Literature DB >> 30277476

Targeted delivery of immune therapeutics to lymph nodes prolongs cardiac allograft survival.

Baharak Bahmani1,2, Mayuko Uehara1,2, Liwei Jiang1,2, Farideh Ordikhani1,2, Naima Banouni1,2, Takaharu Ichimura2, Zhabiz Solhjou1,2, Georg J Furtmüller3, Gerald Brandacher3, David Alvarez4, Ulrich H von Andrian4, Kenji Uchimura5, Qiaobing Xu6, Ishaan Vohra1,2, Osman A Yilmam1,2, Yousef Haik7, Jamil Azzi1,2, Vivek Kasinath1,2, Jonathan S Bromberg8, Martina M McGrath1,2, Reza Abdi1,2.   

Abstract

The targeted delivery of therapeutic drugs to lymph nodes (LNs) provides an unprecedented opportunity to improve the outcomes of transplantation and immune-mediated diseases. The high endothelial venule is a specialized segment of LN vasculature that uniquely expresses peripheral node addressin (PNAd) molecules. PNAd is recognized by MECA79 mAb. We previously generated a MECA79 mAb-coated microparticle (MP) that carries tacrolimus. Although this MP trafficked to LNs, it demonstrated limited therapeutic efficacy in our transplant model. Here, we have synthesized a nanoparticle (NP) as a carrier of anti-CD3, and optimized the conjugation strategy to coat the NP surface with MECA79 mAb (MECA79-anti-CD3-NP) to enhance LN accumulation. As compared with nonconjugated NPs, a significantly higher quantity of MECA79-NPs accumulated in the draining lymph node (DLN). Many MECA79-NPs underwent internalization by T cells and dendritic cells within the LNs. Short-term treatment of murine cardiac allograft recipients with MECA79-anti-CD3-NP resulted in significantly prolonged allograft survival in comparison with the control groups. Prolonged graft survival following treatment with MECA79-anti-CD3-NP was characterized by a significant increase in intragraft and DLN Treg populations. Treg depletion abrogated the prolongation of heart allograft survival. We believe this targeted approach of drug delivery could redefine the methods of administering immune therapeutics in transplantation.

Entities:  

Keywords:  Immunology; Nanotechnology; Transplantation

Mesh:

Substances:

Year:  2018        PMID: 30277476      PMCID: PMC6205374          DOI: 10.1172/JCI120923

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  73 in total

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