Allogeneic restriction of the delayed inflammatory reaction in the rat.

Delayed-type hypersensitivity (DTH) to Listeria monocytogenes was measured in rats that were recipients of syngeneic, semisyngeneic, and allogeneic immune thoracic duct lymphocytes (TDL). DTH could be transferred only to recipients that shared at least one haplotype with the TDL donors. The restriction was expressed in an inability of sensitized lymphoblasts to localize efficiently at antigen injection sites in the pinna of the ear and peritoneal cavity. Failure of allogeneic lymphoblasts to extravasate in more than trace numbers into Listeria-antigen-induced exudates was reflected in an absence of other lymphocyte-mediated expressions of DTH. Thus, lymphocyte-dependent MCA was not detected in Listeria-antigen-induced peritoneal exudates borne by recipients of allogeneic immune TDL and blood monocytes were not recruited in increased numbers into such exudates as they were in exudates borne by syngeneic rats. But allogeneic restriction of the delayed inflammatory response to Listeria antigen was overcome, at least in part, when antigen-presenting macrophages of the same MHC type as the immune TDL donors were implanted in the peritoneal cavity. The results encourage the belief that the observed failure of immune TDL to transfer DTH to allogeneic recipients is related to the inability of sensitized donor T cells to recognize antigen displayed by allogeneic macrophages.     

Fate of H2-activated T lymphocytes in syngeneic hosts. III. Differentiation into long-lived recirculating memory cells.

Memory to H2 determinants was studied with an adoptive transfer system using a population of H2-activated blast T cells (T.TDL) obtained from thoracic duct lymph of irradiated F₁ hybrid mice injected with parental strain T cells. CBA T.TDL activated either to DBA/2 or C57BL determinants were transferred to syngeneic “B” mice. Thoracic duct lymphocytes (TDL) were obtained from the recipients 4–6 weeks later and tested for their capacity to produce (a) a graft-versus-host (GVH) reaction, (b) a mixed lymphocyte reaction (MLR) (measured by an in vivo technique) and (c) allograft rejection (suppression of the growth of allogeneic tumour cells in vivo). Control experiments involved testing the function of TDL obtained from “B” mice preinjected with TDL or no cells.TDL from “B” mice injected with TDL (passaged TDL) gave strong MLR and GVH reactions to both DBA/2 and C57BL determinants. Passaged T.TDL activated to C57BL antigens gave intermediate MLR and GVH reactions to the specific (C57BL) determinants but only very low responses to third-party (DBA/2) determinants; reciprocal results were obtained with passaged T.TDL activated to DBA/2 determinants. TDL from “B” mice given no cells failed to respond to either set of determinants.Since the responses by the passaged T.TDL did not exceed those by passaged TDL there was no evidence that adoptive transfer of T.TDL had conferred to the recipients a state of memory to either MLR or GVH determinants. Adoptive transfer did, however, lead to qualitative changes in the properties of T.TDL since, before transfer, they were unable to evoke GVH reactions or produce an MLR of normal kinetics.Passaged T.TDL were far superior to passaged TDL at suppressing the growth of allogeneic tumour cells. The protection was specific since protection against DBA/2 tumour cells was, cell for cell, 5–10 fold more effective with passaged T.TDL activated to DBA/2 determinants than with cells activated to C57BL determinants. No protection was observed with cells treated with anti-θ serum. The protective cells appeared to be precursors of effector cells rather than effector cells per se since they failed to lyse the tumour cells in vitro. These data suggest therefore that the descendants of T.TDL which survived after transfer to “B” mice were highly enriched in long-lived recirculating T lymphocytes reactive to determinants expressed by specific tumour allografts.     

Prevention of GVHD by modulation of rat bone marrow with UV-B irradiation: II. Kinetics of migration of UV-B-irradiated bone marrow cells in naive and lethally irradiated rats

UV-B irradiation (700 J/m2) of bone marrow (BM) cells prior to transplantation into lethally gamma-irradiated (1050 rad) allogeneic rats prevents the development of GVHD and results in a stable mixed lymphohematopoietic chimerism. To better understand the underlying mechanisms of the development of stable radiation chimeras in this model, this study was designed to examine whether the dose (700 J/m2) of UV-B irradiation used for the modulation of the BM inoculum would affect the homing pattern of radiolabeled BM cells compared to that of thoracic duct lymphocytes (TDL) in the naive and lethally irradiated recipients. The results showed that intravenously administered, 111Indium-oxine-labeled, unmodified TDL home specifically to the spleen, lymph nodes, and BM compartments with a subsequent recirculation of a large number of cells from the spleen to the lymph nodes. In contrast, radiolabeled, unmodified BM cells migrate specifically to the spleen, liver, and BM with the lymph nodes, thymus, and nonlymphoid organs containing very little amounts of radioactivity. The stable concentrations of radioactivity in the lymphoid and nonlymphoid compartments between 3 and 72 hr after injection suggest that BM cells, unlike TDL, do not recirculate. The migration pattern of BM cells in the naive recipient was not significantly different from that seen in lethally irradiated animals except for the higher concentration of radioactivity in the spleen and BM of irradiated animals compared to that seen in naive recipients. The similarity of tissue localization of BM cells in naive or in irradiated syngeneic recipients to that of allogeneic recipients suggests that the homing of BM cells is not MHC restricted. Our findings of similarity between tissue localization of UV-B-irradiated labeled BM cells and unmodified BM cells in naive and lethally irradiated recipients suggest that a dose of 700 J/m2 of UV-B irradiation is not capable of impairing BM cell migration although it is sufficient to abolish the homing of TDL to the HEV-bearing organs. Thus, our results show that BM cells are less susceptible to cell damage by UV-B irradiation than lymphocytes thereby providing the rationale for ex vivo modulation (rather than elimination) of mature T-lymphocytes in the donor BM inoculum with UV-B irradiation. This relatively simple and effective approach to modulation of T-cells in donor BM inoculum may be potentially useful in preventing GVHD without endangering successful engraftment in larger animals and in man.     

Protection against Nippostrongylus brasiliensis by adoptive immunization with immune thoracic duct lymphocytes

The protective capacities of different sources of immune lymphocytes against Nippostrongylus brasiliensis infection were examined. Thoracic duct lymphocytes (TDL) drained from donors on the tenth day of a primary infection (Day 10 TDL) conferred greater protection against adult worms established by larval infection than either mesenteric lymph node cells (MLNC) or TDL drained from hyperimmune donors. Day 10 TDL also conferred a high degree of protection against intraduodenally implanted “normal” and “damaged” worms. These results suggest that the different susceptibilities of “normal” and “damaged” worms to adoptive protection is a quantitative rather than a qualitative phenomenon. The results also emphasise that kinetic and dose-response experiments are important in evaluating the protective capacities of transferred cells.     

Reduced humoral and cellular cytotoxic sensitivity in major histocompatibility variants of the YAC (Moloney) lymphoma

Previously we have reported that two sublines of the YAC lymphoma selected for reduced expression of H-2^a and Moloney-virus determined cell-surface (MCSA) antigens are, in contrast to YAC, allotransplantable in H-2-incompatible recipients, and resistant to rejection by preimmunized semisyngeneic hosts. A third YAC variant with reduced MCSA but unchanged H-2-antigen expression, was not allotransplantable and showed only a slight decrease in its immunosensitivity in preimmunized semisyngeneic hosts in vivo. This suggested that H-2-antigen expression may be more important than MCSA expression for recognition and rejection by semisyngeneic mice. We have now tested the sublines expressing low H-2^a for their in vitro sensitivity to humoral and cell-mediated lysis. — The variants were more resistant than YAC to complement lysis by anti-H-2^a, anti-MCSA, anti-Thy 1.2 and antispecies sera. Absorption tests with antispecies serum indicated that the decreased cytolytic sensitivity of the variants was not related to the concentration of the relevant antigens, which was similar to that of the original YAC tumor. As expected from the low amount of H-2^a the variants showed a decreased sensitivity to the killing effect of allogeneic cytotoxic T lymphocytes (CTL). They were also lysed to a lesser extent than YAC by semisyngeneic CTL, probably directed against virally determined antigens. However, they were also less sensitive to lysis by natural killer (NK) cells, although NK lysis is probably unrelated to MHC expression. In conclusion, our selection for reduced H-2-expression appears to have resulted in the isolation of variants with a generally increased resistance to various humoral and cell-mediated lytic functions.On leave from Instituto Venezolano de Investigaciones Cientificas (IVIC), Caracas, Venezuela.     

The stable and permanent expansion of functional T lymphocytes in athymic nude rats after a single injection of mature T cells

Athymic nude rats (PVG.rnu/rnu) were injected at 6 to 10 wk of age with 1 to 200 million thoracic duct lymphocytes (TDL) containing 40 to 60% mature T cells. Thereafter TDL-injected nude recipients were monitored for evidence of T cell function for up to 2 yr. W3/25+ T helper (Th) cells in lymph nodes (LN) increased from 7% at 2 wk to 30% at 8 wk after TDL transfer. The percent of W3/25+ cells remained elevated for the life of the recipient (up to 2 yr), approximating normal levels. The total size of the recirculating pool expanded in TDL-injected nude rats to reach 2/3 the level of euthymic controls by 16 wk, an increase of 10-fold to 15-fold in W3/25+ cells. The expansion of the W3/25+ population was independent of initial TDL dose. With time spleen and LN acquired a normal histological appearance including the development of germinal centres and a marked increase in cellularity in T cell traffic areas. TDL-injected nude rats rejected skin allografts with near normal kinetics. In addition graft vs host (GVH) responsiveness, assessed by the popliteal LN assay, progressively increased reaching a level 9 mo to 1 yr after replacement that resembled the GVH activity in euthymic controls.     

Recognition and response to alloantigens in vivo. I. Negative and positive selection of MLR reactivity in murine peripheral blood lymphocytes to major histocompatibility complex and Mls antigens

Specific mixed lymphocyte reaction (MLR) responsiveness to allogeneic major histocompatibility complex (MHC), or minor lymphocyte-stimulating (Mls) determinants, was depleted in the peripheral blood lymphocytes (PBL) obtained from mice 24 to 48 hr after i.v. injection of 5 to 7.5 X 10(7) MHC or Mlsa-incompatible spleen cells, respectively. Results of cell mixture experiments suggest that the generation of suppressor cells was not the explanation for this specific reduction in MLR proliferation occurring with these PBL responder cells. To gain additional insight into parameters involved in the recognition of allodeterminants in vivo, experimental manipulations of the host environment and donor cell inoculum utilized in the negative selection procedure were employed. For example, removal of the spleen in the recipient animal, an anatomic site in which injected allogeneic cells and corresponding host antigen-reactive cells (ARC) are trapped, still permitted the specific depletion in murine PBL of host ARC for donor foreign MHC antigens. This finding may implicate other sites such as the liver where unprimed host alloreactive clones are trapped. In addition, irradiation of allogeneic donor cells significantly reduced their capacity to trap alloreactive T cell clones in vivo, whereas heat treatment of the donor cells completely eliminated this ability, even though the Ia determinants were still expressed, measured by flow cytometry. After the negative selection period, kinetic analysis of proliferation showed that 3, 4, or 5 days after injection of MHC-incompatible allogeneic spleen cells, the PBL of the recipient showed specific hyperresponsiveness to the MHC-haplotype of the donor cells. Interestingly, these primed PBL responder cells had the volume distribution of small resting cells; thoracic duct lymphocytes (TDL), positively selected by adoptive transfer of T cells to irradiated semiallogeneic recipients, are reported to be mainly blast cells. In contrast to the MLR hyperresponsiveness that results from priming with MHC-incompatible splenocytes, PBL, obtained at these later time points from mice primed with Mlsa-incompatible, H-2-compatible splenocytes, showed complete unresponsiveness in MLR to these Mlsa-bearing stimulator cells, as well as some nonspecific reduction in proliferation to MHC-incompatible stimulator cells regardless of their Mls genotype.(ABSTRACT TRUNCATED AT 400 WORDS)     

Adoptive transfer of the intestinal mast cell response in rats infected with Nippostrongylus brasiliensis.

The intestinal mast cells (IMC) were examined in normal and adoptively immunized rats infected with Nippostrongylus brasiliensis. An increase in the numbers of IMC was observed in infected recipients of thoracic duct lymphocytes (TDL) obtained from donor rats which had themselves been infected 10 days previously (Day 10 TDL). The increase in the number of IMC in the mucosa was related to the number of Day 10 TDL transferred into infected recipients. When TDL were fractionated into populations of cells either bearing (sIg⁺) or lacking (sIg^?) surface immunoglobulin, only sIg^? cells were able to confer the IMC response. Antigenic stimulation was necessary for the differentiation of intestinal mast cells. There was a marked difference between different strains of rats with regard to worm burden and intestinal mast cell kinetics although the increase in intestinal mast cells was always closely related to the final stage of the rapid phase of worm expulsion. These results are compatible with the concept that intestinal mast cells are derived from T cells and suggest that sIg⁺ cells do not influence IMC differentiation. Alternatively, the possibility that the transferred TDL regulate the differentiation of cells of host origin into IMC cannot be excluded.     

Induction of graft versus leukemia effects by cell-mediated lymphokine-activated immunotherapy after syngeneic bone marrow transplantation in murine B cell leukemia

 The feasibility of inducing graft versus leukemia (GVL) effects with allogeneic T cells in recipients of autologous bone marrow transplantation (BMT) was studied in a murine model (BCL 1) of human B cell leukemia/lymphoma. Allogeneic cell therapy, induced by infusion with peripheral blood lymphocytes, a mixture of allogeneic spleen and lymph node cells and allogeneic activated cell therapy, induced by in vitro recombinant-interleukin-2(rIL-2)-activated allogeneic bone marrow cells in tumor-bearing mice, prevented disease development in adoptive BALB/c recipients. Concomitant in vivo activation of allogeneic lymphocytes with rIL-2 suppressed even more effectively the development of leukemia in secondary adoptive recipients of spleen cells obtained from treated mice. In contrast, in vivo administration of rIL-2 after syngeneic BMT, with or without equal numbers of syngeneic lymphocytes, led to disease development in secondary recipients. Our data suggest that effective cell therapy can be achieved after SBMT by allogeneic but not syngeneic lymphocytes and that anti-leukemic effects induced by allogeneic lymphocytes can be further enhanced by in vitro or in vivo activation of allogeneic effector cells with rIL-2. Therefore, cell therapy by allogeneic lymphocytes following autologous BMT could become an effective method for inducing GVL-like effects on minimal residual disease provided that graft versus host disease can be prevented or adequately controlled. Received: 14 May 1996 / Accepted: 6 August 1996     

Detection of the precursor and effector cells of experimental allergic encephalomyelitis in the thoracic duct of the rat

Despite strong evidence pointing to the fundamental role of the T cell in the pathogenesis of experimental allergic encephalomyelitis (EAE), little has been known about the normal traffic of the precursor (unprimed) and effector (primed) cells of EAE. We have demonstrated the recirculation of the precursor cells in that B rats regained their susceptibility to EAE following reconstitution with thoracic duct lymphocytes (TDL) passed through an irradiated intermediate host as well as following reconstitution with normal thymocytes or normal TDL. The effector cells were shown to be present in TDL in that TDL from donors immunized 11 or 12 days prior to transfer could passively transfer EAE to naive recipients.     

A role for mast cells and the vasoactive amine serotonin in T cell-dependent immunity to tumors

The involvement of mast cells in anti-tumor resistance was studied by employing 2 strains of mast cell deficient but otherwise immunocompetent mice on a C57BL/6 (H-2b) background (W/Wv and Sl/Sld) and their respective normal +/+ littermate controls. Sensitization of control mice with irradiated semisyngeneic B16 melanoma cells (H-2b) resulted in protection against subsequent challenge with viable B16 cells, in contrast to sensitization of either W/Wv or Sl/Sld mice. The involvement of serotonin in antitumor resistance was studied by employing 2 serotonin active drugs: reserpine, that depletes mast cells of serotonin; and methysergide, a serotonin antagonist. Sensitization of BDF1 mice with irradiated B16 cells and sensitization of DBA/2 mice (H-2d) with irradiated SL2 cells (H-2d) resulted in protection against subsequent challenge with viable B16 cells and viable SL2 cells, respectively. Treatment with either reserpine or methysergide resulted in a decreased protection. Delayed-type hypersensitivity (DTH) footpad responses to allogeneic L5178Y (H-2d) tumor cells in C57BL/6 mice showed a biphasic reaction pattern, similar to that found in DTH responses to simple reactive haptens, such as picryl chloride. Moreover, the early swelling responses were also dependent on T cells and on mast cells. BDF1 mice carrying a semisyngeneic L5178Y tumor on the chest showed an early swelling response after footpad challenge but no late response, possibly indicating that selective down regulation of the late component of DTH was associated with progressive tumor growth in these animals. The biphasic patterns of DTH to both tumor cells and picryl chloride and the T cell and mast cell dependence of both antitumor resistance and DTH to tumor cells suggest that T cell-dependent activation of mast cells to allow entry of mononuclear leukocytes into sites of tumor growth is similar to the mechanism that occurs in DTH.     

Migration of recently divided B and T lymphocytes to peritoneum and lung

It is recognized that a population of newly divided (or young) cells migrate preferentially to inflamed foci. It has been shown that a large proportion of lymphocytes residing in the bronchoalveolar airspaces of rat are recently divided cells and that blood may be an important source of these cells. To further delineate how blood may contribute to lymphocyte subpopulations in inflamed peritoneum and lung, a comparison of the capacity of recently divided T and B cells to migrate from blood to inflamed peritoneum and lung was made. To label young lymphocytes, DA strain donor rats were given Initiated thymidine by vein in vivo for 7 days. After thoracic duct drainage, the following labeled cell populations were adoptively transferred by vein into syngeneic recipients: (i) unseparated thoracic duct lymphocytes (TDL), (ii) enriched T cells (>90%) or B cells (>80%) recovered after passage of TDL through nylon columns, and (iii) thoracic duct lymphocytes (> 99% B cells) obtained from “B rats” that were prepared by X irradiation, thymectomy, and bone marrow reconstitution. T and B cells were identified by specific heterologous antisera. The percentage recovery of labeled lymphocytes in the recipients with inflamed peritoneum or lung aspirates was determined from cell counts and autoradiographs. The studies indicated that (a) both labeled T and B cells migrated to inflamed peritoneum and lung; (b) labeled B cells migrated to peritoneum and lung better than did labeled TDL or T cells; and (c) labeled lymphocytes did not migrate to unstimulated peritoneum. The enhanced migration of newly divided B lymphocytes to inflamed peritoneum and normal lung (a site that is likely under chronic antigenic stimulation) was unexpected, but may provide additional information on the relative contribution of these subpopulations in the immune inflammatory response.     

Influenza A virus interaction with murine lymphocytes. I. The influence of influenza virus A/Japan 305 (H2N2) on the pattern of migration of recirculating lymphocytes.

The effect of influenza virus A/Japan 305 (H2N2) on the path of migration of recirculating lymphocytes has been studied. 51Cr-labeled rat thoracic duct lymphocytes (TDL) were incubated with virus at 37 degrees C for 1 hr and then infused i.v. into syngeneic recipients which were killed 1 hr later. Virus-treated TDL accumulated in the liver and their recovery in lymph nodes and spleen was severely reduced. Changes in lymphocytes induced by virus developed rapidly and were evident after incubation for only 15 min. UV-irradiated virus altered the pattern of lymphocyte localization but attachment of heat-inactivated virus to lymphocytes in vitro had no effect on their distribution in vivo. Evidence was obtained that some virus-treated TDL, initially sequestered in the liver, subsequently recovered their ability to circulate normally. Recovery was not complete and a population of cells failed to regain their ability to home into lymph nodes. Evidence is also presented demonstrating that influenza virus affected the homing properties of both T and B cells. It is suggested that aberrations in lymphocyte homing were mediated by the viral neuraminidase which induces changes in the cell membrane leading to their accumulation in the liver.     

The protective capacities of fractionated immune thoracic duct lymphocytes against Nippostrongylus brasiliensis

Thoracic duct lymphocytes (TDL) obtained from rats either on the tenth day of a primary infection (Day 10 TDL) or 1 or 5 weeks after a tertiary infection (hyperimmune TDL) with Nippostrongylus brasiliensis were fractionated into cells lacking (sIg^?) or bearing (sIg⁺) surface immunoglobulin by a rosetting procedure. The abilities of unfractionated TDL, of the two subpopulations, and of the reconstituted cells to confer protection against the parasite were examined. The effector cells which cause worm expulsion were found only in (sIg^?) cells from Day 10 TDL and also predominantly in (sIg^?) cells from hyperimmune TDL. However, a small but significant degree of protection was conferred by (sIg⁺) cells from hyperimmune TDL. These results suggest that the mechanisms involved in worm expulsion are regulated by (sIg^?) cells but that (sIg⁺) cells from hyperimmune rats can also contribute to the mechanisms of worm expulsion.     

MHC-unrestricted transfer of antilisterial immunity by freshly isolated immune CD8 spleen cells

Immune CD8 cells, which play an essential role in the adoptive transfer of antilisterial immunity, can specifically lyse Listeria-bearing macrophages in vitro in an MHC-unrestricted manner. In contrast, the adoptive transfer of immunity by unseparated immune lymphocytes has been reported to be MHC-restricted. To address the restriction properties of CD8 effectors in vivo, we assessed their efficacy in protecting syngeneic and allogeneic recipients. Protection was determined by comparing the number of viable splenic Listeria in naive mice and in recipients of 60 million CD8-enriched, L3T4-depleted, Listeria-immune spleen cells, 2 days after the infusion of 10,000 Listeria. Donor cells from B6 (H-2b) mice transferred about 4 logs of protection in syngeneic recipients and more than 2 logs in allogeneic B10.A (H-2a) or B10.BR (H-2k) mice. Immune B10.A CD8 cells transferred equivalent protection to B6 mice. Protection was almost completely abrogated by the lysis or lethal irradiation of CD8 cells before transfer in vivo. On the other hand, the depletion of macrophages or NK cells did not impair adoptive transfer. By comparison, nonimmune CD8 cells from normal mice or from mice stimulated with an irrelevant Ag in vivo did not transfer substantial immunity to allogeneic recipients. We have noted previously that protective CD8 cells inhibit phagocyte accumulation in the spleen of Listeria-infected syngeneic recipients. In the present studies, we observed similar changes in adoptively immunized allogeneic mice. Reduced phagocyte accumulation may reflect Listeria-dependent lysis of infected phagocytes by immune CD8 cells. In support of this, we showed that Listeria-immune donor cells rapidly acquired the capacity to mediate Listeria-dependent, MHC-unrestricted lysis of macrophages after incubation with small amounts of IL-2 in vitro. In sum, our data establish that Listeria-immune CD8 cells can function in vivo in MHC incompatible hosts, and indirectly support the hypothesis that the destruction of infected phagocytes may be important in T cell-mediated immunity against Listeria and perhaps other intracellular pathogens.     

Immunity to the protozoan parasite Eimeria nieschulzi in inbred CD-F rats

Immunity to the coccidial parasite, Eimeria nieschulzi, in CD-F rats was assessed by the numbers of oocysts shed in relation to the time after inoculation. Intravenous injections of syngeneic thoracic duct lymphocytes (TDL) from immunized rats elicited various degrees of adoptive immunity against primary infections of E. nieschulzi. Of the 16 rats injected with 10⁹ sensitized TDL, 7 were totally immune to a subsequent challenge by the parasite. This number of injected TDL also raised the serum antibody level to that of immune rats. Contact with immune TDL was deleterious to sporozoites of E. nieschulzi in vitro and produced immunocytoadherence of parasite to cell.     

Cellular events in protein-tolerant inbred rats. III. Antigen-reactive B cells in rats tolerant to human serum albumin.

Rats tolerant to human serum albumin (HSA) were injected with selected lymphocyte populations and challenged with HSA plus adjuvant to test for loss of tolerance. Thoracic duct lymphocytes (TDL) from normal or immune rats, either untreated or depleted of Ig-bearing cells or HSA-binding cells by affinity chromatography were all equally effective in restoring the HSA antibody response in previously tolerant recipients. In contrast, recirculating B cells (TDL from B rats) were not effective. The results indicated that unresponsiveness to HSA was a lesion of the T- but not the B-cell compartment. However, antibody affinity failed to mature to a high level in tolerant rats that were restored with T cells, and the response of transferred primed B cells into unresponsive recipients was inhibited, suggesting that the tolerant state was not merely due to a T-cell deletion.     

Virotherapy Using Myxoma Virus Prevents Lethal Graft-versus-Host Disease following Xeno-Transplantation with Primary Human Hematopoietic Stem Cells

Graft-versus-host disease (GVHD) is a potentially lethal clinical complication arising from the transfer of alloreactive T lymphocytes into immunocompromised recipients. Despite conventional methods of T cell depletion, GVHD remains a major challenge in allogeneic hematopoietic cell transplant. Here, we demonstrate a novel method of preventing GVHD by ex vivo treatment of primary human hematopoietic cell sources with myxoma virus, a rabbit specific poxvirus currently under development for oncolytic virotherapy. This pretreatment dramatically increases post-transplant survival of immunocompromised mice injected with primary human bone marrow or peripheral blood cells and prevents the expansion of human CD3(+) lymphocytes in major recipient organs. Similar viral treatment also prevents human-human mixed alloreactive T lymphocyte reactions in vitro. Our data suggest that ex vivo virotherapy with myxoma virus can be a simple and effective method for preventing GVHD following infusion of hematopoietic products containing alloreactive T lymphocytes such as: allogeneic hematopoietic stem and progenitor cells, donor leukocyte infusions and blood transfusions.     

The suppressive effect of a supernate from concanavalin A-activated human lymphocytes: effects of concanavalin A-activated lymphocytes and their supernates on cytotoxic and mixed lymphocyte reactions.

The effects of Concanavalin A-treated human peripheral blood lymphocytes and their supernatants were evaluated on the MLC reaction and on the generation of cytotoxic lymphocytes assessed by cell-mediated lympholysis (CML). Experiments were performed with both allogeneic and xenogenic sensitization. It was found that Con A-activated cells suppressed the MLC and CML reactions in allogeneic and xenogeneic systems. On the other hand, the SIRS-like supernate was able to suppress the MLC reaction and blastogenesis, but had no suppressive effect on the generation of cytotoxic lymphocytes. We found no difference in the magnitude of suppression, whether or not Con A-activated lymphocytes were syngeneic to the responder cells. This finding suggests that there is no requirement for allogeneic restriction in the interaction between suppressor and suppressed cells, and demonstrates a soluble human suppressor substance capable of suppressing some cell-mediated reactions.     

Restoration of allograft responsiveness in B rats: IV. The divergent migratory behavior of lymphocyte populations mediating cardiac allograft rejection

The T lymphocyte-deprived (B) rat, produced by X-radiation and bone marrow reconstitution of adolescent thymectomized animals, exhibits a true immunological deficit and are unable to reject histoincompatible heterotopic cardiac allografts. A comprehensive survey of lymphocyte traffic in B recipients was performed to correlate the differential potency of specifically sensitized lymphocyte populations mediating re-establishment of immune responsiveness toward the graft, with their migratory and recirculatory behavior. ¹¹¹In-oxine-labeled thoracic duct lymphocytes (TDL) were retained in the peripheral blood and migrated from nonlymphoid organs to lymph nodes of B recipients in higher proportion than any other lymphoid population, particularly splenic lymphocytes (SL). Although all cell groups but TDL were sequestered in the spleen in equal and relatively large numbers, no differences were found between the lymphocyte populations tested in their capacity to accumulate in the grafts. In contrast, an increased avidity in the allograft of ¹²⁵IUdR-labeled TDL and lymph node (LNL) lymphoblasts, as compared to ¹²⁵IUdR-labeled SL, resembles closely the results of functional studies of the differential potency of adoptively transferred cells. We assume that specific cellular interactions induced by the accumulated ¹²⁵IUdR-labeled cells invoke nonspecific mechanisms for the recruitment of other uncommitted ¹¹¹Inlabeled lymphocytes which recirculate between blood and lymph and localize indiscriminately in the allograft amplifying its rejection. The latter lymphocytes can be “armed” by adherent cells residing in the lymphoid organs of graft recipients, particularly spleen, and subsequently increase the penetration of the foreign tissue. When radiolabeled lymphocytes were traced in B recipients experiencing rejection of their allografts following transfer of sensitized cells plus lymphokine, their migration patterns as well as blastogenic response in B hosts were similar to those observed during acute rejection of cardiac allografts in unmodified hosts. Thus the similarities between the rejection network brought by alloimmune cells into otherwise unresponsive animals and immunocompetent animals able to reject their grafts are stressed.