Abstract

The induction of specific unresponsiveness to allografts in large animals remains the central objective of these studies. Dogs treated with a minimal course of antilymphocyte serum (ALS) and post-transplant injection of either fresh or previously frozen donor bone marrow cells (BMC) show significant allograft prolongation. Percoll fractionation of donor BMC has resolved the graft prolonging cell to a low density population (F-BMC) representing 20% of the original BMC. One dog injected with F-BMC is still healthy after 300 days and is specifically unresponsive in vitro to its donor's antigens. Studies in B6AF1 mice treated with ALS and C3H/He BMC show significant and donor specific skin graft prolongation. By selective cell killing and cell separation methods it was determined that the active BMC are largely FcGammaR+, Ia-, Thy 1.2-, C'R-, Ig-, and Ly-. Mouse BMC active in graft prolongation are donor age-independent, survive frozen and refrigerated storage but do not survive in vitro when maintained by standard culture techniques. Proposed renal allograft experiments in dogs will include (i) the combination of F-BMC injection with other immunosuppressive agents such as cyclosporin A and with pre-transplant blood transfusions, (ii) the effect of additional BMC pulses during rejection periods and (iii) the effect of post-transplant injection of peripheral blood cells on graft prolongation. Studies in the mouse will include the further purification of graft prolonging BMC by continuous Percoll centrifugation and by antibody affinity methods, and assay of surface receptors and functional properties. Attempts will be made to activate graft prolonging BMC via their FcGammaR with ag-ab complexes prior to injection and to culture and clone their BMC. Mouse experiments will also include a continuation of studies which showed that neonatal skin survives longer than adult skin when transplanted to histoincompatible recipients. This prolongation difference appears to be related to the presence of immature epidermal dendritic cells (EDC) in neonatal skin. Experiments are designed to isolate neonatal EDC and to study their effect as direct stimulators and/or as potential suppressors in vitro. Results may lead to methods which can lessen the immunogenicity of adult tissue prior to transplantation. Optimal protocols derived from studies in the mouse will initially be applied to dogs and ultimately to monkeys. Parallel to these experiments an in vitro study of human BMC will be initiated to isolate and characterize potentially graft prolonging cells. Future application of this ALS/F-BMC model to man is anticipated.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK033466-07
Application #
3231844
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Project Start
1983-08-01
Project End
1989-07-31
Budget Start
1987-08-01
Budget End
1988-11-30
Support Year
7
Fiscal Year
1987
Total Cost
Indirect Cost

  Institution

Name
Northeastern University
Department
Type
Sch Allied Health Professions
DUNS #
039318308
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Masli, S; De Fazio, S R; Gozzo, J J (1997) Expression of dendritic cell markers on bone marrow cells in a fraction enriched for the ability to prolong skin allograft survival in ALS-treated murine recipients. Transplant Proc 29:1147-8
De Fazio, S R; Plowey, J M; Hartner, W C et al. (1996) Late adjunctive therapy with single doses of rapamycin in skin-allografted mice treated with antilymphocyte serum and donor bone marrow cells. Transpl Immunol 4:105-12
De Fazio, S R; Masli, S; Gozzo, J J (1996) Effect of monoclonal anti-CD4 and anti-CD8 on skin allograft survival in mice treated with donor bone marrow cells. Transplantation 61:104-10
Gozzo, J J; Plowey, J; Hartner, W C et al. (1995) Importance of schedule of administration of adjunctive, short-term immunosuppression in ALS- and bone marrow cell-treated, skin-allografted mice. Transplant Proc 27:169-70
Hartner, W C; Markees, T G; De Fazio, S R et al. (1995) Effect of early administration of donor bone marrow cells on renal allograft survival in dogs treated with antilymphocyte serum and cyclosporine. Transplantation 59:131-4
De Fazio, S R; Markees, T G; Hartner, W C et al. (1995) Specificity requirement of donor bone marrow cells that prolong allograft survival: implications for a veto cell mechanism of action. Transplant Proc 27:171-3
Hartner, W C; Van der Werf, W J; Lodge, J P et al. (1995) Effect of rapamycin on renal allograft survival in canine recipients treated with antilymphocyte serum, donor bone marrow, and cyclosporine. Transplantation 60:1347-50
Khouri, W; Masli, S; De Fazio, S R et al. (1994) Effect of asialofetuin on prolongation of skin allograft survival by donor bone marrow cells. Transplantation 57:440-6
De Fazio, S R; Plowey, J; Hartner, W C et al. (1994) Effect of single-dose, late treatment with rapamycin on skin allograft survival in ALS- and donor bone marrow cell-treated mice. Transplant Proc 26:3102-3
Pourshadi, M; De Fazio, S R; Gozzo, J J (1993) Abrogation of secondary skin allograft rejection by veto-like cells in donor bone marrow. Transplantation 56:385-90

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