Immunity against Pseudomonas aeruginosa adoptively transferred to bone marrow transplant recipients

Infection is a common problem for bone marrow transplant (BMT) recipients during the period of neutropenia that immediately follows the procedure. Gram-negative infections present a particular hazard in these immunocompromised hosts. To augment host defenses against one such pathogen, Pseudomonas aeruginosa, we immunized bone marrow transplant donors and/or recipients with a polyvalent O-polysaccharide-toxin A conjugate vaccine. When either donor or recipient alone was vaccinated before transplant, no increase in specific antibody titers to any of the vaccine components was observed in the recipient. However, when both donor and recipient were vaccinated before transplant, increases in antibody titers to all polysaccharide components occurred to levels shown to be protective in animal models of gram-negative sepsis. Specific antibodies were primarily of the IgG1 and IgG2 subclass even though IgG2 subclass deficiency is common after BMT. The requirement for both donor and recipient immunization reflects the need for primed donor B lymphocytes in the marrow inoculum to be transferred into an antigen-containing environment so that maximum B-cell proliferation and antibody secretion can occur. Adoptive transfer of antibody responses to Pseudomonas aeruginosa and other common bacterial pathogens has the potential to reduce infection-related morbidity and mortality after allogeneic bone marrow transplantation.     

Transfer of specific immunity from donor to recipient of an allogeneic bone marrow graft: effect of conditioning on the specific immune response of the graft recipient

Transfer of specific immunity was investigated in a group of 28 paediatric and adult leukaemia patients during the first 100 d after allogeneic bone marrow transplantation (BMT). These patients and/or their donors were immunized 7-13 d before transplantation with the recall antigen tetanus toxoid (TT) and the neo-antigen Helix pomatia haemocyanin (HPH). The recipients were booster immunized with both antigens at day 42 after transplantation. Transfer of a primary IgM and IgG response to HPH was successful in most paediatric and adult patients, but transfer of a secondary response to TT was established in only a few paediatric recipients. After booster immunization at day 42 most paediatric recipients responded with a rise in serum antibody titre to HPH as opposed to only two of 18 adult recipients. This incapability of the adult recipients to mount a secondary immune response may be related to their conditioning regimen which included Campath-IG in vivo. The results from this study indicate that transfer of immunity against recall- and neo-antigens is possible. However, the establishment of long-term memory may be affected by the regimen used to condition the graft recipient.     

Development of immunity against hepatitis B virus after donor lymphocyte infusion in a peripheral blood stem cell transplantation recipient with chronic hepatitis B

Hepatitis B virus (HBV) infection is one of the main concerns in blood and marrow transplantation (BMT) patients for possible breakthrough hepatitis. Active recipient immunization against HBV was found to be ineffective and many studies had showed that the adoptive transfer of immunity against hepatitis B virus would be possible by BMT with unknown duration and mechanism. A 46-year-old female patient with chronic hepatitis B had persistent detectable HBV DNA and positive serum hepatitis B e antigen (HBeAg), even while on long-term lamivudine and adefovir therapy. She received allogeneic matched unrelated donor peripheral blood stem cell transplantation (allo-MUD-PBSCT) for her refractory acute myeloid leukemia (AML). The HBV DNA became undetectable and she developed HBeAg seroconversion after PBSCT. Her hepatitis B surface antigen (HBsAg) remained positive, which disappeared later, along with the development of antibody to HBsAg after one shot of donor lymphocyte infusion (DLI) as a boost against her AML. In summary, BMT from an immunized donor would probably bring adoptive immunity against HBV. This adoptive immunity might be further enhanced by the subsequent DLI.     

Studies on transfer of varicella-zoster-virus specific T-cell immunity from bone marrow donor to recipient

The transfer of antigen-specific cellular immunity in human bone marrow transplantation (BMT) was studied in 49 donor-recipient pairs, using a varicella-zoster-virus (VZV) specific lymphoproliferative response (LPR) assay. Posttransplant VZV-LPR could be serially measured in 31 long-term surviving recipients. VZV-specific T-cell immunity was detected in the early posttransplant period in 4 of 16 recipients who were, and whose donors were, immune to VZV before BMT, but two of those positive responses diminished in the first 100 days posttransplant. No positive response was detected in the immediate posttransplant period when either only the recipient or the donor was immune to VZV pretransplant. Herpes zoster or chickenpox developed in the recipients depending on a history of pretransplant VZV infection when the VZV-LPR became negative, and recovery from VZV infection was always followed by quick conversion of VZV-LPR. Long-lasting positive VZV-LPR was observed in the two recipients who experienced VZV infection in the immediate pretransplant period and received marrow graft from an immune donor. Our results indicate that a simple or direct transfer of VZV-specific cellular immunity from a marrow donor to a recipient cannot be expected in usual clinical bone marrow transplantation and that there might be a collaboration or recruitment of immune responses involving both donor and recipient that permits the VZV-LPR to remain positive posttransplant.     

Transfer of specific immunity to B-cell lymphoma with syngeneic bone marrow in mice: a strategy for using autologous marrow as an anti-tumor therapy.

Persistence of the underlying malignancy remains the major obstacle limiting the success of high-dose chemoradiotherapy with autologous bone marrow transplantation (BMT) for non-Hodgkin's lymphomas. We used the 38C13 murine B-cell lymphoma model to explore the approach of transferring tumor antigen-specific immunity with syngeneic BM as a protective element. Mice serving as syngeneic marrow donors were twice immunized with tumor-derived surface Ig protein, the idiotype of which serves as a tumor-specific antigen, or with a control Ig of matched isotype. Naive lethally irradiated recipients reconstituted with marrow from immune donors showed serologic tumor idiotype-specific immunity, as well as protection against lethal tumor challenge. The immunoprotective effect of immune marrow was also shown in lethally irradiated recipients partially protected by specific immunization post-BMT. Combined donor and recipient immunization also replaced the requirement for the booster immunization of the donor. These results provide the rationale for active immunization with purified surface Ig from autologous tumor as an adjunct to autologous BMT in humans.     

Immunization of allogeneic bone marrow transplant recipients with tumor cell vaccines enhances graft-versus-tumor activity without exacerbating graft-versus-host disease

Allogeneic bone marrow transplantation (BMT) induces 2 closely associated immune responses: graft-versus-tumor (GVT) activity and graft-versus-host disease (GVHD). We have previously shown that pretransplant immunization of allogeneic BMT donors with a recipient-derived tumor cell vaccine increases both GVT activity and lethal GVHD because of the priming of donor T cells against putative minor histocompatibility antigens (mHAgs) on the tumor vaccine cells. The work reported here tested the hypothesis that tumor cell vaccination after BMT would produce an increase in GVT activity without exacerbating GVHD. C3H.SW donor bone marrow and splenocytes were transplanted into major histocompatibility complex-matched, mHAg-mismatched C57BL/6 recipients. One month after BMT, recipients were immunized against either a C57BL/6 myeloid leukemia (C1498) or fibrosarcoma (205). Immunized recipients had a significant increase in survival and protection against tumor growth in both tumor models, and significant tumor protection was seen even in recipients with preexisting micrometastatic cancer before immunization. Alloreactivity appeared to contribute to the in vitro anti-tumor cytolytic activity, but in vivo immunity was tumor specific, and no exacerbation of GVHD was observed. Although the immunodominant mHAg B6(dom1) was shown to be expressed by all B6 tumors tested and was largely responsible for the alloreactivity resulting from tumor immunization of donors, the in vitro alloreactivity of immune recipients was more restricted and was not mediated by recognition of B6(dom1). In conclusion, post-transplant tumor immunization of allogeneic BMT recipients against either a leukemia or a solid tumor can increase GVT activity and survival without exacerbating GVHD.     

Improved survival following induction of GVHD following lipopolysaccharide immunization

OBJECTIVE: Graft-vs-host disease (GVHD) is still the primary limitation to the wider application of allogeneic bone marrow transplantation (BMT). On the one hand, it predisposes transplant recipients to risk of bacterial, fungal, and viral infections, on the other, lipopolysaccharide (LPS), an endotoxin found in the cell walls of gram-negative bacteria, has been shown to play a significant role in the development and severity of GVHD following allogeneic myeloablative BMT. Our study focused on immunization of recipient and donor mice with endotoxin prior to transplantation, in an attempt to reduce mortality caused by gram-negative bacterial infections posttransplantation. MATERIALS AND METHODS: In one experiment, recipient mice were immunized with LPS prior to BMT, whereas in another experiment, donor mice were immunized prior to BMT. The mice were evaluated for development of GVHD and for survival. RESULTS: Our results showed that injection of low-dose LPS to mice prior to induction of GVHD with allogeneic spleen cells saved more than 40% of the recipients, whereas all mice in the untreated control group died. The survival of recipients of spleen cells from immunized donors rose to 54% and clinical signs of GVHD were attenuated as compared to control mice inoculated with spleen cells obtained from unimmunized donors. CONCLUSION: This immunization protocol suggests that immunization of the donor or the recipient against LPS prior to transplantation may be protective against gram-negative bacteria.     

Donor-derived red blood cell antibodies and immune hemolysis after allogeneic bone marrow transplantation

Six cases of immune hemolytic anemia attributed to donor-derived red cell antibodies after allogeneic bone marrow transplantation (BMT) are reported. In 2/6 cases, severe intravascular hemolysis was seen, 6/6 required increased red cell transfusion, and 1/6 was treated by plasma exchange. All recipients were receiving cyclosporine to prevent graft-v- host disease. Investigations showed that in each case, the donor lacked ABO or Rho(D) red cell antigens present in the recipient. The direct antiglobulin test was positive in 6/6. Relevant serum antibody (anti-A, four cases; anti-B, one case; anti-D, one case) was first detected one to three weeks after BMT. Eluates made from recipient red cells showed the same specificity as serum antibody. Maximum hemolysis occurred nine to 16 days after BMT, suggesting that active production of antibody by "passenger" donor lymphocytes was the likely mechanism of hemolysis, rather than passive transfer of antibody in the marrow infusion. Retrospective analysis of 21 consecutive cyclosporine-treated BMT patients receiving marrow lacking ABO or D antigens present in the recipient showed that (1) 15/18 patients tested had red cell antibody production against recipient red cell antigens; (2) despite the frequent presence of antibody specific for recipient red cell antigens, only 3/21 patients developed clinically significant hemolysis; (3) clinical hemolysis could not be predicted by donor or recipient red cell antibody titers. We conclude that although red cell antibody against recipient antigens is frequently produced after minor ABO and D mismatched BMT in cyclosporine-treated recipients, only 10% to 15% of cases develop clinically significant immune hemolysis. The data presented show that the most likely source of antibody is "passenger" donor lymphoid cells.     

Adoptive immunity transferred by naive donor cells immunized in vitro

Speedy restoration of immune responsiveness in bone marrow recipients has been the objective of studies in which the donor was immunized so that specific immunologic memory could be transferred adoptively and selectively. Using unrelated rabbits, matched for major histocompatibility antigens but mismatched for their immunoglobulin allotypes, it could be shown that recipients of lymphoid cells from naive donors became B cell chimeras but did not use donor-derived B cells for their antibody responses to test antigens. In contrast, cells from donors primed for such antigens dominated antibody production in recipients in response to specific challenge. Clonal restriction in such adoptive responses was demonstrated. We now show that the induction of effective memory in cells from naive donors can be achieved in vitro during the preparation of donor cells for transfer to the recipient. Early challenge of the recipient enhances expression of the transferred immune response quantitatively and also results in the establishment or preservation of a larger diversity of clones from the donor.     

The origin of IgG production and homogeneous IgG components after allogeneic bone marrow transplantation

Pediatric recipients (n = 25) of an allogeneic bone marrow (BM) graft were selected on the basis of informative IgG allotype (Gm) differences between the BM donor and the recipient. To investigate the kinetics of the appearance of IgG of donor origin and the disappearance of IgG of recipient origin, G1m and G2m allotype levels were quantified in sera obtained at regular intervals between 3 months and 5 years after BM transplantation (BMT). For this quantification, a dot immunobinding assay (DIBA) has been developed. In 19 of 22 informative recipients, the Gm allotype distribution had reached the range of values expected on the basis of the Gm phenotype of the donor within 6 months after BMT. Remarkably, IgG of recipient origin persisted in 15 of 18 informative recipients until last follow up, ie, for several years after BMT. In addition to the origin of total IgG production, the origin of homogeneous IgG components (H-IgG) appearing after BMT was investigated. H-IgG of donor origin could be detected as early as 3 weeks after BMT, but also H-IgG of recipient origin were present in 8 of 13 informative recipients for a period of up to 1 year after BMT. We conclude that host-type IgG-producing cells were not eradicated by the (myeloablative) conditioning regimen and persisted in a high number of graft recipients. It is our hypothesis that lack of graft-versus-host disease (GVHD) in the majority of these recipients results in the persistence of IgG-producing cells of host origin. These observations may be relevant for the evaluation of patients who received allogeneic BMT for the treatment of multiple myeloma.     

Donor immunization with WT1 peptide augments antileukemic activity after MHC-matched bone marrow transplantation

The curative potential of MHC-matched allogeneic bone marrow transplantation (BMT) is in part because of immunologic graft-versus-tumor (GvT) reactions mediated by donor T cells that recognize host minor histocompatibility antigens. Immunization with leukemia-associated antigens, such as Wilms Tumor 1 (WT1) peptides, induces a T-cell population that is tumor antigen specific. We determined whether allogeneic BMT combined with immunotherapy using WT1 peptide vaccination of donors induced more potent antitumor activity than either therapy alone. WT1 peptide vaccinations of healthy donor mice induced CD8(+) T cells that were specifically reactive to WT1-expressing FBL3 leukemia cells. We found that peptide immunization was effective as a prophylactic vaccination before tumor challenge, yet was ineffective as a therapeutic vaccination in tumor-bearing mice. BMT from vaccinated healthy MHC-matched donors, but not syngeneic donors, into recipient tumor-bearing mice was effective as a therapeutic maneuver and resulted in eradication of FBL3 leukemia. The transfer of total CD8(+) T cells from immunized donors was more effective than the transfer of WT1-tetramer(+)CD8(+) T cells and both required CD4(+) T-cell help for maximal antitumor activity. These findings show that WT1 peptide vaccination of donor mice can dramatically enhance GvT activity after MHC-matched allogeneic BMT.     

Allogeneic bone marrow transplantation-mediated transfer of specific immunity against Toxocara canis associated with excessive IgE

A girl with myelodysplastic syndrome (RAEB-T) received HLA-identical bone marrow from her younger brother after myeloablative treatment with busulfan and cyclophosphamide. After bone marrow transplantation, fever, exanthema, pruritus, and a pulmonary infiltrate were treated symptomatically. Bacterial cultures remained negative. Leukocyte engraftment began on day 10, and all blood cell populations proved to be of donor origin on FISH analysis. Increasing IgE levels (21 000 U/ml) on day 14 after BMT, positive RAST, specific IgG-antibodies, and missing Toxocara (T.) canis antigens in the recipient indicated donor-derived seroconversion. Before BMT, the recipient had been negative for T. canis in routine parasitological screening, and the donor proved to be positive for T. canis antibody by ELISA. This report suggests that the transfer of IgE immunity in the absence of detectable antigens may be responsible for IgE-mediated symptoms consistent with toxocara infection and confirms the need for parasite screening in donor medical examinations.     

Response to immunization against polio after allogeneic marrow transplantation.

Long-term immunity to poliovirus and immunization response to inactivated poliovirus vaccine (IPV) were studied in 55 patients who underwent allogeneic bone marrow transplantation (BMT). Antibodies were determined by neutralization assays. Patients were studied before, at 12 months after BMT and at 12 months after immunization with IPV. Thirty-seven patients were seropositive to all poliovirus types at 12 months after BMT. At least a four-fold decrease in antibody level was recorded between BMT and 12 months later in 55%, 41%, and in 45% of the patients to poliovirus types 1, 2, and 3, respectively. Nineteen patients were immunized with one dose of trivalent IPV. Eight patients (42%), seven patients (36%), and four patients (21%) responded with at least a four-fold antibody titer increase to poliovirus type 1, 2, and 3, respectively. Twenty-nine patients were primarily immunized with three IPV doses. The response rates were 52%, 48% and 48% to poliovirus types 1, 2, and 3, respectively. The immunization responses were similar in patients who did or did not have chronic GVHD. Reimmunization of allogeneic BMT recipients against poliovirus is necessary and a three dose schedule is needed to obtain an adequate immunization response.     

Production of IL-10 by alloreactive sibling donor cells and its influence on the development of acute GVHD

Graft-versus-host disease (GVHD) is a major complication of allogeneic hematopoietic stem cell transplantation. Pretransplant conditioning regimes cause release of proinflammatory cytokines that stimulate alloreactive donor T cells to attack recipient tissues. IL-10 has been shown to directly downregulate CD4+ T cells by suppressing IL-2 secretion and a critical role played by regulatory T cells has been demonstrated in animal models. One defining cytokine profile for regulatory T cells is the production of IL-10. Release of specific cytokines (IL-10, IL-4 and IFN-gamma) was detected using ELISPOT technology, following stimulation of donor peripheral blood mononuclear cells by recipient (human leukocyte antigen-matched sibling) alloantigen or by mitogen. Correlation between the frequency of cytokine-releasing cells and the development of acute GVHD was investigated. A high frequency of donor cells producing IL-10 in response to recipient alloantigen stimulation correlated with absence of acute GVHD after bone marrow transplant (BMT), while low frequency was strongly associated with severe GVHD. This study presents strong evidence that estimating the frequency of donor alloreactive cells producing IL-10 in response to recipient antigens will provide valuable information prior to BMT regarding potential transplant outcome.     

Factors affecting antibody levels after allogeneic hematopoietic cell transplantation

To obtain insight into the mechanism(s) of posttransplantation humoral immunodeficiency, we evaluated factors affecting serum antibody levels against polio, tetanus, Haemophilus influenzae, and Streptococcus pneumoniae in 87 patients. Patients with hematologic malignancies were randomized to receive marrow versus blood stem cells, which contain approximately 10 times more lymphocytes than marrow. Blood stem cell recipients did not have higher antibody levels than marrow recipients. Recipient pretransplantation antibody levels were correlated with the posttransplantation levels, especially in the first 6 months after transplantation when the correlation coefficients typically exceeded 0.6. Donor pretransplantation antibody levels had less of a correlation with posttransplantation levels in the recipient. Patient or donor age, total body irradiation, and graft-versus-host disease or its treatment appeared to have no effect. In conclusion, antibody levels in the first year after transplantation are affected primarily by pretransplantation antibody levels in the recipient and, to a lesser degree, in the donor. These findings suggest that immunization of the recipient and the donor before transplantation may be more effective in improving antibody immunity after transplantation than manipulating graft-versus-host disease, changing conditioning, or increasing the number of lymphocytes in the graft.     

Combined syngeneic bone marrow transplantation and immunotherapy of a murine B-cell lymphoma: active immunization with tumor-derived idiotypic immunoglobulin

Recurrence of the underlying malignancy remains a major cause of treatment failure after autologous bone marrow transplantation (BMT) for patients with lymphoma. In this regard, we have developed an immunotherapeutic approach designed to induce resistance against residual tumor cells persisting after BMT. Previous studies in the model system of 38C13, a lethal B-cell lymphoma of C3H origin, have shown that active immunization with purified tumor-derived surface immunoglobulin (Id), as a tumor-associated antigen, produces resistance to tumor growth. Id immunization of lethally irradiated mice at 3 or 5 weeks after reconstitution with syngeneic bone marrow resulted in significantly prolonged survival after tumor challenge compared with nonspecifically immunized controls. Low levels of idiotype-specific antibody were also demonstrated in the sera of specifically immunized mice at this early time, when other functional studies in the literature of immunocompetence after syngeneic reconstitution might have predicted incomplete recovery. Immunization of mice before lethal irradiation and syngeneic marrow reconstitution also induced significant resistance to tumor challenge, suggesting the persistence of established host antitumor immunity through total body irradiation. These studies demonstrate the feasibility of id immunization in conjunction with bone marrow transplantation.     

Monitoring of residual disease and guided donor leucocyte infusion after allogeneic bone marrow transplantation by chimaerism analysis with short tandem repeats

In this study, we analysed the chimaeric status of peripheral blood leucocytes (PBLs) in recipients of allogeneic bone marrow transplantation (BMT) with the use of short tandem repeat (STR) microsatellite markers for monitoring the efficacy of BMT and donor leucocyte infusions (DLIs). A set of four STR markers was used with a highly discrimative capacity between individuals. STRs were detected by polymerase chain reaction (PCR) and were analysed by gene scanning (STR-GS). Between June 1990 and December 1998, 52 patients treated with BMT for chronic myeloid leukaemia (CML) were analysed. Seventeen patients relapsed after BMT and two patients never achieved remission after BMT. Fourteen of the 17 patients achieved a complete donor chimaerism after BMT, as detected by the presence of only donor STR-GS fragments, and in three cases a weak recipient STR-GS signal remained persistently detectable after BMT. A reappearance or increase of recipient STR-GS signals was indicative of relapse, which was mostly detected by STR-GS several months before relapse was diagnosed clinically. Nineteen patients were treated with DLI for reappearance of CML after BMT which resulted in complete remission in 17 patients, concordant with the disappearance of recipient STR-GS signals. More importantly, DLI treatment could be guided based upon the STR-GS data, which prevented unnecessary extra DLI courses that could cause toxicity. This study indicates that STR-GS is an effective and reliable method for monitoring BMT recipients.     

Active immunization of murine allogeneic bone marrow transplant donors with B-cell tumor-derived idiotype: a strategy for enhancing the specific antitumor effect of marrow grafts

Persistence of the underlying malignancy remains the major obstacle limiting the success of high-dose chemoradiotherapy with allogeneic bone marrow transplantation (BMT) for lymphomas and multiple myeloma. We used the C3H 38C13 murine B-cell lymphoma, which expresses and secretes clonally derived Ig, the idiotype of which can serve as a tumor-specific antigen, to test the principle of transfer of tumor idiotype-specific immunity with BM. BALB/c marrow donors were twice immunized with 38C13-derived Ig, or with an isotype-matched control Ig, conjugated to keyhole limpet hemocyanin. Lethally irradiated C3H recipients reconstituted with marrow from idiotype immune, but not nonspecifically immune, donors demonstrated protection against subsequent lethal tumor challenge. The immunoprotective effect of immune allogeneic marrow was abrogated by T-cell depletion of the marrow graft before infusion. Low levels of serum anti-idiotypic antibody remained unaltered in recipients of T-cell-depleted immune marrow, consistent with a primary role for T-cell immunity in the cellular mechanism of this phenomenon. A modest therapeutic effect of immune allogeneic marrow was observed against 10 day, 1 cm established subcutaneous tumors, but only in combination with a booster immunization of the recipient post-BMT. These results provide the rationale for a novel strategy for enhancing the specific antitumor effect of allogeneic marrow grafts.     

Long-term acquisition of allergen-specific IgE and asthma following allogeneic bone marrow transplantation from allergic donors

Adoptive transfer of allergen-specific immunoglobulin E (IgE) from atopic donors to nonatopic recipients occurs during the first year following bone marrow transplantation (BMT). Mature B- and T-cell clones with allergen-specific memory and hematopoietic progenitor cells are transferred through BMT. The objective of this study was to characterize the long-term rate of allergic sensitization and development of clinical allergic diseases following BMT from atopic donors. A long-term follow-up study was conducted in a cohort of donor and recipient pairs with moderate-to-severe allergic disease in the donor prior to BMT. Assessments of allergen-specific IgE, clinical rhinitis, and asthma were made in the donors prior to BMT and in the recipients with a mean follow-up of 15.5 years after BMT. From an initial cohort of 12 bone marrow transplant recipients who received marrow from allergic donors, 5 long-term survivors were identified. Allergen-specific IgE transferred from donor to recipient following BMT frequently persisted, and a high rate of de novo allergic sensitization was observed between 1 and 14 years after BMT. These events were associated with elevation in total IgE, and development of allergic rhinitis and asthma at long-term follow-up. We conclude that marrow-derived immune cells from allergic donors can transfer the predisposition to allergy and asthma.     

The role of OX22− helper T cells in protective immunity to reinfection with Taenia taeniaeformis in rats

Spleen cells (SpC) and mesenteric lymph node cells (MLNC) from F344 donor rats actively immunized by oral inoculation with Taenia taeniaeformis eggs were syngeneically transferred into previously uninfected recipient rats by intravenous injection. Recipient rats were challenged with eggs after cell transfer. The degree of immunity was assessed by counting the number of growing metacestodes (MC) in the liver and compared with that in controls. Transfer of 2 × 10⁸ SpC, obtained from donors immunized for ten or more (but not for three or five) days before cell transfer inhibited the establishment of most of MC. There were approximately 86–88% reductions in MC recoveries. SpC (2 × 10⁸) obtained from donors immunized for ten days inhibited the establishment of most of MC in recipient rats when transferred nought, two, or 24 h (but not 48 h) before egg challenge. Functional cells in the immune SpC were helper T cells W3/25⁺, OX8⁻ and OX22⁻. However, immune MLNC obtained from donors immunized for three to ten days before cell transfer had no effect on transferring immunity.