The molecular basis for therapeutic concepts utilizing CD14.

F Stelter, M Bernheiden, R Menzel, S Witt, R S Jack, U Grunwald, X Fan, C Schütt
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Abstract

The CD14 molecule is a key receptor on myeloid lineage cells involved in the recognition of lipopolysaccharide (LPS) and Gram-negative bacteria. The application of its soluble form, sCD14, has been shown to protect mice from lethality in LPS-induced shock. Therefore the protein or its derivatives may be considered as a possible therapeutic alternative for the treatment of patients suffering from Gram-negative septic shock. In this study we performed an alanine scan of amino acids 1 to 152 of human CD14. Twenty-three substitution mutants were generated and stably transfected into CHO-cells. In each mutant five amino acids were substituted by alanine. We analyzed (a) whether mutant proteins expressed on the surface of transfectants were recognized by a panel of anti-CD14 monoclonal antibodies (mAb's), (b) the ability of mCD14-mutants to bind LPS and E. coli in a serum- or LBP-dependent manner, and (c) the capacity of soluble mutants to mediate the LPS-induced IL 6 release of U 373 astrocytoma cells. Twenty-one CD14-mutants were expressed on the surface of transfectants and 18 were present as soluble forms in the culture supernatants. We demonstrated that only CD14(39-41,43-44)A completely lacked the ability to bind LPS and E. coli. In addition, a combined mutant CD14(9-13/57,59,61-63)A had very limited capacity to interact with LPS indicating that the LPS-binding site of human CD14 is a conformational epitope. Analysis of LPS-induced activation of CD14-negative U 373 cells revealed that the regions 9-13 and 91-101 are most important for sCD14-mediated signalling.

利用CD14治疗概念的分子基础。
CD14分子是髓系细胞上参与脂多糖(LPS)和革兰氏阴性细菌识别的关键受体。其可溶性形式sCD14的应用已被证明可以保护lps诱导的休克小鼠免于死亡。因此,该蛋白或其衍生物可被认为是治疗革兰氏阴性脓毒性休克患者的一种可能的治疗选择。在这项研究中,我们对人类CD14的氨基酸1至152进行了丙氨酸扫描。产生23个替代突变体,并稳定地转染到cho细胞中。在每个突变体中,有5个氨基酸被丙氨酸取代。我们分析了(a)转染表面表达的突变蛋白是否被一组抗cd14单克隆抗体(mAb’s)识别,(b) mcd14突变体以血清或lbp依赖的方式结合LPS和大肠杆菌的能力,以及(c)可溶性突变体介导LPS诱导的u373星形细胞瘤细胞IL - 6释放的能力。21个cd14突变体在转染物表面表达,18个以可溶性形式存在于培养上清液中。我们证明只有CD14(39-41,43-44)A完全缺乏结合LPS和大肠杆菌的能力。此外,一个组合突变体CD14(9-13/57,59,61-63) a与LPS的相互作用能力非常有限,这表明人类CD14的LPS结合位点是一个构象表位。对lps诱导的cd14阴性u373细胞的活化分析显示,9-13和91-101区域对scd14介导的信号传导最为重要。
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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