Microorganism shows promise in inhibiting thrush, and other dangerous systemic fungal infections
Scientists at Case Western Reserve School of Medicine and University Hospitals (UH) Case Medical Center have discovered how the beneficial fungal yeast, Pichia, holds at bay a harmful fungal yeast, Candida. The hope for this finding is that components in Pichia could one day become therapeutic agents to stave off not only thrush, but also other life-threatening systemic fungal infections. Research findings about the effect of oral Pichia on Candida appear in PLOS Pathogens. "Our aim was to try to understand what microorganisms live in our mouths. A disturbed equilibrium of these microorganisms can lead to disease," said the study's senior author Mahmoud A. Ghannoum, PhD, EMBA, professor of dermatology and pathology at the School of Medicine and director of the Center for Medical Mycology at UH Case Medical Center. The study involved testing the mouths of 24 patients from UH Case Medical Center - 12 HIV infected and 12 not infected with HIV. HIV-infected patients were selected for comparison in the study because thrush is a common occurrence for them. The oral cavity was tested for fungi and bacteria using pyrosequencing, a method that uses DNA analysis, which is more powerful with greater specificity than conventional, culture-based approaches. "When we looked at the data, we found to our surprise that bacteria did not change much between HIV-infected patients and those who were not," Ghannoum said. "However, what changed significantly between the two groups was the composition of the fungal community. We found that when Candida is present, Pichia is not, and when Pichia is present, Candida is not - indicating Pichia plays an important role in treating thrush." From these observations, investigators conducted in vitro (test tube) experiments on Candida and Pichia. When they grew Candida in the test tube in the presence of Pichia, there was a striking reduction in Candida growth. They also discovered that Pichia secretes material, or a protein, that controls Candida. This Pichia-secreted material, referred to as supernatant, inhibits biofilm formation, germination and adherence in Candida, factors that mark a microbe's level of harmfulness. Investigators then took their findings to the next level with experiments on three groups of Candida-infected mice. One group of mice was treated with Pichia supernatant. The next group was treated with nystatin, a topical treatment for thrush. Still another group received no treatment. The outcome? In the mouths of the Pichia-treated mice, the level of Candida was nearly eradicated, though traces remained. Even the nystatin-treated mice had far more Candida present than the Pichia-treated mice. Additionally, the physical symptoms, such as tongue appearance, improved in the Pichia-treated group. "One day, not only could this lead to topical treatment for thrush, but it could also lead to a formulation of therapeutics for systemic fungal infections in all immunocompromised patients," he said. "In addition to patients with HIV, this would also include very young patients and patients with cancer or diabetes." As a next step this year, investigators will study Pichia supernatant to identify its components that inhibit Candida and other fungi.