Exploring the therapeutic potential of Leuconostoc mesenteroides lysates in wound healing and immune modulation on keratinocyte cells.

The skin, being the body's largest organ, primarily functions as a formidable defense mechanism against potential microbial infections. The skin's microbiota, consisting of a complex assembly of microorganisms, exerts a pivotal influence on skin homeostasis by modulating keratinocytes and their cytokine secretion, thereby playing an integral role in promoting optimal cutaneous health. Leuconostoc mesenteroides finds extensive application in the production of fermented foods and bacteriocins. Empirical studies validate the effectiveness of L. mesenteroides treatments in enhancing immune function and demonstrating notable antioxidant characteristics. This study investigates the potential of L. mesenteroides in improving skin health and wound healing. It also aims to comprehend their impact on wound healing markers, cytokine production, and cell cycle regulation compared to ferulic acid, known for its wound healing effects. Our findings indicate that L. mesenteroides lysate possesses antibacterial properties against Staphylococcus aureus and Pseudomonas aeruginosa, along with the ability to mitigate their toxic effects in a pathogen-simulating model employing HaCaT keratinocyte cells. Additionally, the lysate demonstrated noteworthy wound closure after a 24-hour treatment, along with a significant reduction in interleukin-6 levels and oxidative stress index. Modulation of the cell cycle is evident by decreasing G0/G1 phases and increasing S and G2/M phases and enhanced expression of wound healing marker genes and proteins CDH1. In conclusion, L. mesenteroides lysate exhibits immune-modulating and antibacterial properties, offering potential alternatives to conventional treatments for various skin conditions. These findings contribute to the exploration of innovative approaches to enhancing human life through skin health and wound healing.