甲状旁腺激素相关蛋白(PTHrP) 1-34和PTH 1-34均可刺激大鼠骨和肾细胞中环状AMP的形成。

E Blind, F Raue, V Knappe, J Schroth, R Ziegler
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引用次数: 20

摘要

甲状旁腺激素相关蛋白(PTHrP)在恶性肿瘤体液性高钙血症的发病机制中起重要作用。它与甲状旁腺激素受体相互作用,因此对骨细胞的作用与甲状旁腺激素几乎相同。然而,PTHrP被认为在刺激犬肾膜腺苷酸环化酶方面不如PTH有效,导致PTHrP在骨和肾信号转导方面的不同效率的假设。在一个具有完整成骨细胞样细胞(UMR 106)和原代肾细胞的同源模型中,我们根据大鼠氨基酸序列1-34测试了PTH和PTHrP的n端肽片段。与PTHrP(1-34)相比,大鼠PTH(1-34)在骨细胞(85%)和肾细胞(140%)中刺激腺苷酸环化酶的能力具有相似的相对效力。在两种细胞类型中,人PTH(1-34)的效力比大鼠PTH(1-34)低5.6- 6.5倍。在人成骨细胞样细胞(SaOS-2)中,与PTHrP(1-34)(在大鼠和人中相同的序列)相比,大鼠和人PTH在刺激cAMP积累方面基本相同。总之,我们的研究揭示了大鼠PTH(1-34)和PTHrP(1-34)在刺激大鼠骨和肾细胞同源系统中细胞内cAMP形成的同等功效。与骨细胞相比,PTHrP对大鼠肾细胞腺苷酸环化酶似乎没有独特的信号转导机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cyclic AMP formation in rat bone and kidney cells is stimulated equally by parathyroid hormone-related protein (PTHrP) 1-34 and PTH 1-34.

Parathyroid hormone-related protein (PTHrP) plays a major role in the pathogenesis of humoral hypercalcemia of malignancy. It interacts with the PTH receptor and has therefore a nearly identical effect on bone cells as PTH. However, PTHrP is thought to be less potent than PTH in stimulating adenylate cyclase in canine renal membranes, leading to the hypothesis of a differential efficiency in signal transduction by PTHrP with respect to bone vs kidney. In a homologous model with intact osteoblast-like cells (UMR 106) and primary kidney cells, both from the rat, we have tested N-terminal peptide fragments, based on the rat amino acid sequence 1-34, of PTH and PTHrP. Compared with PTHrP(1-34), rat PTH(1-34) had a similar relative potency in bone cells (85%) and in kidney cells (140%) in its ability to stimulate adenylate cyclase. Human PTH(1-34) was 5.6- to 6.5-fold less potent than rat PTH(1-34) in both cell types. In human osteoblast-like cells (SaOS-2), rat and human PTH were essentially equally potent compared to PTHrP(1-34) (identical sequence in rat and human) in stimulating cAMP accumulation. In conclusion, our study revealed the equipotency of rat PTH(1-34) and PTHrP(1-34) in stimulating intracellular cAMP formation in a homologous system of rat bone and kidney cells. There seemed to be no unique signal transduction mechanism of PTHrP to the adenylate cyclase in rat kidney cells compared with bone cells.

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