Identification and synthesis of altered peptides modulating T cell recognition of a synthetic peptide antigen.

N J Ede, W Chen, J McCluskey, D C Jackson, A W Purcell
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Abstract

In studies of T cell responses to synthetic peptides we have observed agonist and antagonist activities associated with contaminants identified within the parent synthesis. The synthesis of two candidate analogues implied by a peptide contaminant formed during the synthesis of La 51-58 (IMIKFNRL) has been carried out. The peptide contaminant was 17-18 Da smaller than the parent peptide consistent with a modified asparagine residue at position 6 and so we synthesised both an aspartimide and a nitrile analogue, representing cyclisation or dehydration of the asparagine residue. The candidate aspartimide and nitrile analogues both bound empty MHC class I molecules to form allo determinants recognised by monoclonal antibodies. These results demonstrate that altered synthetic peptides can bind class I MHC molecules and prompt caution in the use of synthetic peptides as a source of immunising antigen.

调节T细胞对合成肽抗原识别的改变肽的鉴定和合成。
在T细胞对合成肽反应的研究中,我们观察到与母体合成中确定的污染物相关的激动剂和拮抗剂活性。合成了La 51-58 (IMIKFNRL)合成过程中形成的肽污染物所隐含的两个候选类似物。肽污染物比母肽小17-18 Da,与位置6的改性天冬酰胺残留物一致,因此我们合成了阿斯巴胺和腈类似物,代表了天冬酰胺残留物的环化或脱水。候选的阿斯巴胺和腈类似物都结合空的MHC I类分子,形成单克隆抗体识别的同种异体决定因子。这些结果表明,改变的合成肽可以结合I类MHC分子,并提示在使用合成肽作为免疫抗原来源时要谨慎。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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