Endotoxin Inflammatory Action on Cells by Dysregulated-Immunological-Barrier-Linked ROS-Apoptosis Mechanisms in Gut-Liver Axis.
Andrei DumitruElena MateiGeorgeta Camelia CozaruAnca ChisoiLuana AlexandrescuRăzvan Cătălin PopescuMihaela Pundiche ButcaruEugen DumitruSorin RuginăCristina TociaPublished in: International journal of molecular sciences (2024)
Our study highlighted the immune changes by pro-inflammatory biomarkers in the gut-liver-axis-linked ROS-cell death mechanisms in chronic and acute inflammations when gut cells are exposed to endotoxins in patients with hepatic cirrhosis or steatosis. In duodenal tissue samples, gut immune barrier dysfunction was analyzed by pro-inflammatory biomarker expressions, oxidative stress, and cell death by flow cytometry methods. A significant innate and adaptative immune system reaction was observed as result of persistent endotoxin action in gut cells in chronic inflammation tissue samples recovered from hepatic cirrhosis with the A-B child stage. Instead, in patients with C child stage of HC, the endotoxin tolerance was installed in cells, characterized by T lymphocyte silent activation and increased Th1 cytokines expression. Interesting mechanisms of ROS-cell death were observed in chronic and acute inflammation samples when gut cells were exposed to endotoxins and immune changes in the gut-liver axis. Late apoptosis represents the chronic response to injury induction by the gut immune barrier dysfunction, oxidative stress, and liver-dysregulated barrier. Meanwhile, necrosis represents an acute and severe reply to endotoxin action on gut cells when the immune system reacts to pro-inflammatory Th1 and Th2 cytokines releasing, offering protection against PAMPs/DAMPs by monocytes and T lymphocyte activation. Flow cytometric analysis of pro-inflammatory biomarkers linked to oxidative stress-cell death mechanisms shown in our study recommends laboratory techniques in diagnostic fields.
Keyphrases
- cell cycle arrest
- cell death
- oxidative stress
- induced apoptosis
- endoplasmic reticulum stress
- dna damage
- pi k akt
- liver failure
- ischemia reperfusion injury
- drug induced
- insulin resistance
- dendritic cells
- respiratory failure
- diabetic rats
- metabolic syndrome
- type diabetes
- high fat diet
- poor prognosis
- early onset
- binding protein