XF药物对白色念珠菌及其生物膜的抗菌作用。

IF 2.1 Q3 MYCOLOGY
Frontiers in fungal biology Pub Date : 2023-08-22 eCollection Date: 2023-01-01 DOI:10.3389/ffunb.2023.1225647
E L Board-Davies, W Rhys-Williams, D Hynes, W G Love, D W Williams
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引用次数: 0

摘要

与治疗细菌感染的抗生素相比,抗真菌药物的数量有限。这是由于几个因素造成的,包括难以确定合适的抗真菌药物,这些药物靶向真菌细胞而不损害宿主细胞,以及与细菌引起的真菌感染相比,真菌感染的诊断率降低。人类真菌病原体抗真菌耐药性的增加加剧了治疗真菌感染的问题。三种XF药物(XF-73、XF-70和DPD-207)先前显示出天生的杀菌作用和低的微生物耐药性倾向,其中XF-73和XF-70具有第二种光激活作用机制[称为光动力疗法(PDT)]。为了扩大抗真菌药物的种类,本研究通过两种作用机制评估了XF药物在浮游和生物膜培养中对六株真菌病原体白色念珠菌的体外活性。此外,本研究在重建的人类口腔上皮模型中检测了XF药物治疗对白色念珠菌生物膜的影响。所有测试的白色念珠菌菌株都对XF-73和XF-70敏感,最小抑制浓度(MIC)在0.25µg/mL和2µg/mL之间;DPD-207的效力较低,MIC在4µg/mL至16µg/mL之间,光活化并不能增强这些MIC。在所测试的XF药物浓度下,没有报告生物膜完全根除。然而,XF药物处理后生物膜中白色念珠菌细胞的活染色和死染色表明,XF-73和XF-70对大多数64µg/mL测试的念珠菌生物膜具有活性;同样,光活化不能增强抗生物膜活性。念珠菌生物膜对DPD-207更具耐药性,256µg/mL时具有杀菌作用。XF-73和XF-70减少了白色念珠菌生物膜对重建的人类口腔上皮(RHOE)的渗透,并且与未处理的生物膜相比,造成了更小的损伤(通过减少乳酸脱氢酶释放来确定)。总体而言,研究结果突出了XF药物作为治疗白色念珠菌引起的局部感染的新药的潜力。需要进一步研究XF药物作为抗真菌药物的开发,特别是XF-73和XF-70。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Antimicrobial effects of XF drugs against <i>Candida albicans</i> and its biofilms.

Antimicrobial effects of XF drugs against <i>Candida albicans</i> and its biofilms.

Antimicrobial effects of XF drugs against <i>Candida albicans</i> and its biofilms.

Antimicrobial effects of XF drugs against Candida albicans and its biofilms.

Compared with antibiotics for treating bacterial infections, there are a limited number of antifungal agents. This is due to several factors, including the difficulties of identifying suitable antifungals that target the fungal cell without damaging host cells, and the reduced rates of diagnosis of fungal infections compared with those caused by bacteria. The problem of treating fungal infections is exacerbated by an increasing incidence of antifungal resistance among human fungal pathogens. Three XF drugs (XF-73, XF-70, and DPD-207) have previously displayed innate bactericidal effects and a low propensity for microbial resistance, with XF-73 and XF-70 having a second, light-activated mechanism of action [known as photodynamic therapy (PDT)]. In an effort to expand the repertoire of antifungal agents, this research assessed the in vitro activity of XF drugs via both mechanisms of action against six strains of the fungal pathogen Candida albicans in both planktonic and biofilm cultures. In addition, this research examined the effects of XF drug treatment on biofilms of C. albicans in a reconstituted human oral epithelium model. All C. albicans strains tested were susceptible to XF-73 and XF-70, with minimum inhibitory concentrations (MICs) between 0.25 µg/mL and 2 µg/mL; DPD-207 was less potent, with MICs between 4 µg/mL and 16 µg/mL, and light activation did not enhance these MICs. Complete biofilm eradication was not reported at the tested XF drug concentrations. However, live and dead staining of C. albicans cells in biofilms after XF drug treatment demonstrated that XF-73 and XF-70 were active against most Candida biofilms tested from 64 µg/mL; again, light activation did not enhance anti-biofilm activity. Candida biofilms were more resistant to DPD-207, with fungicidal effects occurring from 256 µg/mL. XF-73 and XF-70 reduced penetration of C. albicans biofilm into reconstituted human oral epithelium (RHOE) and resulted in less damage (as determined by reduced lactate dehydrogenase release) than untreated biofilms. Overall, the results highlight the potential of XF drugs as new drugs for the management of topical infections caused by C. albicans. Further studies are warranted on the development of XF drugs as antifungals, particularly for XF-73 and XF-70.

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