Impact of Isoquinoline Alkaloids on the Intestinal Barrier in a Colonic Model of Campylobacter jejuni Infection.
Anna Duda-Madej, Przemysław Gagat, Jerzy Wiśniewski, Szymon Viscardi, Paweł Krzyżek
Abstract
Open AccessPhytotherapy is a growing field of modern medicine, offering natural alternatives with multidirectional pharmacological effects. Among plant-derived bioactive compounds, isoquinoline alkaloids exhibit antioxidant, anti-inflammatory, and antimicrobial properties. Our in vitro model of campylobacteriosis confirmed that berberine reduces pathological changes in colonocytes not only through its direct antibacterial (minimum inhibitory concentration for pure berberine against Campylobacter jejuni was 64 μg/mL) and anti-biofilm (fourfold reduction in C. jejuni biomass) effects, but also through its protective effect on the morphostructure and secretory profile of host cells exposed to bacterial components. Furthermore, berberine stabilized intercellular junction proteins, modulated bile acid and arachidonic acid metabolism, and supported host-protective signaling pathways. These findings indicate that berberine acts through a dual mechanism-directly reducing bacterial virulence while enhancing intestinal barrier integrity and metabolic homeostasis. In summary, berberine appears to be a multifunctional phytochemical in the development of new strategies for the prevention and treatment of C. jejuni-induced gastrointestinal infections and epithelial barrier dysfunctions. The protective effect we have demonstrated may contribute to alleviating the phenomenon of "leaky gut," commonly associated with campylobacteriosis.