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兰卡杀菌素类抗生素的侧链修饰

Side chain modifications in lankacidin group antibiotics.

作者信息

McFarland J W, Pirie D K, Retsema J A, English A R

出版信息

Antimicrob Agents Chemother. 1984 Feb;25(2):226-33. doi: 10.1128/AAC.25.2.226.

DOI:10.1128/AAC.25.2.226
PMID:6370129
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC185479/
Abstract

Novel N-acyl analogs of lankacidin may be prepared from 3-isocyanatolankone diformate [7,13-bis(formyloxy)-2-isocyanato-1,4,10,19-tetramethyl-16- oxabicyclo[13.2.2.]nonadeca-3,5,9,11-tetraen-17,18-dione]. Of seven such analogs evaluated in vitro only homolankacidin diformate showed significant activity. However, in a cell-free system two of the inactive analogs inhibited polypeptide synthesis as well as did lankacidin itself or erythromycin. Antibacterial activity, therefore, is a function of the ability of a congener to penetrate the bacterial cell membrane in addition to its intrinsic activity. Similarly, lankacidinol is as potent as lankacidin or erythromycin as an inhibitor of bacterial polypeptide synthesis in a cell-free system. This intrinsic activity is expressed as potent antibacterial activity against growing gram-positive cultures in O(2')-acyl derivatives with the proper lipophilicity.

摘要

兰卡杀菌素的新型N-酰基类似物可由3-异氰酸基兰卡酮二甲酸酯[7,13-双(甲酰氧基)-2-异氰酸基-1,4,10,19-四甲基-16-氧杂双环[13.2.2]十九碳-3,5,9,11-四烯-17,18-二酮]制备。在体外评估的七种此类类似物中,只有高兰卡杀菌素二甲酸酯显示出显著活性。然而,在无细胞系统中,两种无活性的类似物抑制多肽合成的能力与兰卡杀菌素本身或红霉素相同。因此,抗菌活性不仅取决于同系物的内在活性,还取决于其穿透细菌细胞膜的能力。同样,在无细胞系统中,兰卡杀菌醇作为细菌多肽合成抑制剂的效力与兰卡杀菌素或红霉素相当。这种内在活性在具有适当亲脂性的O(2')-酰基衍生物中表现为对生长中的革兰氏阳性培养物具有强大的抗菌活性。

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本文引用的文献

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Bundlins A and B, two antibiotics produced by Strepto.束菌素A和束菌素B,由链霉菌产生的两种抗生素。
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