Saeger Sarah, West-Jeppson Kathryn, Liao Yu-Rou, Campuzano Althea, Yu Jieh-Juen, Lopez-Ribot Jose, Hung Chiung-Yu
Department of Molecular Microbiology and Immunology, South Texas Center for Emerging Infectious Diseases, The University of Texas at San Antonio, San Antonio, Texas, USA.
mBio. 2025 May 14;16(5):e0020525. doi: 10.1128/mbio.00205-25. Epub 2025 Mar 26.
Coccidioidomycosis or valley fever is a treatment-limited fungal infection endemic to the alkaline deserts of North and South America for which two classes of antifungals are typically used: the polyenes and the triazoles. In light of the limited usefulness of the echinocandins and a growing trend of azole resistance, it is essential that we identify novel antifungals. In this study, we have developed and optimized a screening methodology for identifying potential antifungals effective against spherule initials using a metabolic assay, used it to screen four diverse drug libraries with limited drug overlap, and established safety and efficacy data for a majority of the compounds, including the Broad Repurposing Hub, Prestwick Chemicals 1520, Selleck L8200 Anti-parasitic, and MedChemExpress CNS Penetrants libraries. Hits were defined as compounds with strong metabolic inhibition (≥70%), which were significantly different compared to the median plate readout (B-scores ≤ -3). We identified 30 promising hits and found 12 compounds exhibiting half-maximal inhibitory concentrations below 6 µM. Among these, oxethazaine, niclosamide ethanolamine, 10058-F4, niclosamide (NIC), and pentamidine isethionate showed synergy with amphotericin B, suggesting their potential use in combination therapy. Further assessment of lead compounds' effects on spherules was conducted by image flow cytometry. Additionally, we explored the potential to use an attenuated, Biosafety Level 2 containment mutant, ∆/∆/∆ (∆T), as a surrogate model for drug screening. Overall, our findings provide a foundation for future research focused on screening and developing novel coccidioidomycosis treatments.IMPORTANCEThe antifungal treatment arsenal is especially limited against . Due to toxicity concerns, amphotericin B is generally reserved for triazole-recalcitrant infections. Recent laboratory susceptibility tests show an increase in fluconazole resistance, highlighting a need for new treatments. We have developed a large-scale metabolic screening assay under Biosafety Level 3 containment to identify existing drugs with novel activity against spherules. This drug-repurposing approach represents a convenient and cost-effective strategy to increase the available antifungals effective against these infections.
球孢子菌病或山谷热是一种治疗受限的真菌感染,流行于北美洲和南美洲的碱性沙漠地区,通常使用两类抗真菌药物进行治疗:多烯类和三唑类。鉴于棘白菌素的效用有限以及唑类耐药性的不断增加,确定新型抗真菌药物至关重要。在本研究中,我们开发并优化了一种筛选方法,通过代谢测定法来鉴定对球形体初期有效的潜在抗真菌药物,并用该方法筛选了四个药物重叠有限的不同药物库,为大多数化合物建立了安全性和有效性数据,这些化合物包括布罗德重新利用中心库、普雷斯蒂克化学1520库、赛莱克L8200抗寄生虫库和MedChemExpress中枢神经系统渗透剂库。命中化合物定义为具有强烈代谢抑制作用(≥70%)的化合物,与平板读数中位数相比有显著差异(B分数≤ -3)。我们鉴定出30个有前景的命中化合物,并发现12种化合物的半数最大抑制浓度低于6 μM。其中,奥昔卡因、氯硝柳胺乙醇胺、10058 - F4、氯硝柳胺(NIC)和喷他脒异硫氰酸盐与两性霉素B表现出协同作用,表明它们在联合治疗中的潜在用途。通过图像流式细胞术对先导化合物对球形体的影响进行了进一步评估。此外,我们探索了使用减毒的生物安全2级限制突变体∆/∆/∆(∆T)作为药物筛选替代模型的潜力。总体而言,我们的研究结果为未来专注于筛选和开发新型球孢子菌病治疗方法的研究奠定了基础。重要性抗真菌治疗药物库对于[此处原文缺失相关内容]特别有限。由于毒性问题,两性霉素B通常仅用于对三唑类耐药的感染。最近的实验室药敏试验显示氟康唑耐药性增加,凸显了对新治疗方法的需求。我们在生物安全3级限制条件下开发了一种大规模代谢筛选测定法,以鉴定对球形体具有新活性的现有药物。这种药物重新利用方法是一种方便且经济高效的策略,可增加对这些感染有效的可用抗真菌药物。
