McLaughlin Jay P, Myers Lisa C, Zarek Paul E, Caron Marc G, Lefkowitz Robert J, Czyzyk Traci A, Pintar John E, Chavkin Charles
Department of Pharmacology, University of Washington School of Medicine, Seattle, WA 98195, USA.
J Biol Chem. 2004 Jan 16;279(3):1810-8. doi: 10.1074/jbc.M305796200. Epub 2003 Nov 3.
Kappa opioid receptor (KOR) desensitization was previously shown to follow agonist-dependent phosphorylation of serine 369 by G-protein receptor kinase (GRK) and beta-arrestin binding in transfected cells. To study the in vivo effects induced by phosphorylation of KOR(S369), C57Bl/6 mice were administered single or repeated doses of the KOR agonist, U50,488, and isolated brain glycoprotein was probed with an antibody, KOR-P, that specifically recognized phosphoserine 369 KOR. Western blot analysis using KOR-P antibody showed that labeling intensity increased after either single or repeated treatment of mice with U50,488 by 59 +/- 22% and 101 +/- 29%, respectively. In contrast, there was no change in labeling intensity by nonphosphoselective KOR antibodies following acute or chronic in vivo treatment with kappa agonist. Moreover, mice lacking GRK3 showed no increase in KOR-P labeling and developed significantly less analgesic tolerance following treatment with kappa agonist. The result suggests that tolerance to kappa agonists includes phosphorylation of serine 369 within KOR by GRK3. Recovery of analgesic potency and reduction of elevated KOR-P labeling in wild-type mice both required 2 weeks to return to base line. Consistent with these results, in vitro phosphorylation by GRK3 of KOR isolated from tolerant mice resulted in 46 +/- 7% less (32)P incorporation than in KOR isolated from untreated mice. In addition, in vitro (32)P incorporation returned to base line levels only in KOR isolated from tolerant mice allowed to recover for 2 weeks. The coincident reversal of analgesic tolerance and slow return to a basal phosphorylation state matched the regeneration rate of functional kappa receptors following irreversible antagonism and suggested that receptor replacement rather than dephosphorylation was required to restore sensitivity.
κ阿片受体(KOR)脱敏作用先前已表明,在转染细胞中,它是由G蛋白偶联受体激酶(GRK)对丝氨酸369进行激动剂依赖性磷酸化以及β-抑制蛋白结合所导致的。为了研究KOR(S369)磷酸化所诱导的体内效应,给C57Bl/6小鼠单次或重复给予KOR激动剂U50,488,并用一种特异性识别磷酸化丝氨酸369的KOR的抗体KOR-P对分离出的脑糖蛋白进行检测。使用KOR-P抗体的蛋白质印迹分析表明,在用U50,488单次或重复处理小鼠后,标记强度分别增加了59±22%和101±29%。相比之下,在用κ激动剂进行急性或慢性体内处理后,非磷酸化选择性KOR抗体的标记强度没有变化。此外,缺乏GRK3的小鼠在接受κ激动剂治疗后,KOR-P标记没有增加,并且产生的镇痛耐受性明显较低。结果表明,对κ激动剂的耐受性包括GRK3对KOR内丝氨酸369的磷酸化。野生型小鼠镇痛效力的恢复以及升高的KOR-P标记的降低都需要2周时间才能恢复到基线水平。与这些结果一致,从耐受小鼠中分离出的KOR经GRK3体外磷酸化后,其(32)P掺入量比从未经处理的小鼠中分离出的KOR少46±7%。此外,体外(32)P掺入量仅在从耐受小鼠中分离出的KOR恢复2周后才恢复到基线水平。镇痛耐受性的同时逆转以及缓慢恢复到基础磷酸化状态与不可逆拮抗作用后功能性κ受体的再生速率相匹配,这表明恢复敏感性需要受体替换而不是去磷酸化。