Grossmann M, Szkudlinski M W, Dias J A, Xia H, Wong R, Puett D, Weintraub B D
Molecular and Cellular Endocrinology Branch, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health Bethesda, Maryland 20892-1758, USA.
Mol Endocrinol. 1996 Jun;10(6):769-79. doi: 10.1210/mend.10.6.8776737.
Amino acid residues 33-44 of the common alpha-subunit of the glycoprotein hormones have been implicated in heterodimerization as well as high affinity receptor binding of human (h) CG. In the present study, we compared the role of specific amino acids within this region for glycoprotein hormone heterodimer formation, using a transient transfection system to coexpress different mutant alpha-subunit constructs with the beta-subunit of either hTSH, hCG, or hFSH. Our results identified a crucial role for alpha Pro38 in the heterodimer expression of hTSH as well as hFSH, similiar to what had been described for hCG. In contrast, alpha Ala38, which had been critical for hCG, was not essential for hTSH heterodimer expression and less important for hFSH, whereas alpha Phe33 and alpha Arg35 appeared uniquely important for hFSH. Furthermore, we assessed the role of these residues for bioactivity and receptor binding of hTSH. Mutation of the surface-exposed residues alpha Arg42-Ser43-Lys44, which form part of a unique alpha-helical structure, to Ala42-Ala43-Ala44, decreased TSH receptor binding using porcine thyroid membranes as well as rat FRTL-5 cells. Residues alpha Phe33 and alpha Arg35, in contrast, were not important for high affinity binding of hTSH. In the signal transduction of hTSH, alpha Ala36 was necessary for efficient growth induction in FRTL-5 cells but not for cAMP production in either FRTL-5 cells or Chinese hamster ovary cells expressing the human TSH receptor (JP09). Similarly, residues alpha Arg42-Ser43-Lys44 were more important for hTSH-mediated induction of cell growth than cAMP production. Mutating alpha Arg35 to Ala reduced cAMP induction but not receptor binding of hTSH. In summary, using site-directed mutagenesis, we identified a domain, residues 33-44 of the common alpha-subunit, important in heterodimer expression, receptor binding, and activation of hTSH. The comparison of the relative roles of specific amino acids within this region in hTSH with hCG and hFSH highlights previously unrecognized differences in the structural requirements for heterodimer expression among the members of the glycoprotein hormone family. Moreover, our findings revealed a novel role for residues alpha 33-44 in triggering different postreceptor events, suggesting that cAMP production and growth promotion may, at least in part, be dissociable functions of hTSH.
糖蛋白激素常见α亚基的33 - 44位氨基酸残基与异源二聚体形成以及人绒毛膜促性腺激素(hCG)的高亲和力受体结合有关。在本研究中,我们使用瞬时转染系统共表达不同的突变α亚基构建体与hTSH、hCG或hFSH的β亚基,比较了该区域内特定氨基酸在糖蛋白激素异源二聚体形成中的作用。我们的结果确定αPro38在hTSH以及hFSH的异源二聚体表达中起关键作用,这与hCG的情况类似。相比之下,对hCG至关重要的αAla38对hTSH异源二聚体表达并非必需,对hFSH的重要性较低,而αPhe33和αArg35对hFSH似乎具有独特的重要性。此外,我们评估了这些残基对hTSH生物活性和受体结合的作用。将形成独特α螺旋结构一部分的表面暴露残基αArg42 - Ser43 - Lys44突变为Ala42 - Ala43 - Ala44,使用猪甲状腺膜以及大鼠FRTL - 5细胞时,会降低TSH受体结合。相反,αPhe33和αArg35残基对hTSH的高亲和力结合并不重要。在hTSH的信号转导中,αAla36对于FRTL - 5细胞中的有效生长诱导是必需的,但对于表达人TSH受体的FRTL - 5细胞或中国仓鼠卵巢细胞中的cAMP产生则不是必需的(JP09)。同样,αArg42 - Ser43 - Lys44残基对hTSH介导的细胞生长诱导比对cAMP产生更重要。将αArg35突变为Ala会降低cAMP诱导,但不会降低hTSH的受体结合。总之,通过定点诱变,我们确定了一个结构域,即常见α亚基的33 - 44位残基,在hTSH的异源二聚体表达、受体结合和激活中起重要作用。该区域内特定氨基酸在hTSH与hCG和hFSH中的相对作用比较突出了糖蛋白激素家族成员在异源二聚体表达结构要求方面以前未被认识到的差异。此外,我们的发现揭示了α33 - 44位残基在触发不同的受体后事件中的新作用,表明cAMP产生和生长促进可能至少部分是hTSH的可分离功能。
