NANOPARTICLE ENCAPSULATION OF THE SPECIALIZED PRO-RESOLVING MEDIATOR MARESIN-2: A NOVEL APPROACH FOR PROMOTING MUCOSAL REPAIR IN THE INTESTINE

Abstract

Abstract Epithelial cells form protective barriers at mucosal surfaces and play a critical role in maintaining tissue homeostasis. Active inflammation in inflammatory bowel disease (IBD) is associated with epithelial barrier disruption and mucosal erosions/wounds that contribute to the inflammatory response and disease symptoms. Therefore, efficient repair of epithelial erosions/wounds is crucial for restoring intestinal barrier function and resolving mucosal inflammation. In response to injury, epithelial cells proliferate and migrate to cover denuded surfaces and restore critical barrier properties. Resident and recruited immune cells at sites of injury release factors that play an important role in orchestrating mucosal repair. Bioactive lipid mediators released by leukocytes, including leukotrienes and specialized pro-resolving mediators (SPMs), regulate epithelial signaling pathways to influence mucosal repair processes. Liquid chromatography-mass spectrometry (LCMS) analyses of healing colonic mucosal wounds performed to detect SPMs identified high levels of MaR2 in healing colonic wounds. In vitro studies using primary colonic epithelial cells revealed MaR2-driven increases in epithelial wound repair that were potentiated by the pro-inflammatory cytokines TNFα and IFNγ. While MaR2 increased epithelial migration by activating cell matrix adhesion proteins, including Src-paxillin and focal adhesion kinase, we did not observe any influence of MaR2 on the activation of cyclin D1/D2 or on epithelial proliferation. Importantly, in vivo studies demonstrated enhanced colonic mucosal wound repair and recovery from dextran sulfate-induced colitis in mice administered MaR2. Given the thermolabile nature of MaR2 (and associated ultracold storage requirements), thermostable polylactic acid (PLA) nanoparticles (NP) containing MaR2 (PLA MaR2) were generated. PLA MaR2 nanoparticles retained bioactivity following extended storage at room temperature and exhibited potent effects on in vivo colonic biopsy induced wound repair. Taken together these data reveal that thermostable MaR2 containing nanoparticles represent a promising new therapeutic approach for regenerating epithelial barrier function and restoring mucosal homeostasis in individuals with IBD.