Antiprotozoal Effects of <i>Pediococcus acidilactici</i>-Derived Postbiotic on <i>Blastocystis</i> Subtypes ST1/ST3

Antiprotozoal Effects of <i>Pediococcus acidilactici</i>-Derived Postbiotic on <i>Blastocystis</i> Subtypes ST1/ST3

<i>Blastocystis</i>, a common intestinal protozoan in humans, is associated with gastrointestinal disorders, irritable bowel syndrome, urticaria, and colorectal cancer. Its genetic diversity and potential for treatment resistance make it a focus of ongoing research. This study evaluated...

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Bibliographic Details
Main Authors: Selahattin Aydemir, Yunus Emre Arvas, Mehmet Emin Aydemir, Fethi Barlık, Esra Gürbüz, Yener Yazgan, Abdurrahman Ekici
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Pathogens
Subjects:
antiparasite
<i>Blastocystis</i>
organic acid
postbiotic
viability
Online Access:https://www.mdpi.com/2076-0817/14/7/664
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Summary:<i>Blastocystis</i>, a common intestinal protozoan in humans, is associated with gastrointestinal disorders, irritable bowel syndrome, urticaria, and colorectal cancer. Its genetic diversity and potential for treatment resistance make it a focus of ongoing research. This study evaluated the in vitro antiprotozoal activity of a postbiotic derived from <i>Pediococcus acidilactici</i> as a natural alternative treatment. <i>P. acidilactici</i> cultures were grown in MRS broth under anaerobic conditions, and the postbiotic was collected and characterized for pH, yield, organic acid composition, and phenolic compound content. Human isolates of <i>Blastocystis</i> subtypes ST1 and ST3 were cultured in Jones’ medium and exposed to varying postbiotic concentrations for 72 h. Viability was assessed microscopically. The cytotoxic effect of the postbiotic-derived <i>P. acidilactici</i> was evaluated by investigating its impact on the viability of HT-29 cells using the Cell Counting Kit 8. The postbiotic showed a 7% yield and a pH of 4.52 ± 0.11. It contained seven different organic acids, predominantly lactic acid, and eleven phenolic compounds, with naringin as the most abundant. At 4.38 mg/mL, the postbiotic achieved over 94% inhibition and 100% inhibition at 8.75 mg/mL and above. A pH analysis confirmed that the inhibition was independent of the culture medium acidity. Cell viability was not affected at the postbiotic concentration showing 100% antiprotozoal activity (8.75 mg/mL). These findings suggest that the <i>P. acidilactici</i> postbiotic is effective on a mixed culture of ST1 and ST3 subtypes and holds promise as a safe, natural antiprotozoal agent. Further in vivo studies are needed to confirm this.
ISSN:2076-0817

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