MiR-451a ameliorates alcoholic hepatitis via repressing HDAC8-mediated proinflammatory response

Macrophage membrane-encapsulated miRNA nanodelivery system for the treatment of hemophilic arthritis

Hemophilic arthritis (HA) is one of the most pathologically altered joint diseases. Specifically, periodic spontaneous hemorrhage-induced hyperinflammation of the synovium and irreversible destruction of the cartilage are the main mechanisms that profoundly affect the behavioral functioning and quality of life of patients. In this study, we isolated and characterized platelet-rich plasma-derived exosomes (PRP-exo). We performed microRNA (miRNA) sequencing and bioinformatics analysis on these exosomes to identify the most abundant miRNA, miR-451a. Following this, we developed an M@ZIF-8@miR nanotherapeutic system that utilizes nanoscale zeolitic imidazolate framework (ZIF) as a carrier for miRNA delivery, encapsulated within M2 membranes to enhance its anti-inflammatory effects. In vitro and in vivo studies demonstrated that M@ZIF-8@miR significantly reduced pro-inflammatory cytokines, controlled synovial inflammation, and achieved potent therapeutic efficacy by reducing joint damage. We suggest that the ability of M@ZIF-8@miR nanocomposites to inhibit pro-inflammatory cytokines, enhance cellular uptake, and exhibit good endosomal escape properties makes them promising carriers for the efficient delivery of therapeutic nucleic acid drugs. This approach delays joint degeneration and provides a promising combinatorial strategy for HA treatment.

Role of gut bacterial and non-bacterial microbiota in alcohol-associated liver disease: Molecular mechanisms, biomarkers, and therapeutic prospective

Alcohol-associated liver disease (ALD) comprises a spectrum of liver diseases that include: steatosis to alcohol-associated hepatitis, cirrhosis, and ultimately hepatocellular carcinoma. The pathophysiology and potential underlying mechanisms for alcohol-associated liver disease are unclear. Moreover, the treatment of ALD remains a challenge. Intestinal microbiota include bacteria, fungi, and viruses, that are now known to be important in the development of ALD. Alcohol consumption can change the gut microbiota and function leading to liver disease. Given the importance of interactions between intestinal microbiota, alcohol, and liver injury, the gut microbiota has emerged as a potential biomarker and therapeutic target. This review focuses on the potential mechanisms by which the gut microbiota may be involved in the pathogenesis of ALD and explains how this can be translated into clinical management. We discuss the potential of utilizing the gut microbiota signature as a biomarker in ALD patients. Additionally, we present an overview of the prospect of modulating the intestinal microbiota for the management of ALD.

Alterations in circulating extracellular vesicles underlie social stress-induced behaviors in mice

Chronic stress induces peripheral and intracerebral immune changes and inflammation, contributing to neuropathology and behavioral abnormalities relevant to psychiatric disorders such as depression. Although the pathological implication of many peripheral factors such as pro‐inflammatory cytokines, hormones, and macrophages has been demonstrated, the roles of circulating extracellular vesicles (EVs) for chronic stress mechanisms remain poorly investigated. Here, we report that chronic social defeat stress (CSDS)‐induced social avoidance phenotype, assessed by a previously untested three‐chamber social approach test, can be distinguished by multiple pro‐inflammatory cytokines and EV‐associated molecular signatures in the blood. We found that the expression patterns of miRNAs distinguished the CSDS‐susceptible mice from the CSDS‐resilient mice. Social avoidance behavior scores were also estimated with good accuracy by the expression patterns of multiple EV‐associated miRNAs. We also demonstrated that EVs enriched from the CSDS‐susceptible mouse sera upregulated the production of pro‐inflammatory cytokines in the LPS‐stimulated microglia‐like cell lines. Our results indicate the role of circulating EVs and associated miRNAs in CSDS susceptibility, which may be related to pro‐inflammatory mechanisms underlying stress‐induced neurobehavioral outcomes.