细胞内代谢的方式。我们推测,这种对PTH的[Ca2+]i反应的可塑性与该激素对成骨细胞谱系细胞的多效性作用有关。
