Abstract
Dysbiosis is linked to autoimmune diseases such as rheumatoid arthritis (RA), where microbial metabolites, such as short chain fatty acids (SCFAs), mediate the so-called gut-joint axis. The therapeutic potential of SCFAs is limited due to the frequent and high oral dosage requirements. RA is characterized by aberrant activation of peripheral T cells and myeloid cells. We aim to deliver butyrate, an SCFA, directly to the lymphatics using a polymeric micelle as a butyrate prodrug, creating a depot for inducing long-lasting immunomodulatory effects. Notably, negatively charged micelles (Neg-ButM) demonstrate superior efficacy in targeting the lymphatics post-subcutaneous administration, and were retained in the draining lymph nodes, spleen, and liver for over a month. In a mouse RA model, we found that Neg-ButM substantially mitigated arthritis symptoms and promoted tolerogenic phenotypes in T cells and myeloid cells, both locally and systemically. These findings suggest potential applications of this approach in treating inflammatory autoimmune diseases.
Competing Interest Statement
S.C., R.W., and J.A.H. are inventors on patents filed by the University of Chicago describing the micelles reported in this study. J.A.H. is co-founder and shareholder of ClostraBio, Inc., which has licensed those patents. The other authors declare no competing interests.
