drug repurposing – mycolab.ai

Indole-Based Compounds as Potential Drug Candidates for SARS-CoV-2

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Scientists are searching for new treatments for COVID-19 by studying indole-containing compounds, which are found in many plants and can be made in laboratories. Some approved drugs with indole structures, like the antiviral drug Arbidol, have been repurposed to fight COVID-19. Researchers are also designing new indole compounds and using computer simulations to predict which ones might work best against the virus’s key proteins.

Drug repurposing to fight resistant fungal species: Recent developments as novel therapeutic strategies

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Fungal infections are becoming increasingly difficult to treat due to growing drug resistance, affecting millions of people worldwide each year. This research collection explores creative solutions by repurposing existing medications and developing new combination therapies that work better together against resistant fungal species. Studies show promising results combining common antibiotics like minocycline with antifungal drugs, and natural compounds from traditional medicine show potential for treating hard-to-treat infections like Candida and Aspergillus.

In Vitro Activity of Nitroxoline (5-Nitro-8-Hydroxyquinoline) Against Aspergillus Species

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Researchers tested an old antibiotic called nitroxoline against dangerous fungal infections caused by Aspergillus species. The drug works by removing important minerals like zinc that these fungi need to survive. Testing showed nitroxoline was very effective against these fungi, even against strains that had developed resistance to modern antifungal drugs. This suggests nitroxoline could potentially be repurposed as a new treatment option for serious fungal infections.

In vitro and in vivo efficacy of the antimycobacterial molecule SQ109 against the human pathogenic fungus, Cryptococcus neoformans

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Researchers discovered that SQ109, an antimycobacterial drug, can effectively kill Cryptococcus fungi that cause serious brain infections in people with weakened immune systems. Unlike current treatments, cryptococcal cells don’t easily develop resistance to SQ109, and it works even better when combined with fluconazole. In mouse studies, SQ109 successfully treated cryptococcal infections, suggesting it could be a valuable new treatment option for patients worldwide, especially in resource-limited regions.

Anticancer drugs targeting topoisomerase II for antifungal treatment

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Researchers found that several anticancer drugs commonly used to treat human cancers can also effectively kill fungal infections, especially resistant strains of Candida. The most promising drug, idarubicin, works by targeting an essential enzyme in fungi called topoisomerase II, causing DNA damage and cell death. This discovery suggests a new strategy for treating serious fungal infections by repurposing existing cancer medications, particularly for patients with drug-resistant infections.

Drug repurposing to fight resistant fungal species: Recent developments as novel therapeutic strategies

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This editorial highlights the growing problem of fungal infections that resist current treatments, causing millions of deaths worldwide each year. Researchers are finding new ways to fight these resistant infections by repurposing existing drugs in new combinations and discovering novel compounds from natural sources. The collection of studies presented shows promising results using combinations like minocycline with antifungal drugs, natural compounds like baicalin, and AI technology to predict resistance patterns. These innovative approaches offer hope for better treatment options for patients suffering from serious fungal infections.

In Vitro Activity of Nitroxoline (5-Nitro-8-Hydroxyquinoline) Against Aspergillus Species

mycolabadmin

Researchers tested an old antibiotic called nitroxoline against dangerous fungal infections caused by Aspergillus species. The drug works by removing essential zinc that the fungus needs to survive. The study found that nitroxoline was highly effective against all tested fungal strains, including those resistant to modern antifungal drugs, suggesting it could be a promising alternative treatment for serious fungal infections.

In Vitro Activity of Nitroxoline (5-Nitro-8-Hydroxyquinoline) Against Aspergillus Species

mycolabadmin

Researchers tested an old antibiotic called nitroxoline against Aspergillus fungi that cause serious infections in immunocompromised patients. The drug works by removing zinc that the fungus needs to survive. The study found that nitroxoline was very effective against all tested fungal strains, including those resistant to modern antifungal drugs, suggesting it could potentially be repurposed as a new treatment option.

Research Keyword: drug repurposing