Exosomes and MicroRNAs: key modulators of macrophage polarization in sepsis pathophysiology

Sepsis is a highly dangerous and complex condition that can result in death. It is characterized by a strong reaction to an infection, causing dysfunction in multiple bodily systems and a high risk of mortality. The transformation of macrophages is a vital stage in the procedure as they possess the capability to interchange between two separate types: M1, which promotes inflammation, and M2, which inhibits inflammation. The choice greatly affects the immune response of the host. This analysis underscores the rapidly expanding roles of exosomes and microRNAs (miRNAs) in regulating the trajectory of macrophage polarization during episodes of sepsis. Exosomes, extremely small extracellular vesicles, facilitate cellular communication by transferring biologically active compounds, including miRNAs, proteins, and lipids. We investigate the impact of changes in exosome production and composition caused by sepsis on macrophage polarization and function. Unique microRNAs present in exosomes play a significant role in controlling crucial signaling pathways that govern the phenotype of macrophages. Through thorough examination of recent progress in this area, we clarify the ways in which miRNAs derived from exosomes can either aggravate or alleviate the inflammatory reactions that occur during sepsis. This revelation not only deepens our comprehension of the underlying mechanisms of sepsis, but it also reveals potential new biomarkers and targets for treatment. This assessment aims to amalgamate diverse research investigations and propose potential avenues for future investigations on the influence that exosomes and miRNAs have on macrophage polarization and the body's response to sepsis. These entities are essential for controlling the host's reaction to sepsis and hold important functions in this mechanism.

Перевод пока недоступен