fungal pathogenesis – Page 3

Clinical aspects and recent advances in fungal diseases impacting human health

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Fungal infections are increasingly common health threats affecting over a billion people worldwide, ranging from minor allergies to serious life-threatening infections. The biggest problems are that fungi are becoming resistant to current medications, diagnosis can be difficult and slow, and treatment options are limited. Recent developments include new antifungal drugs like ibrexafungerp and rezafungin that work differently from older medications, offering hope for treating resistant infections. Better awareness among doctors and patients, faster diagnostic methods, and responsible use of antifungals are essential to combat this growing public health challenge.

Neosartorya udagawae pulmonary infection requiring a surgical treatment in a paediatric haematopoietic progenitor cell recipient

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A three-year-old boy with leukemia received a bone marrow transplant and developed a serious fungal lung infection caused by Neosartorya udagawae, a rare fungal pathogen. Despite receiving multiple antifungal medications at appropriate doses, the infection continued to worsen and spread in his lungs. Doctors ultimately had to surgically remove the infected portion of his lung (left upper lobe) to successfully treat the infection, and the child recovered completely without recurrence after three years of follow-up.

New Strategies to Combat Human Fungal Infections

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Fungal infections are becoming a major global health threat, causing millions of deaths annually. This research collection presents new and improved ways to treat these infections, including natural compounds like chitosan, beneficial bacteria, new drug combinations, and tests to better understand which treatments work best. The papers showcase innovative approaches beyond traditional antifungal medications to help combat resistant infections.

Solid-state NMR spectroscopy reveals unique properties of Trichoderma harzianum cell wall components

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Scientists used advanced spectroscopy techniques to examine the cell wall structure of Trichoderma harzianum, a beneficial fungus used to protect crops from harmful fungi. They discovered that this fungus has a uniquely organized cell wall composed of tough chitin layers inside and flexible sugar polymers outside. This special arrangement helps protect the fungus from dissolving itself with its own powerful enzymes while allowing it to attack pest fungi effectively.

Continuous debridement combined with short-term posaconazole therapy for cutaneous mucormycosis caused by Rhizopus oryzae infection secondary to acute myeloid leukemia: a case report

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An 80-year-old patient with acute myeloid leukemia developed a serious fungal skin infection caused by Rhizopus oryzae on his lower leg. Doctors treated the infection by repeatedly cleaning out the infected tissue and giving him an antifungal medication called posaconazole for just one week. Despite the short treatment duration due to cost concerns, the patient’s wound gradually healed over four months through continued surgical care, showing that sometimes focused surgical treatment can be as effective as long-term medication.

Transcriptomic changes in the PacC transcription factor deletion mutant of the plant pathogenic fungus Botrytis cinerea under acidic and neutral conditions

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Gray mold is a common fungal disease affecting many plants, and it survives by adjusting to different pH levels in plant tissues. Scientists studied a specific protein called PacC that acts like a switch controlling which genes turn on or off based on acidity levels. By comparing normal fungi to mutants without this protein, researchers identified hundreds of genes that help the fungus adapt and cause disease, offering insights into how to potentially combat this agricultural problem.

In vitro and in vivo inhibitory effects and transcriptional reactions of graphene oxide on Verticillium dahliae

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Scientists discovered that graphene oxide, a nanomaterial, can effectively kill or inhibit the growth of Verticillium dahliae, a harmful fungus that causes wilt disease in cotton and other crops. The graphene oxide works by damaging the fungus’s cell membranes and disrupting its ability to grow and spread. When applied to cotton plants infected with this fungus, graphene oxide treatment reduced disease symptoms and prevented the fungus from multiplying. This research suggests graphene oxide could become a valuable alternative to chemical fungicides for controlling this destructive plant disease.

Is Cryptococcus neoformans a pleomorphic fungus?

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Researchers have discovered that Cryptococcus neoformans, a dangerous fungus that causes serious infections, is actually much more shape-shifting than previously thought. Instead of existing as just one simple budding yeast form, the fungus can transform into several different cell types including large ‘titan cells’ and small ‘seed cells,’ each with different characteristics that help it survive and spread in the body. These different forms have distinct genetic programs and can evade the immune system in different ways, making the infection harder to treat. This discovery fundamentally changes how scientists understand this pathogen and could lead to new treatment strategies.

Pathogenic mucorales: Deciphering their cell wall polysaccharidome and immunostimulatory potential

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Scientists studied three types of dangerous fungi that cause serious infections in people with weak immune systems. They looked at the outer coating of these fungi cells, which is what the body’s immune system first encounters during infection. They found that this coating contains multiple types of sugar-like substances that trigger strong inflammatory responses in immune cells. Understanding these fungi better could help develop better treatments for these serious infections.

Genome assemblies for Pyricularia species and related genera isolated from diverse host plants

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Scientists have sequenced the complete genetic blueprints of 35 fungal strains belonging to Pyricularia species and related genera, which cause devastating blast diseases in crops like rice and wheat. By analyzing genetic differences between strains that infect different grass species, researchers found that most Pyricularia oryzae strains show strong preferences for specific host plants. These new genome resources will help scientists understand how fungal pathogens evolve and adapt to new plant hosts, potentially improving disease management strategies.

Research Keyword: fungal pathogenesis