Fungal infections are a global concern and the evolution of intrinsic resistance to current antifungals presents an alarming problem. For Cryptococcus neoformans, a human fungal pathogen of primarily immunocompromised individuals, resistance toward treatment strategies demands alternative approaches. Given the prevalence of virulence factor production during cryptococcal infection, an emerging and important field of research encompasses the development of novel antivirulence therapies proposed to improve host immune responses and promote fungal clearance. To accomplish this task, information regarding the presence and role of virulence factors, the mechanisms of action within the host, and the ability to influence fungal susceptibility to antifungals is pertinent. Research into mechanisms of antifungal resistance for C. neoformans is limited but extrapolation from successful studies in other fungal species can improve our understanding of mechanisms employed by C. neoformans and suggest targeted strategies to enhance our ability to combat the pathogen. In this Review, we highlight antifungal therapy options against Cryptococcus, explore current knowledge of underlying mechanisms promoting resistance, and present new opportunities for novel and effective strategies to overcome fungal infections and reduce, or possibly even reverse, the effects of resistance evolution.
The prevalence of fungal diseases is increasing on a global scale, ranging from acute to systemic infections caused by commensal or pathogenic microorganisms, often associated with the immune status of the host. Morbidity and mortality rates remain high and our ability to treat fungal infections is challenged by a limited arsenal of antifungal agents and the emergence of drug resistant pathogens. There is a high demand for new approaches to elucidate the fungal mechanisms of pathogenesis and the interplay between host and pathogen to discover novel treatment options. Moreover, the need for improved drug efficacy and reduced host toxicity requires the identification and characterization of antifungal biological targets and molecular mechanisms of action. Mass spectrometry (MS)-based proteomics is a rapidly advancing field capable of addressing these priorities by providing comprehensive information on the dynamics of cellular processes, modifications, and interactions. In this Review, we focus on applications of MS-based proteomics in a diverse array of fungal pathogens and host systems to define and distinguish the molecular details of fungal pathogenesis and host–fungal interactions. We also explore the emerging role of MS-based proteomics in the discovery and development of novel antifungal therapies and provide insight into the future of MS-based proteomics in fungal biology.
Cryptococcus neoformans, an opportunistic yeast-like fungal pathogen, has demonstrated resistance to all major classes of antifungals used to treat cryptococcal meningitis. However, combatting this fungal disease is an ongoing challenge among clinicians due to the evolution of antifungal-resistant strains. The limited availability of clinically approved antifungals has heightened the urgency to investigate the molecular mechanisms underscoring resistance. Studying how a fungal pathogen evolves to an antifungal drug in vitro using experimental evolution provides a simple, yet powerful approach to study the mechanisms of antifungal resistance. Experimental evolution involves the serial passaging of microbial populations under laboratory conditions, such that adaptive mutations can occur and be monitored in real time. This technique plays a key role in investigating the mechanisms of antifungal resistance in C. neoformans, and this can help in developing novel strategies to combat the emergence of resistance. Here, we outline how to make overnight cultures of C. neoformans and how to perform experimental evolution, and we present a spectrophotometric analysis to evaluate the evolution of antifungal resistance.
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