Human bone marrow allograft recipients: production of, and responsiveness to, interleukin 2

The production and utilization of interleukin 2 (IL 2) by peripheral blood mononuclear cells (PBMC) from 14 bone marrow allograft recipients was examined. PBMC from all patients were impaired in their ability to produce IL 2 when stimulated by phytohemagglutinin (PHA). On the average, the IL 2 activity produced by patients' PBMC was 8% of that from normal donors' PBMC. To examine the basis for this impaired T cell function in marrow recipients, the ability of a resting T lymphocyte population isolated from PBMC to respond to PHA and exogenously supplied IL 2 was analyzed. The proliferative response of resting T cells to PHA and IL 2, although low at early times post-transplant, reached near normal levels by 8 mo. Only two of 11 patients had normal numbers of precursor T cells that could respond. For all other patients the average number of precursor T cells was 10-fold lower than the average determined for normal donors. The impaired production of IL 2 by patients' PBMC may be due to this low precursor frequency. For some patients the rate and/or extent of clonal expansion of activated T cells appears to be greater than that of normal donors. The data suggest that the therapeutic application of IL 2 to such patients is unlikely to be successful in overcoming defects of T cell function before 8 mo post-marrow transplant.     

T cell regulation of interferon-alpha/beta (IFN-alpha/beta) production by alloantigen-stimulated bone marrow cells

We have previously reported that mouse bone marrow cells produce high levels of interferon-alpha/beta (IFN-alpha/beta) after 5 to 6 days of in vitro culture with irradiated allogenic spleen cells. The current study was initiated to determine whether or not T cells are important for alloantigen-induced IFN-alpha/beta production by mouse bone marrow cells. Bone marrow cells and spleen cells were obtained from C57BL/6 mice. These cells were treated with different monoclonal antisera and complement, and then were cultured 5 to 6 days with irradiated DBA spleen cells. The results from these experiments indicated that optimal IFN-alpha/beta production by alloantigen-stimulated bone marrow cells required Lyt-1+2+ T cells. In addition, when bone marrow cells obtained from nu/nu B10 mice were cultured with alloantigen, only low levels of IFN were produced when compared with IFN production by bone marrow cells obtained from normal littermate B10 mice. The addition of nylon wool-enriched splenic T cells to cultures containing bone marrow cells and alloantigen resulted in an augmentation of IFN-alpha/beta production by three-fold to fivefold. Furthermore, bone marrow cells obtained from alloantigen-immunized mice produced much higher levels of IFN-alpha/beta and in a shorter period of time (2 to 3 days) when compared with bone marrow cells obtained from control or non-immunized mice. Cyclosporin A (CsA) has been shown to inhibit predominantly T cell-dependent responses. The effect of CsA on IFN production by alloantigen-stimulated bone marrow and spleen cells was investigated. The addition of CsA at concentrations as low as 0.1 micrograms/ml inhibited not only IFN-gamma production by alloantigen-stimulated spleen cells, but also IFN-alpha/beta production by alloantigen-stimulated bone marrow cells. In contrast, IFN-alpha/beta production by Newcastle disease virus-infected spleen cells, bone marrow cells, or L cells was not inhibited by the addition of CsA (1 microgram/ml). Thus, the ability of bone marrow cells to produce high levels of IFN-alpha/beta after in vitro culture with alloantigen is dependent upon T cells resident in the bone marrow. IFN-alpha/beta production by alloantigen-stimulated bone marrow cells may play a major role in the pathogenesis associated with graft-vs-host disease and in T cell regulation of hematopoiesis.     

Urinary cytologic abnormalities in bone marrow transplant recipients of cyclosporin

The role of urinary cytology in the early diagnosis of cyclosporin nephrotoxicity was studied in 20 bone marrow transplant recipients. There was an evident cyclosporin cytopathy in 35% of bone marrow transplant recipients examined, consisting mainly of degenerative and necrotic abnormalities in cells of the proximal convoluted tubules seen in urinary samples. These findings regressed to normal after reduction of the cyclosporin dose. Urinary cytology proved to be a useful method for the early diagnosis of cyclosporin nephrotoxicity.     

Interleukin 2 induces interferon alpha/beta production in mouse bone marrow cells

We have previously reported that mouse bone marrow (BM) cells stimulated with alloantigen produce cytotoxic effector T-cell activity and produce interferon (IFN-)alpha/beta. In this report we show evidence suggesting that interleukin 2 (IL-2) may play a role in this IFN-alpha/beta production by alloantigen-stimulated BM cells. Alloantigen-induced IFN production by bone marrow cells was completely inhibited when cultures were supplemented with antisera to IL-2. Cell-free supernatants obtained at 2 days from cultures containing C57BL/6 BM cells and irradiated DBA/2J spleen cells were also shown to contain low levels of IL-2 activity and induced significant IFN production in fresh BM cells. Different IL-2 preparations were tested for their ability to induce IFN-alpha/beta production in mouse BM cells. Mouse BM cells cultured with recombinant human IL-2 or highly purified mouse IL-2 produced high levels of IFN-alpha/beta activity after 2-3 days of culture with significant IFN activity being detected as early as 24 hr of culture. IL-2-induced IFN-alpha/beta production was partially resistant to irradiation. In contrast, irradiated (2000 rad) bone marrow cells failed to produce any IFN when cultured with alloantigen in the absence of IL-2. T-cell-depleted BM cells or BM cells obtained from C57BL/10 nude mice produced high levels of IFN-alpha/beta following stimulation with IL-2. In addition, bone marrow cells depleted of Ia+, Qa 5+, or Asialo GM+1 cells produced IFN in response to IL-2. Thus, neither T cells nor NK cells are required for IL-2-induced IFN-alpha/beta production by BM cells. The action of IL-2 on bone marrow cells to induce IFN production was mediated by the classical IL-2 receptor, since monoclonal antibodies to the IL-2 receptor present on T cells blocked this response and since bone marrow cells depleted of IL-2 receptor-bearing cells failed to produce IFN when cultured with IL-2. These results suggest that non-T cells resident in the BM have receptors for IL-2 and can produce IFN-alpha/beta upon stimulation by IL-2. Since IFN has been shown to affect different aspects of hematopoiesis, the production of IFN by BM cells stimulated by IL-2 may be important in the control of hematopoiesis. In addition, IL-2-induced IFN production may play a role in graft-versus-host disease.     

Linked unresponsiveness: early cytokine gene expression profiles in cardiac allografts following pretreatment of recipients with bone marrow cells expressing donor MHC alloantigen

Linked unresponsiveness operates to induce specific unresponsiveness to fully mismatched vascularized allografts in recipients pretreated with anti-CD4 antibody and syngeneic bone marrow cells expressing a single donor MHC class I alloantigen. The aim of the study was to evaluate early post transplant cytokine expression in allografts where linked unresponsiveness was required for long term graft survival. CBA (H2(k)) mice were pretreated with CBK (H2(k)+K(b)) bone marrow cells under the cover of anti-CD4 antibody 28 days before transplantation of a CBK or a C57BL/10 (H2(b)) cardiac allograft. In both cases graft survival was prolonged (MST=100 days). Intragraft expression for interferon (IFN)-gamma, interleukin (IL)-2, IL-4, IL-10, IL-12(p40), IL-18, iNOS, transforming growth factor (TGF)-beta(1) and C-beta was determined on day 1.5, 3, 7 and 14 after transplantation. Whereas rejecting allografts displayed a sharp peak in IFN-gamma, IL-2, IL-4 and IL-10 expression, non-rejecting allografts were characterized by an initial TGF-beta(1) and IFN-gamma production. An increasing IL-4 expression towards day 14 was a unique feature of linked unresponsiveness. All non-rejecting allografts were characterized by an increasing IL-12(p40) production towards day 14. In summary, the early cytokine expression pattern in allografts after bone marrow induced operational tolerance is influenced by the quantity of donor alloantigens expressed on the graft as well as on the bone marrow inoculum.     

T and B cell responses to cytomegalovirus antigens in healthy blood donors and bone marrow transplant recipients

Abstract We measured the production of interferon-gamma (IFN-γ) from single T cells and the T cell proliferative response to different cytomegalovirus (CMV) antigens in healthy blood donors and bone marrow transplant recipients. The antigens consisted of a CMV nuclear antigen (CMV na) containing the pp65-kDa matrix protein and the immediate early antigens but lacking CMV glycoproteins, and an antigen comprising native CMV glycoproteins (CMV gp). We also measured the IgG antibodies to CMV na and CMV gp. The T cells reacted to CMV na in CMV seropositive blood donors both with the production of IFN-γ and with proliferation, while bone marrow transplant recipients had a deficient T cell response. After stimulation with CMV gp, no T cell response could be observed in CMV seropositive subjects. IgG antibodies to CMV na coexisted in plasma with similar levels of antibodies to CMV gp.     

Nonspecific suppressor T cells cause decreased mixed lymphocyte culture reactivity in bone marrow transplant patients

Decreased reactivity in mixed lymphocyte culture (MLC) was observed in patients within 1 yr after allogeneic and autologous bone marrow transplantation. Suppressor activity of peripheral blood mononuclear cells (PBMC) from transplant patients was studied by adding these cells as modulator cells to a bidirectional MLC with cells from normal individuals. PBMC from transplant patients markedly suppressed MLC reactivity in a dose-dependent manner. Suppressor activity was present in cells forming rosettes with sheep erythrocytes. Treatment of modulator cells with monoclonal antibodies against T cell differentiation antigens (OKT8, OKIa1) and complement completely abolished suppression of MLC. Suppressor activity was unaffected by 30 Gy irradiation. Suppressor activity declined gradually after transplantation and was inversely correlated with MLC reactivity of each patient at a significant level (p less than 0.01). These observations suggest that OKT8+ Ia+ radioresistant suppressor T cells play a role in the development of decreased MLC reactivity observed during the early post-transplant period.     

Serum megakaryocytopoietic activity after allogeneic bone marrow transplantation (BMT).

Platelet recovery after allogeneic bone marrow transplantation for treatment of different haematologic disorders was monitored by ability of sera from BMT recipients to support the clonal growth of normal megakaryocyte progenitors. The resultant megakaryocyte colonies were expressed as a Serum Factor Index-Megakaryocyte (SFI-Mk). In two patients with whole and in one with partial haematological reconstitution SFI-Mk was normal, and in others SFI-Mk value was increased. Our results indicate that sera from BMT recipients contain megakaryocytopoietic activity which inversely correlate with recovery of megakarycytic lineage following bone marrow transplantation.     

Immunity related to cytomegalovirus after allogenic bone marrow transplantation: role of donor immunity to cytomegalovirus in the incidence of cytomegalovirus infection in recipients

Cytomegalovirus infections are severe and frequent after BMT. This study included 34 bone marrow transplant recipients (23 aplastic anaemias and 11 leukaemias), their marrow donors and 125 related or non related normal controls. Assays were performed before transplantation and every 30 days between D 0 and D 90, and then every six months. They included detection of CMV induced lymphocyte proliferation in vitro, CMV antibody determinations by complement fixation and reverse haemagglutination, viraemia and/or viruria. Similarly, cellular immunity to mitogens and to other specific antigens was evaluated. During the period of study, 22 patients developed CMV infection. The diagnostic was confirmed by virus isolation from the 12th to the 96th day after the graft. Development of positive CMV proliferation test occurred from the 9th to the 84th day after virus isolation (30 to 120th day after the graft). In one case, the CMV infection was only proved by the lymphocyte proliferation to CMV in vitro and only 60 days later by viruria and 105 days later by detection of CMV antibodies. For the other 12 patients (7 aplasies and 5 leukaemias) and 10 of their bone marrow donors, no CMV infection was proved, before or after transplant, by any of the assays performed. By selecting a donor without previous CMV infection, we hope to reduce the incidence of CM infection in recipients.     

Regeneration of T cell subpopulations after bone marrow transplantation: cytomegalovirus infection and lymphoid subset imbalance

Immune reconstitution was studied serially by using T lymphocyte cell surface differentiation antigens in 37 individuals receiving bone marrow transplants. Antigen expression was assessed by immunofluorescence analysis using monoclonal antibodies to T lymphocytes including Leu-3, which defines a T lymphocyte subpopulation in healthy individuals with T helper or inducer activity (L3+), and Leu-2, which defines a T lymphocyte subpopulation in healthy individuals with T helper or inducer activity (L3+), and Leu-2, which defines a T lymphocyte subpopulation with suppressor or cytotoxic activity (L2+). These studies demonstrated that the L2+ subpopulation regenerated more rapidly after transplant than did the L3+ subpopulation. Imbalances between these two T lymphocyte subpopulations, indicated by a decreased L3/L2 ratio, persisted for periods up to 12 mo post-transplant. Expression of a cell surface antigen associated with immature lymphocytes (OKT-10), and of HLA-DR (Ia-like) antigens was markedly increased during the post-transplant period. HLA-DR antigen expression did not appear related to immune activation in that increased reactivity was not detected with a monoclonal antibody (anti-TAC) specific for activated T cells. These observations in bone marrow transplant recipients and other disorders characterized by lymphoid restoration or immaturity indicate that inversion of the normal L3/L2 ratio and increased expression of OKT-10 and HLA-DR antigens may be features of a regenerating immune system. Furthermore, serial observation of individual patients indicated that infection with cytomegalovirus was associated with a progressive decrease in the L3/L2 ratio.     

Characterization of reticulofibroblastoid colonies (CFU-RF) derived from bone marrow and long-term marrow culture monolayers

The maintenance of hemopoietic precursors in long-term liquid bone marrow cultures (LTBMC) is associated with the presence of an adherent stromal layer composed of heterogeneous cell populations. We have used a culture assay to promote the growth of one of its cellular components and characterize its properties. Freshly obtained bone marrow cells and cells derived from the adherent layer of LTBMC were grown in methylcellulose-clotted plasma in the presence of phytohemagglutinin-stimulated leukocyte-conditioned medium (PHA-LCM), hydrocortisone (HC), and citrated normal human plasma. Both sources contained cells (CFU-RF) that gave rise to colonies of cells with a reticulofibroblastoid appearance. In the presence of HC, most colonies contained lipid-laden cells. Colonies could be further propagated as adherent layers when transferred into liquid cultures. These cells produced laminin, fibronectin, and collagen types I, III, IV, and V. They were negative for Von Willebrand factor VIII. The ability to synthesize laminin and collagen type IV distinguished these cells from a population of previously described bone marrow fibroblasts (CFU-F). The relationship of CFU-RF to hemopoietic precursors was investigated using patients with chronic myeloid leukemia and bone marrow transplant recipients. Cells within CFU-RF-derived colonies were uniformly negative for the Philadelphia chromosome, thus making it unlikely that they belonged to the malignant hemopoietic clone. CFU-RF-derived colonies in bone marrow transplant recipients were found to be exclusively of host origin. Both observations support the view that CFU-RF is not part of the repertoire of hemopoietic stem cells.     

Human bone marrow lymphocytes. III. Polyclonal activation of B lymphocytes in human bone marrow measured by a direct plaque-forming cell assay.

Lymphocytes from the bone marrow and peripheral blood of the same normal individuals were assayed simultaneously for blast transformation as well as polyclonal activation with differentiation to antibody-forming cells after stimulation with pokeweed mitogen. Blastogenic responses were measured by tritiated thymidine incorporation and antibody-forming cell assay. There was no significant difference between the blastogenic responses of lymphocytes in the peripheral blood compared to the bone marrow of the same individuals. However, differentiation to antibody-forming cells measured by the plaque-forming cell response was significantly greater in lymphocytes in the bone marrow as compared to peripheral blood of the same individuals. These studies demonstrate that the lymphocytes in human bone marrow are at a stage of differentiation whereby they can be readily induced to differentiation toward antibody production by polyclonal activation, even more so than peripheral blood lymphocytes. This supports the concept that the bone marrow is a major source of immunoglobulin production in man.     

Successful adoptive immunotherapy of minimal residual disease after chemoradiotherapy and transplantation of bone marrow purged of leukaemia with mafosfamide

Summary The effectiveness of adoptive immunotherapy in eliminating minimal residual disease in tumour-bearing mice after bone marrow transplantation was tested. This model mimics the human clinical condition when autologous bone marrow was purged ex vivo of leukaemia with mafosfamide or was not purged, and stored in liquid nitrogen before transplantation. Animals with minimal residual disease were prepared with marrow-ablative but leukaemia-noncurative doses of cyclophosphamide (CY) and total body irradiation followed by bone marrow transplantation. The next day after transplantation the recipients were injected with splenocytes immunized against the leukaemia cells (Imm-SPL) or monoclonal antibody (mAb). All the control mice died from leukaemia relapse, but 51% of purged bone marrow recipients, which received Imm-SPL, were cured. In similar conditions mAb did not exert a therapeutic effect. Imm-SPL were not able to eradicate minimal residual disease in the recipients of nonpurged bone marrow. Thus, in an animal model, we demonstrated that purging of bone marrow before grafting seems to be indispensable for successful adoptive immunotherapy of minimal residual disease (MRD) after autologous bone marrow transplantation.This work was supported by grant CPBP 04.01. from the Polish Academy of Sciences     

The Role of Bone Marrow Cells in the Phenotypic Changes Associated with Diabetic Nephropathy

The aim of our study was to investigate the role of bone marrow cells in the phenotypic changes that occur in diabetic nephropathy. Bone marrow cells were obtained from either streptozotocin-induced diabetic or untreated control C3H/He mice and transplanted into control C3H/He mice. Eight weeks after bone marrow cell transplantation, renal morphologic changes and clinical parameters of diabetic nephropathy, including the urine albumin/creatinine ratio and glucose tolerance, were measured in vivo. Expression levels of the genes encoding α1 type IV collagen and transforming growth factor-β1 in the kidney were assayed. Our results demonstrated that glucose tolerance was normal in the recipients of bone marrow transplants from both diabetic and control donors. However, compared with recipients of the control bone marrow transplant, the urinary albumin/creatinine ratio, glomerular size, and the mesangial/glomerular area ratio increased 3.3-fold (p < 0.01), 1.23-fold (p < 0.01), and 2.13-fold (p < 0.001), respectively, in the recipients of the diabetic bone marrow transplant. Expression levels of the genes encoding glomerular α1 type IV collagen and transforming growth factor-β1 were also significantly increased (p < 0.01) in the recipients of the diabetic bone marrow transplant. Our data suggest that bone marrow cells from the STZ-induced diabetic mice can confer a diabetic phenotype to recipient control mice without the presence of hyperglycemia.     

Composite tissue allografts in rats: IV. Graft-versus-host disease in recipients of vascularized bone marrow transplants.

This laboratory has used a composite tissue allograft model as a vehicle for studies on a new type of bone marrow transplant, the vascularized bone marrow transplant. The model consists of a rat hind limb transplant that incorporates integumentary musculoskeletal, and lymphopoietic tissues. These transplants, in comparison with conventional marrow transplants, have the advantage of providing a syngeneic microenvironment and immediate engraftment of both mature and progenitor hemopoietic cells at the time of transplantation. The characteristics of graft-versus-host disease were studied in this model. Lewis X Brown Norway F1 (LBN RT-1(1+n)) rats received hind limbs from Lewis (LEW RT-1(1)) donors (n = 19). Animals were observed daily for signs of graft-versus-host disease. Necropsies were performed. A minority of animals developed lethal disease (7 of 19 recipients) and demonstrated cachexia with concomitant histopathologic changes of the disease. Acute and chronic groups emerged with distinct clinical courses, which are similar to other models of this disease. Recipients of vascularized bone marrow transplants (limb transplants) showed clinical and histopathologic changes of the disease. The transplants may be used as a model of graft-versus-host disease in humans. Most interestingly, the transplant has a lower incidence of disease compared with other methods of bone marrow transplantation and represents an alternative to conventional bone marrow transplantation, which deserves further exploration. It may be possible to develop a new technique for bone marrow transplantation based on this surgical approach. It is proposed that the transfer of vascularized blocks of bone/marrow into prospective recipients as opposed to cellular bone marrow transplants may be preferable.     

Characterization of cytotoxic cells generated from in vitro cultures of murine bone marrow cells

Bone marrow cells cultured for 5-6 days generate cytotoxic activity against a number of natural killer (NK)-susceptible tumor cells. In this study, these bone marrow cytotoxic cells were compared to cells with NK activity obtained either from spleen cells activated in vitro with interferon (IFN-alpha/beta) or mitogen or from peritoneal exudate cells (PEC) obtained 4 days after bacillus Calmette-Guerin (BCG) infection. Splenic and PEC cytotoxic cells were shown to be Thy 1.2+, NK 1.1+, Asialo GM+1, Lyt 1.2-, Lyt 2.2-. In contrast, bone marrow cytotoxic cells were Thy 1.2+, NK 1.1-, Lyt 1.2-, Lyt 2.2- and expressed low levels of Asialo GM1 antigen (Asialo GM +/- 1). Precursor cells for bone marrow cytotoxic activity were shown to be Thy 1.2-, NK 1.1-, Lyt 1.2-, Lyt 2.2- but also expressed low levels of Asialo GM1 antigen (Asialo GM +/- 1). Cytotoxic activity for both bone marrow and spleen cells peaked in the low-density fractions of discontinuous Percoll density gradients. The cytotoxic activity of these bone marrow cells was augmented by pretreatment with IFN (-alpha/beta, -gamma) or soluble factors (IFN free) from activated EL-4 thymoma cells. Surprisingly, the ability of bone marrow cells to generate high levels of cytotoxic activity following in vitro culture appeared to be associated primarily with mice which were of the H-2b haplotype.     

Allogeneic chimerism in scid mice after neonatal transfer of bone marrow.

Allogeneic chimeras are valuable tools for studies of complex immune cell interactions in vivo. Mice with severe combined immune deficiency (scid) should be ideal hosts for chimerism with allogeneic bone marrow cells as these animals lack mature T and B lymphocytes capable of reacting against donor alloantigens. However, it has been difficult to achieve full reconstitution of adult scid mice even using coisogenic bone marrow grafts without prior irradiation of the recipient. We explored ways to generate complete reconstitution of scid mice with allogeneic bone marrow. Unirradiated adult scid recipients of allogeneic bone marrow were only marginally reconstituted. Adult scid mice pretreated with 250 R were reconstituted with allogeneic bone marrow as measured by serum IgM concentration, peripheral lymphoid cellularity, and mitogen responses, but a potentially important immunologic deficit was found in these mice: 250 R caused a 70% loss of scid macrophages and dendritic cells which persisted at least 5 months. By contrast, when scid mice were injected i.p. with allogeneic bone marrow within the first 24 h after birth, rapid and complete reconstitution of both T and B cell lineages was achieved, and the animals had APC that were both donor and host in origin. Considering the extent and duration of engraftment (43 wk) by allogeneic cells in neonatally transplanted scid mice, it was anticipated that their bone marrow would be chimeric. However, the bone marrow contained very few donor-derived cells, suggesting that lymphopoiesis may be taking place in other organs in these chimeras.     

Rabbit bone marrow suppressor cells block the production or release of a soluble bone marrow growth factor

Fc gamma-receptor (Fc gamma R)-bearing cells from normal rabbit bone marrow suppressed the constitutive proliferation rates of the remaining, Fc gamma R-, cells. In the absence of the suppressive influences of Fc gamma R+ cells, cells in the Fc gamma R- population spontaneously elaborated a soluble growth factor (GF) which induced the proliferation of unseparated bone marrow cells. To examine regulation by Fc gamma R+ bone marrow cells, graded numbers of the Fc gamma R+ cells were mixed with constant numbers of the FcR- cells. At 24 hr, supernates were collected and tested for GF activity. The Fc gamma R+ suppressor cells efficiently and in a dose-dependent fashion blocked GF production or release. The GF was nondialyzable and relatively heat stable. Supernates with GF activity also had colony-stimulating factor activity, but were negative in assays modified from murine interleukin 1 (IL-1) and IL-2 assays. Regulation of GF production or release represents a new function for bone marrow suppressor cells.     

Germinal center B cells and antibody production in the bone marrow

In secondary antibody (Ab) responses, Ag processing and presentation occur in secondary lymphoid organs but most serum Ab is produced by cells in the bone marrow. Plasma cells in the bone marrow are derived from B cells activated by Ag in secondary lymphoid organs. We hypothesized that germinal center (GC) B cells, which acquire Ag from follicular dendritic cells in draining lymph nodes during the first few days of the secondary response, migrate to the bone marrow to terminally differentiate and produce specific Ab. To test this we looked for GC B cells in the thoracic duct lymph and in peripheral blood after secondary challenge using the peanut agglutininhi phenotype and blast cell morphology as markers for GC B cells. In addition, GC B cells were injected i.v. into naive recipients to determine if they would home to the bone marrow. Finally, to determine if the bone marrow environment supports maturation and Ab production by GC B cells, we cocultured GC B cells with bone marrow cells or bone marrow supernatants. The results indicate that blast cells bearing the GC B cell phenotype were present in both the thoracic duct and the peripheral blood 3 days after antigenic challenge. Day 3 peripheral blood cells secreted specific Ab, whereas cells isolated on day 0, 8, or 11 did not. Furthermore, in adoptive transfer experiments, only the day 3 GC B cells produced specific Ab and migrated to the bone marrow of naive mice. Finally, either bone marrow cells or factor(s) produced by bone marrow cells markedly enhanced Ab production by day 3 GC B cells. These data support the hypothesis that during the first few days after secondary challenge GC B cells seed the bone marrow and differentiate into plasma cells which produce the large quantities of Ab typical of secondary responses.