State Key Laboratory of Drug Research, Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai 201203, P. R. China.
University of Chinese Academy of Sciences, Beijing 100049, P. R. China.
J Med Chem. 2022 Jul 14;65(13):8897-8913. doi: 10.1021/acs.jmedchem.1c02227. Epub 2022 Jul 4.
Amphotericin B (AMB, ) is the most powerful antibiotic in treating potentially life-threatening invasive fungal infections (IFIs), though severe toxicity derived from self-aggregation greatly limits its clinical application. Herein, we applied a bisamidation strategy at the C16-COOH and C3'-NH to improve the therapeutic properties by suppressing self-aggregation. It was found that basic amino groups at the residue of C16 amide were beneficial to activity, while lipophilic fragments contributed to toxicity reduction. Additionally, -methyl-amino acetyl and amino acetyl moieties at C3' amide could help keep the fungistatic effectiveness. The modification work culminated in the discovery of (ED = 0.21 mg/kg), which exerted a 1.5-fold stronger antifungal efficacy than amphamide, the optimal derivative theretofore, in mice, low self-aggregation propensity, and thus low acute toxicity. With the improvement in therapeutic index and good PK profile, is promising for further development as a second-generation polyene antifungal agent.
两性霉素 B(AMB)是治疗危及生命的侵袭性真菌感染(IFI)最有效的抗生素,但由于其自聚集导致的严重毒性极大地限制了其临床应用。在此,我们通过酰胺化反应在 C16-COOH 和 C3'-NH 上进行双酰胺化修饰,以抑制自聚集来改善治疗特性。结果发现,C16 酰胺残基上的碱性氨基基团有利于提高活性,而亲脂性片段有助于降低毒性。此外,C3' 酰胺上的 -甲基-氨基乙酰基和氨基乙酰基部分有助于保持抑菌效果。修饰工作的最终成果是发现化合物 (ED = 0.21 mg/kg),与迄今为止最佳的衍生物两性霉素酰胺相比,它在小鼠中的抗真菌功效提高了 1.5 倍,自聚集倾向更低,因此急性毒性更低。由于治疗指数的提高和良好的 PK 特征,化合物 作为第二代多烯抗真菌药物具有广阔的开发前景。
