Barrett David
Medicinal Chemistry Research Laboratories, Fujisawa Pharmaceutical Co., Ltd., 2-1-6 Kashima, Yodogawa, Osaka 532-8514, Japan.
Biochim Biophys Acta. 2002 Jul 18;1587(2-3):224-33. doi: 10.1016/s0925-4439(02)00085-6.
In our search for natural products with a broad spectrum of antifungal activity as lead compounds for novel treatments for mycoses, we have isolated echinocandin-type lipopeptide FR901379 and lipopeptidolactone FR901469, as novel water-soluble antifungal agents that inhibit the synthesis of 1,3-beta-glucan, a key component of the fungal cell wall. Since the cell wall is a feature unique to fungi and is not present in nonfungal eukaryotic cells, inhibitors of the synthesis of fungal cell wall components such as 1,3-beta-glucan have potential for selective toxicity to fungi and not to the host. In this short review, we describe efforts directed at synthetic modification of FR901469 and FR901379 with the ultimate goal of identifying new entities with suitable profiles as development candidate compounds. The main thrust of our work to date has been replacement of the highly flexible lipophilic side chains of the natural products with a view to reducing the hemolytic potential associated with these compounds, and to enhance chemical stability and/or in vivo antifungal efficacy. As a result of these efforts, we recently discovered a novel analog, FK463 (micafungin). Micafungin is currently in phase III clinical trials worldwide as a parenteral agent for various mycoses, and a new drug application (NDA) was recently filed in Japan.
在寻找具有广谱抗真菌活性的天然产物作为新型抗真菌治疗先导化合物的过程中,我们分离出了棘白菌素型脂肽FR901379和脂肽内酯FR901469,它们是新型水溶性抗真菌剂,可抑制真菌细胞壁的关键成分1,3-β-葡聚糖的合成。由于细胞壁是真菌独有的特征,在非真菌真核细胞中不存在,因此诸如1,3-β-葡聚糖等真菌细胞壁成分合成的抑制剂对真菌具有选择性毒性而对宿主无毒性。在这篇简短的综述中,我们描述了针对FR901469和FR901379进行合成修饰的工作,最终目标是鉴定出具有合适特性作为开发候选化合物的新实体。我们迄今为止工作的主要方向是替换天然产物中高度灵活的亲脂性侧链,以降低与这些化合物相关的溶血潜力,并提高化学稳定性和/或体内抗真菌功效。通过这些努力,我们最近发现了一种新型类似物FK463(米卡芬净)。米卡芬净目前正在全球范围内进行III期临床试验,作为治疗各种真菌病的肠胃外用药,并且最近在日本提交了新药申请(NDA)。
