Abstract
Allograft/xenograft rejection is associated with “passenger leukocyte” migration from the organ into recipient lymph nodes. In Study 1, we attempted to deplete leukocytes from potential kidney “donor” pigs, using two regimens of total body irradiation. A dose of 700 cGy was administered, followed by either 800 cGy (“low-dose”) or 1,300 cGy (“high dose”) with the kidneys shielded. Neither regimen was entirely successful in depleting all leukocytes, although remaining T and 8 cell numbers were negligible. Study 2 was aimed at providing an indication of whether near-complete depletion of leukocytes had any major impact on kidney allograft survival. In non-immunosuppressed recipient pigs, survival of a kidney from a donor that received high-dose irradiation was compared with that of a kidney taken from a non-irradiated donor. Kidney graft survival was 9 and 7 days, respectively, suggesting that depletion had little impact on graft survival. The lack of effect may have been related to (i) inadequate depletion of passenger leukocytes, thus not preventing a direct T cell response, (ii) the presence of dead or dying leukocytes (antigens), thus not preventing an indirect T cell response, or (iii) constitutive expression of MHC class II and B7 molecules on the porcine vascular endothelium, activating recipient T cells.
Highlights
Passenger leukocytes have complex dual roles in determining the outcome after transplantation (Tx)
In a small animal model, donor pretreatment with sublethal total body irradiation (TBI) or antilymphocyte globulin resulted in significant prolongation of heart allograft survival [4]
To determine the dose of irradiation required to deplete all passenger leukocytes, rodent models will not provide the data required since the dose of irradiation likely to achieve the desired effect will be different from that in large animals
Summary
Passenger leukocytes (contained within a transplanted organ and which migrate from the graft into the lymphoid tissues of the recipient) have complex dual roles in determining the outcome after transplantation (Tx). In a small animal model, donor pretreatment with sublethal total body irradiation (TBI) or antilymphocyte globulin resulted in significant prolongation of heart allograft survival [4]. The primary aim of the present study, was to determine whether a sufficient dose of irradiation could be administered to the “donor” pig to kill the leukocytes without seriously damaging the kidney (to be transplanted). The secondary aim was to determine whether complete or nearcomplete depletion of passenger leukocytes delayed rejection after kidney Tx. Total body irradiation of the donor of 700 cGy with a further 800 cGy or 1,300 cGy with the kidneys shielded proved. The function of the irradiated kidney and any possible protection from rejection was tested by Tx into a recipient pig without immunosuppressive therapy
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