immune evasion – mycolab.ai

Rhizoctonia solani Secretes RsCAP3 to Target Nb14–3–3b, Interfering with Hormone-Mediated Resistance in Tobacco

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A fungal disease that damages tobacco plants produces a protein called RsCAP3 that helps it evade plant immune defenses. This protein hijacks a plant defense regulator, causing the plant to activate the wrong defense pathway while suppressing another crucial defense mechanism. By manipulating these natural plant defenses, the fungus can infect the tobacco more easily, leading to disease.

The dimorphic fungus Talaromyces marneffei: An opportunistic killer in Southeast Asia

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Talaromyces marneffei is a dangerous fungus found in Southeast Asian soils that causes serious lung infections when people breathe in its spores. The fungus has a clever trick: it transforms into different forms depending on temperature and hides inside immune cells by tricking them. People with weak immune systems, particularly those with advanced HIV/AIDS or certain genetic conditions, are most vulnerable to severe disease.

Essential role of sugar transporters BbStp13 in fungal virulence, conidiation, and cell wall integrity in entomopathogenic fungus Beauveria bassiana

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Researchers studied a fungus called Beauveria bassiana that is used to control insect pests. They found that a protein called BbStp13, which helps the fungus absorb sugars, is crucial for the fungus to infect insects effectively and make spores for spreading. When they removed this protein, the fungus became less dangerous to pests and couldn’t reproduce as well, especially when there wasn’t much food available. These findings could help make this natural pest control method even better.

Protein kinase A signaling regulates immune evasion by shaving and concealing fungal β-1,3-glucan

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Candida albicans, a common fungal pathogen, uses a clever strategy to hide from the immune system by masking a molecule on its surface that would normally trigger an immune response. Researchers used both computer modeling and laboratory experiments to show that this hiding strategy involves two main processes: the fungus grows and exposes the molecule, while simultaneously using enzymes to shave it away. They found that a cellular signaling pathway called PKA is essential for activating these shaving enzymes in response to lactate, a signal from the host environment.

The dimorphic fungus Talaromyces marneffei: An opportunistic killer in Southeast Asia

mycolabadmin

Talaromyces marneffei is a dangerous fungus found in Southeast Asian soil that people inhale, causing a serious disease called talaromycosis. The fungus is particularly deadly for people with weakened immune systems like those with advanced HIV. The fungus has evolved clever tricks to hide from and manipulate the body’s immune system, allowing it to multiply inside immune cells called macrophages.

Acidic pH Modulates Cell Wall and Melanization in Paracoccidioides brasiliensis, Affecting Macrophage Interaction

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A dangerous fungal infection called paracoccidioidomycosis affects people in Latin America. Researchers found that when this fungus encounters acidic conditions similar to those inside immune cells in the body, it protects itself by producing a dark pigment called melanin and changing its cell surface. These changes help the fungus hide from the immune system and reduce the ability of immune cells called macrophages to attack and destroy it.

Deubiquitinase Ubp5 is essential for pulmonary immune evasion and hematogenous dissemination of Cryptococcus neoformans

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This study shows that removing a fungal enzyme called Ubp5 from Cryptococcus neoformans significantly weakens the fungus and allows the body’s immune system to fight the infection more effectively. The fungus without Ubp5 loses its ability to hide from the immune system, triggering stronger protective immune responses including more T cells and beneficial inflammatory signals. This research suggests that targeting Ubp5 could be a promising strategy to help treat cryptococcal infections by enhancing the body’s natural defense mechanisms.

Protein kinase A signaling regulates immune evasion by shaving and concealing fungal β-1,3-glucan

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Candida albicans is a fungus that causes infections in humans. The fungus has developed a clever way to hide from our immune system by covering up a molecule on its surface called β-1,3-glucan that normally triggers immune responses. This study shows that the fungus masks this molecule through a combination of growing and dividing to create new surfaces, and then using enzymes to trim away exposed molecules. The research reveals that a specific cell signaling pathway controlled by lactate (a chemical found in our bodies) activates this masking behavior, helping the fungus evade immune recognition.

Research Topic: immune evasion