Anti-Therapeutic Action: antifungal resistance mechanisms

China’s innovative national plan to combat fungal diseases and antifungal resistance

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China has created a comprehensive national system to fight fungal infections and drug resistance. The system monitors fungal diseases across hundreds of hospitals throughout the country to track which infections are most common and which antifungal medicines are becoming less effective. Early findings show that many hospitals lack proper facilities for testing fungal infections, and some fungi are developing resistance to commonly used antifungal drugs, particularly fluconazole.

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Synergistic effects of Cyp51 isozyme-specific azole antifungal agents on fungi with multiple cyp51 isozyme genes

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This study found that different azole antifungal drugs work better against different versions of an enzyme (Cyp51) that fungi need to survive. By combining two azole drugs that each target different enzyme versions, researchers achieved stronger antifungal effects than either drug alone. This discovery suggests a new strategy for treating stubborn fungal infections by carefully selecting drug combinations based on which enzyme versions the fungus possesses.

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Breaking down the wall: Solid-state NMR illuminates how fungi build and remodel diverse cell walls

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Scientists have developed a new technique called solid-state NMR that can examine fungal cell walls without damaging them, revealing how these structures are built and reorganized. This research shows that different fungi have different wall architectures made of sugar-like molecules including chitin and various glucans, and that fungi can quickly adapt their walls when exposed to antifungal drugs. These findings could help develop better antifungal treatments by targeting the specific structural features that different fungi rely on for survival.

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