Your search keyword '"Gruhlke, Martin C. H."' showing total 2 results

1. Combating Black Fungus: Using Allicin as a Potent Antifungal Agent against Mucorales.

Author

Schier C, Gruhlke MCH, Reucher G, Slusarenko AJ, and Rink L

Subjects

Humans, Antifungal Agents pharmacology, Antifungal Agents therapeutic use, Amphotericin B pharmacology, Sulfinic Acids pharmacology, Sulfinic Acids therapeutic use, Disulfides pharmacology, Mucorales metabolism, Mycoses drug therapy, Invasive Fungal Infections drug therapy

Abstract

Invasive fungal (IF) diseases are a leading global cause of mortality, particularly among immunocompromised individuals. The SARS-CoV-2 pandemic further exacerbated this scenario, intensifying comorbid IF infections such as mucormycoses of the nasopharynx. In the work reported here, it is shown that zygomycetes, significant contributors to mycoses, are sensitive to the natural product allicin. Inhibition of Mucorales fungi by allicin in solution and by allicin vapor was demonstrated. Mathematical modeling showed that the efficacy of allicin vapor is comparable to direct contact with the commercially available antifungal agent amphotericin B (ampB). Furthermore, the study revealed a synergistic interaction between allicin and the non-volatile ampB. The toxicity of allicin solution to human cell lines was evaluated and it was found that the half maximal effective concentration (EC 50 ) of allicin was 25-72 times higher in the cell lines as compared to the fungal spores. Fungal allicin sensitivity depends on the spore concentration, as demonstrated in a drop test. This study shows the potential of allicin, a sulfur-containing defense compound from garlic, to combat zygomycete fungi. The findings underscore allicin's promise for applications in infections of the nasopharynx via inhalation, suggesting a novel therapeutic avenue against challenging fungal infections.

Published

2023

2. Allicin as a Volatile or Nebulisable Antimycotic for the Treatment of Pulmonary Mycoses: In Vitro Studies Using a Lung Flow Test Rig.

Author

Schier C, Foerster Née Reiter J, Heupel M, Dörner P, Klaas M, Schröder W, Rink L, Slusarenko AJ, and Gruhlke MCH

Subjects

Disulfides, Humans, Lung, Mycoses drug therapy, Sulfinic Acids chemistry, Sulfinic Acids pharmacology, Sulfinic Acids therapeutic use

Abstract

Fungal infections of the lung are an increasing problem worldwide and the search for novel therapeutic agents is a current challenge due to emerging resistance to current antimycotics. The volatile defence substance allicin is formed naturally by freshly injured garlic plants and exhibits broad antimicrobial potency. Chemically synthesised allicin was active against selected fungi upon direct contact and via the gas phase at comparable concentrations to the pharmaceutically used antimycotic amphotericin B. We investigated the suppression of fungal growth by allicin vapour and aerosols in vitro in a test rig at air flow conditions mimicking the human lung. The effect of allicin via the gas phase was enhanced by ethanol. Our results suggest that allicin is a potential candidate for development for use in antifungal therapy for lung and upper respiratory tract infections.

Published

2022