Research Keyword: systemic infection

Humans vs. Fungi: An Overview of Fungal Pathogens against Humans

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Fungal infections are serious health threats that kill approximately 1.5 million people annually worldwide. This comprehensive review identifies over 280 different fungal species that can infect humans, with Aspergillus being the most dangerous genus. The study provides updated information on how these infections are diagnosed through various methods including cultures, microscopy, and molecular testing, as well as treatment options ranging from traditional antifungal drugs to newer therapies like nanotechnology-based formulations.

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Deletion of RAP1 affects iron homeostasis, azole resistance, and virulence in Candida albicans

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Researchers found that a protein called Rap1 plays a critical role in how the dangerous fungus Candida albicans acquires and uses iron, which is essential for its survival in the human body. When the RAP1 gene was deleted, the fungus became much less virulent and lethal in infected mice, while paradoxically becoming more resistant to the antifungal drug fluconazole under iron-limited conditions. These findings suggest that targeting iron acquisition through Rap1 could be a new therapeutic strategy against serious fungal infections.

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PTP1B deficiency in myeloid cells increases susceptibility to Candida albicans systemic infection by modulating antifungal immunity

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This research shows that a protein called PTP1B plays an important role in protecting the body against dangerous yeast infections caused by Candida albicans. When this protein is missing from immune cells, mice become much more susceptible to severe fungal infections. The study found that PTP1B helps immune cells called macrophages and neutrophils kill fungi effectively, and when it’s absent, these immune cells work poorly. This discovery suggests that targeting PTP1B could be a new way to help patients fight off serious fungal infections.

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PTP1B deficiency in myeloid cells increases susceptibility to Candida albicans systemic infection by modulating antifungal immunity

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This research shows that a protein called PTP1B plays an important role in protecting the body against dangerous fungal infections caused by Candida albicans. When mice lacked this protein in their immune cells, they were much more susceptible to the infection and showed severe illness. The study found that PTP1B helps immune cells like macrophages and neutrophils fight the fungus effectively, and blocking this protein could actually make fungal infections worse.

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