Innamorati G, Sadeghi H, Eberle A N, Birnbaumer M
Department of Anesthesiology and Molecular Biology Institute, UCLA School of Medicine, Los Angeles, California 90095, USA.
J Biol Chem. 1997 Jan 24;272(4):2486-92. doi: 10.1074/jbc.272.4.2486.
The V2 vasopressin receptor undergoes ligand-induced sequestration and desensitization (Birnbaumer, M., Antaramian, A., Themmen, A. P. N., and Gilbert, S. (1992) J. Biol. Chem. 267, 11783-11788). The V2 receptor expressed in transfected cells labeled with [32P] orthophosphate was phosphorylated following the addition of 100 nM arginine vasopressin (AVP). Phosphorylation was complete 5 min after addition of AVP, and was not stimulated by increased levels of Ca2+ or cAMP. The half-maximal dose of AVP that stimulated phosphorylation was 2.4 +/- 0.4 nM, similar to the receptor KD of 4. 5 +/- 0.4 nM. The role of phosphorylation on receptor desensitization was investigated by studying two vasopressin receptors 14 and 27 amino acids shorter than the wild type receptor. The missing segments were not needed for normal ligand binding or coupling to Gs, but the last 14 amino acids were required for phosphorylation. The truncated receptors exposed to 100 nM AVP were sequestered and desensitized. The R137H V2R mutant receptor that binds vasopressin with wild type-like affinity and does not couple to Gs (Rosenthal, W., Antaramian, A., Gilbert, S., and Birnbaumer, M. (1993) J. Biol. Chem. 268, 13030-13033) was phosphorylated and subjected to ligand-induced sequestration. These results established that phosphorylation is not essential for sequestration and desensitization of the V2 vasopressin receptor. Furthermore, they revealed that the conformation acquired after ligand occupancy is necessary for receptor phosphorylation and sequestration, while coupling to Gs is not.
V2血管加压素受体可经历配体诱导的内吞和脱敏(比尔鲍默,M.,安塔拉米安,A.,特门,A.P.N.,和吉尔伯特,S.(1992年)《生物化学杂志》267卷,11783 - 11788页)。在用[32P]正磷酸盐标记的转染细胞中表达的V2受体,在加入100 nM精氨酸血管加压素(AVP)后发生磷酸化。加入AVP后5分钟磷酸化完成,且不受Ca2+或cAMP水平升高的刺激。刺激磷酸化的AVP半数最大剂量为2.4±0.4 nM,与受体KD值4.5±0.4 nM相似。通过研究两种比野生型受体分别短14个和27个氨基酸的血管加压素受体,来探讨磷酸化在受体脱敏中的作用。缺失的片段对于正常的配体结合或与Gs偶联并非必需,但最后14个氨基酸是磷酸化所必需的。暴露于100 nM AVP的截短受体发生了内吞和脱敏。结合血管加压素时具有野生型样亲和力且不与Gs偶联的R137H V2R突变受体(罗森塔尔,W.,安塔拉米安,A.,吉尔伯特,S.,和比尔鲍默,M.(1993年)《生物化学杂志》268卷,13030 - 13033页)发生了磷酸化并经历了配体诱导的内吞。这些结果表明,磷酸化对于V2血管加压素受体的内吞和脱敏并非必需。此外,它们还揭示,配体占据后获得的构象对于受体磷酸化和内吞是必需的,而与Gs偶联则不是。
