新型两亲性去 Muramyl 肽的设计、合成及免疫学评价

Design, synthesis and immunological evaluation of novel amphiphilic desmuramyl peptides.

作者信息

Khan Farooq-Ahmad, Ulanova Marina, Bai Bing, Yalamati Damayanthi, Jiang Zi-Hua

机构信息

Department of Chemistry, Lakehead University, 955 Oliver Road, Thunder Bay, Ontario, P7B 5E1, Canada; Medical Sciences Division, Northern Ontario School of Medicine, Lakehead University, 955 Oliver Road, Thunder Bay, Ontario, P7B 5E1, Canada.

Medical Sciences Division, Northern Ontario School of Medicine, Lakehead University, 955 Oliver Road, Thunder Bay, Ontario, P7B 5E1, Canada.

出版信息

Eur J Med Chem. 2017 Dec 1;141:26-36. doi: 10.1016/j.ejmech.2017.09.070. Epub 2017 Sep 30.

DOI:10.1016/j.ejmech.2017.09.070

PMID:29028529

Abstract

Muramyl dipeptide (MDP) - an essential bacterial cell wall component - is recognized by our immune system as pathogen-associated molecular pattern (PAMP) which results in immune responses with adverse toxic effects. In order to harness the beneficial properties from the pro-inflammatory characteristics of the bacterial cell wall motif, MDP was strategically re-designed while conserving the L-D configurations of the dipeptide moiety. The muramic acid was replaced with a hydrophilic arene and lipophilic chain was introduced at peptide end to give the amphiphilic desmuramyl peptides (DMPs). The novel DMPs were found to modulate the immune response by amplifying the LPS-induced surface glycoprotein (ICAM-1) expression in THP-1 cells without showing significant toxicity. Furthermore, these compounds were able to trigger the secretion of higher levels of pro-inflammatory cytokine (TNF-α) than the well-studied NOD2 agonist, Murabutide.

摘要

胞壁酰二肽（MDP）——一种必需的细菌细胞壁成分——被我们的免疫系统识别为病原体相关分子模式（PAMP），会引发具有不良毒性作用的免疫反应。为了利用细菌细胞壁基序促炎特性的有益特性，在保留二肽部分L-D构型的同时，对MDP进行了策略性重新设计。用亲水性芳烃取代了胞壁酸，并在肽末端引入了亲脂性链，从而得到两亲性去胞壁酰肽（DMP）。研究发现，新型DMP通过放大LPS诱导的THP-1细胞表面糖蛋白（ICAM-1）的表达来调节免疫反应，且未表现出明显毒性。此外，与深入研究的NOD2激动剂Murabutide相比，这些化合物能够引发更高水平的促炎细胞因子（TNF-α）的分泌。

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新型两亲性去 Muramyl 肽的设计、合成及免疫学评价

Design, synthesis and immunological evaluation of novel amphiphilic desmuramyl peptides.

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