Kosugi S, Okajima F, Ban T, Hidaka A, Shenker A, Kohn L D
Cell Regulation Section, National Institute of Diabetes and Digestive and Kidney Diseases Bethesda, Maryland 20892.
Mol Endocrinol. 1993 Aug;7(8):1009-20. doi: 10.1210/mend.7.8.7901757.
TSH and immunoglobulin G (IgG) preparations from patients with Graves' disease increase inositol phosphate as well as cAMP formation in Cos-7 cells transfected with rat TSH receptor (TSHR) cDNA. In a previous report, we mutated alanine 623 of the third cytoplasmic loop (residues 605-625) of the TSHR and showed it was critical for TSH and Graves' IgG initiation of phosphatidylinositol bisphosphate (PIP2) but not cAMP signaling. In this report, we substituted residues in the third loop of the TSHR with sequences from the N- and C-termini of the third loop of the alpha 1- and beta 2-adrenergic receptors (ARs), which computer analysis has identified as homologous to those in the TSHR. Alanine 623 is conserved in most ARs as well as in glycoprotein hormone receptors; there is, therefore, no change in alanine 623. After transfection of the mutant TSHR cDNAs into Cos-7 cells, we show that the mutant proteins are normally synthesized, processed, and incorporated into the membrane bilayer by Western blotting with a specific receptor antibody. We also show that the dissociation constant for TSH binding in all mutants is the same or lower than wild type TSHR. We then evaluated the ability of TSH or Graves' IgG to increase PIP2 and cAMP signals in each transfectant. Mutants A622 and B621 replace, respectively, residues 622-625 and 621-625 of the TSHR with alpha 1- and beta 2-AR residues from the C-terminus of the third cytoplasmic loop; mutants A607 and B605 replace, respectively, TSHR residues 607-609 and 605-609 with N-terminus residues from alpha 1- and beta 2-AR. All four mutants, like the alanine 623 mutant, result in transfected cells which lose TSH and Graves' IgG initiation of PIP2 but not cAMP signalling. Like the alanine 623 mutation to glutamic acid, the A607, B605, A622, and B621 mutants also result in decreased basal cAMP, but not inositol phosphate levels, relative to wild type receptor. In contrast to these results, mutants A610, B610, A617, and B617, which replace residues 610-613 or 617-620 of the TSHR with corresponding residues of the alpha 1- and beta 2-AR, retain TSH and Graves' IgG responsiveness in both inositol phosphate and cAMP assays. Mutation of residues 610-613, in fact, potentiates TSH-increased inositol phosphate production, despite having no effect on TSH-increased cAMP production.(ABSTRACT TRUNCATED AT 250 WORDS)
来自格雷夫斯病患者的促甲状腺激素(TSH)和免疫球蛋白G(IgG)制剂可增加转染了大鼠促甲状腺激素受体(TSHR)cDNA的Cos-7细胞中肌醇磷酸以及环磷酸腺苷(cAMP)的生成。在之前的一份报告中,我们对TSHR第三细胞质环(第605 - 625位氨基酸)的丙氨酸623进行了突变,并表明其对TSH和格雷夫斯病IgG引发磷脂酰肌醇二磷酸(PIP2)信号而非cAMP信号至关重要。在本报告中,我们用α1 - 和β2 - 肾上腺素能受体(ARs)第三环的N端和C端序列替换了TSHR第三环中的氨基酸残基,计算机分析已确定这些序列与TSHR中的序列同源。丙氨酸623在大多数ARs以及糖蛋白激素受体中是保守的;因此,丙氨酸623没有变化。将突变的TSHR cDNA转染到Cos-7细胞后,我们通过用特异性受体抗体进行蛋白质印迹分析表明,突变蛋白能够正常合成、加工并整合到膜双层中。我们还表明,所有突变体中TSH结合的解离常数与野生型TSHR相同或更低。然后,我们评估了TSH或格雷夫斯病IgG在每种转染细胞中增加PIP2和cAMP信号的能力。突变体A622和B621分别用第三细胞质环C端的α1 - 和β2 - AR残基替换了TSHR的第622 - 625位和第621 - 625位残基;突变体A607和B605分别用α1 - 和β2 - AR的N端残基替换了TSHR的第607 - 609位和第605 - 609位残基。所有这四个突变体,与丙氨酸623突变体一样,导致转染细胞失去TSH和格雷夫斯病IgG引发的PIP2信号,但不影响cAMP信号。与丙氨酸623突变为谷氨酸一样,A607、B605、A622和B621突变体相对于野生型受体也导致基础cAMP水平降低,但肌醇磷酸水平未降低。与这些结果相反,用α1 - 和β2 - AR的相应残基替换TSHR第610 - 613位或第617 - 620位残基的突变体A610、B610、A617和B617在肌醇磷酸和cAMP测定中均保留了对TSH和格雷夫斯病IgG的反应性。实际上,第610 - 613位残基的突变增强了TSH增加的肌醇磷酸生成,尽管对TSH增加的cAMP生成没有影响。(摘要截断于250字)
