Suppressor T cells in allogeneic bone marrow chimeras.

Immunosuppression is believed to play a role in the maintenance of stable bone marrow (BM) chimeras. This study investigates the nature and specificity of the suppression that lymphocytes from allogeneic BM chimeras exert upon the alloreactivity of donor and recipient lymphocytes. Lethally irradiated CBA/J (H-2k) mice were infused with 10(7) unseparated (WBM) or T cell-depleted BM (TDBM) cells of B10.BR mice (H-2k, disparate at minor histocompatibility antigens). Mixtures consisting of spleen cells (SC) from BM chimeras and SC from either normal donor, recipient, or third party (C3H, H-2k) mice, were sensitized with irradiated BALB/c (H-2d) leukocytes, then assayed for proliferative and anti-H-2d cytotoxic activity and compared with those of appropriate control cultures. The alloreactivity of all three types of normal SC was non-specifically suppressed by SC from both WBM and TDBM chimeras taken 2 weeks post-BM transplantation (BMT). In contrast, at 4 weeks post-BMT, SC from both chimeras suppressed the alloreactivity of recipient-type cells whereas only SC from WBM, but not from TDBM chimeras, suppressed normal donor-type response, and neither could suppress the response of normal third party cells. The suppression of donor-type alloreactivity diminished with time, while that exerted on recipient-type lasted for at least 10 weeks post-BMT. The suppression of donor alloreactivity was mediated by radioresistant Thy1.2+, Lyt1+2+ cells while that exerted upon recipient's alloreactivity was mediated by radiosensitive Thy1.2+, Lyt1+2- cells. Both types of suppressor cells were of donor origin. The potential biological role of the suppressive activity in the engraftment of allogeneic BM is discussed.

Bone marrow transplantation with T-cell-depleted grafts. II. Reconstitution of immunohemopoietic functions in lethally irradiated mice transplanted with unseparated or T-cell-depleted bone marrow grafts disparate at minor histocompatibility antigens.

Graft-versus-host disease (GVHD), a serious complication of allogeneic bone marrow transplantation (BMT), can be prevented by in vitro depletion of T cells from the bone marrow (BM) prior to transplantation. The purpose of this study was to assess the role of BMT cells in the reconstitution of various immune functions following BMT across minor histocompatibility barriers. Lethally irradiated CBA/J (H-2k) mice were grafted with either 10(7) unseparated or T-cell-depleted BM cells from B10.BR (H-2k, minor-histoincompatible) mice. Blood counts, BM colonies in agar, and various immune functions of spleen cells from the recipient mice were tested 2-12 weeks post-BMT and compared with those of normal donors. The following observations were made: (A) Peripheral blood lymphocyte counts decreased to 30% of normal 2 weeks post-BMT with almost normal recovery at 8 weeks. (B) The percentage of Thy1.2+ splenocytes reached normal levels at 8 weeks post-BMT. (C) The number of BM colonies (GM-CFU) was reduced to 10% at 2 weeks and fully recovered at 12 weeks. (D) Proliferative response to the B-cell mitogen LPS was fully reconstituted after 4 weeks; however, anti-SRBC PFC (following Mishell-Dutton cultures) was restored 50% at 8-12 weeks. (E) Reconstitution of T cell functions including proliferative responses to concanavalin A, phytohemagglutinin, and allogeneic leukocytes, and allocytotoxicity, did not exceed 50% even 12 weeks post-BMT. Overall, depletion of T cells from donor BM allografts incompatible at minor histocompatibility loci, did not seem to significantly alter the rate of immunohematopoietic reconstitution in the lethally irradiated BM recipients.