James D. Fisher scite author profile

Despite decades of advances in transplant immunology, tissue damage caused by acute allograft rejection remains the primary cause of morbidity and mortality in the transplant recipient. Moreover, the long-term sequelae of lifelong immunosuppression leaves patients at risk for developing a host of other deleterious conditions. Controlled drug delivery using micro- and nanoparticles (MNPs) is an effective way to deliver higher local doses of a given drug to specific tissues and cells while mitigating systemic effects. Herein, we review several descriptions of MNP immunotherapies aimed at prolonging allograft survival. We also discuss developments in the field of biomimetic drug delivery that use MNP constructs to induce and recruit our bodies' own suppressive immune cells. Finally, we comment on the regulatory pathway associated with these drug delivery systems. Collectively, it is our hope the studies described in this review will help to usher in a new era of immunotherapy in organ transplantation.

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[CpAlN(2,6-i-Pr₂C₆H₃)]₂: A Dimeric Iminoalane Obtained by Alkane Elimination

Fisher¹,

Shapiro²,

Yap³

et al. 1996

Inorg. Chem.

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Treg-inducing microparticles promote donor-specific tolerance in experimental vascularized composite allotransplantation

Fisher

Balmert

Zhang

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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For individuals who sustain devastating composite tissue loss, vascularized composite allotransplantation (VCA; e.g., hand and face transplantation) has the potential to restore appearance and function of the damaged tissues. As with solid organ transplantation, however, rejection must be controlled by multidrug systemic immunosuppression with substantial side effects. As an alternative therapeutic approach inspired by natural mechanisms the body uses to control inflammation, we developed a system to enrich regulatory T cells (Tregs) in an allograft. Microparticles were engineered to sustainably release TGF-β1, IL-2, and rapamycin, to induce Treg differentiation from naïve T cells. In a rat hindlimb VCA model, local administration of this Treg-inducing system, referred to as TRI-MP, prolonged allograft survival indefinitely without long-term systemic immunosuppression. TRI-MP treatment reduced expression of inflammatory mediators and enhanced expression of Treg-associated cytokines in allograft tissue. TRI-MP also enriched Treg and reduced inflammatory Th1 populations in allograft draining lymph nodes. This local immunotherapy imparted systemic donor-specific tolerance in otherwise immunocompetent rats, as evidenced by acceptance of secondary skin grafts from the hindlimb donor strain and rejection of skin grafts from a third-party donor strain. Ultimately, this therapeutic approach may reduce, or even eliminate, the need for systemic immunosuppression in VCA or solid organ transplantation.

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James D. Fisher

Synthesis and Structural Characterization of Dicyclopentadienylaluminum Alkyl and Tricyclopentadienylaluminum Compounds: Crystal Structure of a Bis(.eta.2-cyclopentadienyl)aluminum Alkyl Compound

Micro and nanoparticle drug delivery systems for preventing allotransplant rejection

[CpAlN(2,6-i-Pr₂C₆H₃)]₂: A Dimeric Iminoalane Obtained by Alkane Elimination

Treg-inducing microparticles promote donor-specific tolerance in experimental vascularized composite allotransplantation

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James D. Fisher

Synthesis and Structural Characterization of Dicyclopentadienylaluminum Alkyl and Tricyclopentadienylaluminum Compounds: Crystal Structure of a Bis(.eta.2-cyclopentadienyl)aluminum Alkyl Compound

Micro and nanoparticle drug delivery systems for preventing allotransplant rejection

[CpAlN(2,6-i-Pr2C6H3)]2: A Dimeric Iminoalane Obtained by Alkane Elimination

Treg-inducing microparticles promote donor-specific tolerance in experimental vascularized composite allotransplantation

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[CpAlN(2,6-i-Pr₂C₆H₃)]₂: A Dimeric Iminoalane Obtained by Alkane Elimination