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Literature DB >> 30413362

Inhibiting Inflammation with Myeloid Cell-Specific Nanobiologics Promotes Organ Transplant Acceptance.

Mounia S Braza¹, Mandy M T van Leent², Marnix Lameijer³, Brenda L Sanchez-Gaytan², Rob J W Arts⁴, Carlos Pérez-Medina², Patricia Conde⁵, Mercedes R Garcia⁵, Maria Gonzalez-Perez⁵, Manisha Brahmachary⁶, Francois Fay², Ewelina Kluza³, Susanne Kossatz⁷, Regine J Dress⁸, Fadi Salem⁹, Alexander Rialdi¹⁰, Thomas Reiner¹¹, Peter Boros⁶, Gustav J Strijkers¹², Claudia C Calcagno², Florent Ginhoux⁸, Ivan Marazzi¹⁰, Esther Lutgens¹³, Gerry A F Nicolaes¹⁴, Christian Weber¹⁴, Filip K Swirski¹⁵, Matthias Nahrendorf¹⁵, Edward A Fisher¹⁶, Raphaël Duivenvoorden¹⁷, Zahi A Fayad², Mihai G Netea¹⁸, Willem J M Mulder¹⁹, Jordi Ochando²⁰.

Abstract

Inducing graft acceptance without chronic immunosuppression remains an elusive goal in organ transplantation. Using an experimental transplantation mouse model, we demonstrate that local macrophage activation through dectin-1 and toll-like receptor 4 (TLR4) drives trained immunity-associated cytokine production during allograft rejection. We conducted nanoimmunotherapeutic studies and found that a short-term mTOR-specific high-density lipoprotein (HDL) nanobiologic treatment (mTORi-HDL) averted macrophage aerobic glycolysis and the epigenetic modifications underlying inflammatory cytokine production. The resulting regulatory macrophages prevented alloreactive CD8+ T cell-mediated immunity and promoted tolerogenic CD4+ regulatory T (Treg) cell expansion. To enhance therapeutic efficacy, we complemented the mTORi-HDL treatment with a CD40-TRAF6-specific nanobiologic (TRAF6i-HDL) that inhibits co-stimulation. This synergistic nanoimmunotherapy resulted in indefinite allograft survival. Together, we show that HDL-based nanoimmunotherapy can be employed to control macrophage function in vivo. Our strategy, focused on preventing inflammatory innate immune responses, provides a framework for developing targeted therapies that promote immunological tolerance.

Entities: CellLine Chemical Disease Gene Species

Keywords: CD40; TRAF6; immunotherapy; innate immune memory; mTOR; nanoimmunotherapy; trained immunity; transplantation

Mesh：

Substances：

Year: 2018 PMID： 30413362 PMCID： PMC6251711 DOI： 10.1016/j.immuni.2018.09.008

Source DB: PubMed Journal: Immunity ISSN： 1074-7613 Impact factor: 31.745

42 in total

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