[en] Administration of a large number of xenogeneic (rat) bone marrow cells before lethal, total body irradiation in mice (preconditioning regimen) results in powerful protection from radiation damage, remarkable prolongation of their survival, facilitation of marrow engraftment and induction of rat chimerism. This protective effect is not exerted by thymus or spleen cells and does not depend on specific immune mechanisms. The preconditioning regimen is more efficient when the bone marrow cells are viable and when the cells are inoculated intravenously a few hours before irradiation. (author)

[en] L-5-hydroxytryptophan, haloperidol, and phentolamine were administered subcutaneously to groups of mice. Some groups were inoculated i.p. or i.v. with bone marrow cells. The mice were given a dose of 900 rad of whole-body gamma radiation. Observations were made on survival rate, reconstitution with rat hematopoietic tissue, and capacity to reject or accept skin grafts. Results indicate that the combination of drug-induced tolerance and a newly established preconditioning regimen that eliminated postradiation damage and mortality results in reduction in incidence or delay in onset of GVHD, successful bone marrow grafting, and induction of persistent rat chimerism

[en] Haemopoietic radiation chimeras across the H-2 barrier (BALB/c → C57B1/6; H-2sup(d) → H-2sup(b) chimeras and vice versa) have been studied for their capacity to suppress the growth, or to reject, transplantable B16 melanotic melanoma and radiation leukaemia virus-induced, transplantable leukaemia. Also, radiation leukaemia virus (RadLV) obtained from the thymus of leukaemic C57B1/6 mice was injected i.p. into established chimeras (H-2sup(d) → H-2sup(b)). As expected, long lived, graft versus host disease free allogeneic chimeras constructed with intact bone marrow were unable to reject the tumours both when recipients were BALB/c → C57B1/6 or C57B1/6 → BALB/c chimeras. However, inoculation of a large number of immunocompetent cells from normal BALB/c mice into BALB/c → C57B1/6 chimeras failed to promote a rejection of the tumours. On the contrary, the same amount of syngeneic (BALB/c) immunocompetent cells prevented growth of melanoma when transferred into athymic nude BALB/c mice, while the tumour grew unimpaired in untreated athymic nude BALB/c mice. The same type of H-2sup(d) → H-2sup(b) chimeras displayed complete resistance to inoculation of leukaemogenic H-2sup(b) restricted RadLV while all H-2sup(b) → H-2sup(b), syngeneically reconstituted mice developed disseminated leukaemia. (author)

[en] Allogeneic, H-2-incompatible irradiation chimeras (H-2sup(d) → H-2sup(b)) constructed with normal, unmanipulated bone marrow and with marrow-derived factors live long and do not manifest a GvH disease. Their response to primary immunization is deficient but their alloreactivity is normal. This chimeric allotolerance cannot be passively transferred from chimeric donors to normal irradiated recipients. Passive transfer of both donor- or recipient-type immuno-competent T-cells into the chimeric mice does not lead to syngeneic reconstitution, rejection of the engrafted marrow or GvH disease, and the mice maintain permanently their chimerism. This new model demonstrates that chimerism is not eradicable in long-lived chimeras reconstituted with unmanipulated bone marrow, and that the bone marrow itself plays a dominant role in maintenance of chimerism. (Auth.)

[en] Cell-free supernatants of rabbit bone marrow were fractionated, separated, and purified by Ultrogel and Superose chromatography. A single fraction promoted engraftment of allogeneic bone marrow and enduring hemopoietic chimerism across the H-2 barrier in lethally irradiated mice. This 'bio-active' fraction, analyzed by reducing SDS-PAGE electrophoresis, and transblotted on PVDF membrane, and purified by reverse-phase HPLC and SDS-PAGE electrophoresis yielded a main prealbumin band that when examined for primary structure by Edman degradation, proved to be rabbit transferrin. This was also attested by highly specific precipitation of the prealbumin band with polyclonal antibodies to rabbit transferrin. Iron-saturated human transferrin, lactotransferrin, and egg transferrin (conalbumin) were assayed in irradiated C57BL/6 mice infused with bone marrow from histoincompatible BALB/c donors. Mice treated with iron-loaded transferrins survive and develop enduring allogeneic chimerism with no discernible signs of graft-versus-host disease. Iron carrier proteins thus provide an unique means of achieving successful engraftment of allogeneic bone marrow in immunologically hostile murine H-2 combinations