Receptor-specific activity of heteromeric thyrotropin (TSH) analogs: development of synthetic TSH antagonists.

Peptide research Pub Date : 1995-09-01
M T Sheehan, D E Morbeck, E R Bergert, D J McCormick, R P Milius, J C Morris
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Abstract

In an attempt to create potent and specific inhibitors of the interaction of thyrotropin (thyroid-stimulating hormone [TSH]) with its receptor, we designed a series of 18 synthetic peptides containing sequences of both alpha and beta subunits that were shown previously to interact with the TSH receptor. These "heteromeric" peptide analogs included amino acid residues from alpha 26-46, beta 31-52, beta 88-95 and beta 101-112 that were arranged variously and were separated from each other by artificial amino acid spacers. Each peptide was tested for its ability to interact with the TSH receptor in a radio-receptor assay (TSH-RRA) using porcine thyroid membranes and a bio-assay for TSH using FRTL-5 cells. Twelve of the 18 peptides showed binding activity in the TSH-RRA. None of the analogs demonstrated thyroid stimulatory activity, but five inhibited TSH bioactivity and were, thus, pure antagonists, the most potent possessing EC50 values in the 3-5 microM range. Specificity of the antagonists was tested by measuring their ability to inhibit hCG binding to ovarian membranes, hCG-stimulated progesterone production in MA-10 rat Leydig tumor cells and FSH binding to testicular membranes. Only those peptides that included the alpha-subunit sequence CFSR or CCFSR exhibited binding activity for the heterologous receptors, and that activity was 10-fold lower than in the TSH assays. None of the heteromeric peptides showed activity in the hCG bioassays, further demonstrating their specificity as TSH antagonists. These studies illustrate the utility of a synthetic peptide approach in the development of analogs of peptide hormones. Future alterations that significantly enhance the potency of these antagonists may result in substances with clinical efficacy in diseases such as Graves' disease and differentiated thyroid cancer that involve the thyrotropin receptor.

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异源性促甲状腺激素(TSH)类似物的受体特异性活性:合成TSH拮抗剂的发展。
为了创造促甲状腺激素(促甲状腺激素[TSH])与其受体相互作用的有效和特异性抑制剂,我们设计了一系列18个合成肽,其中包含α和β亚基序列,这些序列先前已被证明与TSH受体相互作用。这些“异质”肽类似物包括α 26-46、β 31-52、β 88-95和β 101-112的氨基酸残基,这些氨基酸残基排列不同,并通过人工氨基酸间隔物相互分离。在猪甲状腺膜放射受体试验(TSH- rra)和FRTL-5细胞TSH生物试验中,测试了每种肽与TSH受体相互作用的能力。18个肽中有12个在TSH-RRA中显示结合活性。没有一种类似物显示出甲状腺刺激活性,但有五种抑制TSH生物活性,因此是纯拮抗剂,最有效的EC50值在3-5微米范围内。拮抗剂的特异性通过测定其抑制hCG与卵巢膜结合、hCG刺激的MA-10大鼠间质瘤细胞黄体酮产生和FSH与睾丸膜结合的能力来检验。只有那些包含α -亚基序列CFSR或CCFSR的肽显示出与异源受体的结合活性,其活性比TSH试验低10倍。异质肽在hCG生物测定中没有显示出活性,进一步证明了它们作为TSH拮抗剂的特异性。这些研究说明了合成肽方法在肽激素类似物开发中的效用。未来显著增强这些拮抗剂效力的改变可能会产生对格雷夫斯病和分化甲状腺癌等涉及促甲状腺素受体的疾病具有临床疗效的物质。
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