On graphical tests for proportionality of hazards in two samples.

In this paper, we present a class of graphical tests of the proportional hazards hypothesis for two-sample censored survival data. The proposed tests are improvements over some existing tests based on asymptotic confidence bands of certain functions of the estimated cumulative hazard functions. The new methods are based on the comparison of unrestricted estimates of the said functions and their restricted versions under the hypothesis. They combine the rigour of analytical tests with the descriptive value of plots. Monte Carlo simulations suggest that the proposed asymptotic procedures have reasonable small sample properties. The power is much higher than existing graphical tests and comparable with existing analytical tests. The method is then illustrated through the analysis of a data set on bone marrow transplantation for Leukemia patients.

Limiting the amount and duration of antigen exposure during priming increases memory T cell requirement for costimulation during recall.

Donor-reactive memory T cells (Tmem) can play an important role in mediating graft rejection after transplantation. Transplant recipients acquire donor-reactive Tmem not only through prior sensitization with alloantigens but also through previous exposure to environmental pathogens that are cross-reactive with allogeneic peptide-MHC complexes. Current dogma suggests that most, if not all, Tmem responses are independent of the requirement for CD28 and/or CD154/CD40-mediated costimulation to mount a recall response. However, heterogeneity among Tmem is increasingly being appreciated, and one important factor known to impact the function and phenotype of Ag-specific T cell responses is the amount/duration of Ag exposure. Importantly, the impact of Ag exposure on development of costimulation independence is currently unknown. In this study, we interrogated the effect of decreased Ag amount/duration during priming on the ability of donor-reactive Tmem to mediate costimulation blockade-resistant rejection during a recall response after transplantation in a murine model. Recipients possessing donor-reactive Tmem responses that were generated under conditions of reduced Ag exposure exhibited similar frequencies of Ag-specific T cells at day 30 postinfection, but, strikingly, failed to mediate costimulation blockade-resistant rejection after challenge with an OVA-expressing skin graft. Thus, these data demonstrate the amount/duration of Ag exposure is a critical factor in determining Tmem's relative requirement for costimulation during the recall response after transplantation.

Chimerism, the Microenvironment and Control of Leukemia.

Transplantation of allogeneic hematopoietic cells faces two barriers: failure of engraftment due to a host versus graft reaction, and the attack of donor cells against the patient, the graft versus host (GVH) reaction. This reaction may lead to GVH disease (GVHD), but in patients transplanted due to leukemia or other malignant disorders, this may also convey the benefit of a graft versus leukemia (GVL) effect. The interplay of transplant conditioning with donor and host cells and the environment in the patient is complex. The microbiome, particularly in the intestinal tract, profoundly affects these interactions, directly and via soluble mediators, which also reach other host organs. The microenvironment is further altered by the modifying effect of malignant cells on marrow niches, favoring the propagation of the malignant cells. The development of stable mixed donor/host chimerism has the potential of GVHD prevention without necessarily increasing the risk of relapse. There has been remarkable progress with novel conditioning regimens and selective T-cell manipulation aimed at securing engraftment while preventing GVHD without ablating the GVL effect. Interventions to alter the microenvironment and change the composition of the microbiome and its metabolic products may modify graft/host interactions, thereby further reducing GVHD, while enhancing the GVL effect. The result should be improved transplant outcome.

Acute lethal graft-versus-host reaction induced by major histocompatibility complex class II-reactive T helper cell clones.

T cell clones isolated from class II MHC-disparate MLR combinations, and specific for I-Ak and I-Ek molecules, respectively, are shown to induce acute lethal graft-vs-host disease in unirradiated recipients. Cytolytic and noncytolytic clones are equally efficient in this respect. The lethal disease is dependent on recognition of the stimulatory class II molecules in the host. The clones home to lungs and liver, and become activated in these organs as demonstrated by an in vivo thymidine incorporation assay. After activation, a severe vascular leak syndrome develops causing death of the recipients within 5 d after the injection of 5 x 10(6) to 10(7) cloned cells. The disease develops without the participation of secondary host-derived inflammatory mechanisms, such as mast cell degranulation, complement activation, and the release of prostaglandins, oxygen radicals, or proteolytic enzymes. The results raise the possibility that Th cells can directly influence vascular permeability, and control, thereby, the acute inflammatory reaction of blood vessels.

The mediator of cellular immunity. VI. Effect of the antimitotic drug vinblastine on the mediator of cellular resistance to infection.

The antimitotic drug vinblastine (Vbl) has a profound impact upon the specifically sensitized lymphocytes that transfer cellular resistance to Listeria monocytogenes. A 12-h pulse of the drug given to prospective donors during the first week of an immunizing Listeria infection inhibits the delivery of protective lymphocytes to the thoracic duct and their subsequent movement into an inflammatory exudate induced in the peritoneal cavity. The effect of Vbl is clearly related to its antimitotic activity, not to an effect on lymphocytes regardless of their position in the division cycle. This conclusion was drawn from an autoradiographic analysis of cells in the lymph of Vbl-treated rats and from failure of the drug to abrogate a known function of small lymphocytes, namely, their ability to initiate a graft-vs.-host reaction. The results imply that large lymphocytes, the rapidly proliferating cells in central lymph, are the principal effector cells responsible for transmitting resistance to L. monocytogenes and provide a plausible explanation for their rapid turnover and short circulating life-span.

T helper17 cells are sufficient but not necessary to induce acute graft-versus-host disease.

T helper (Th)1 cells were considered responsible for the induction of graft-versus-host disease (GVHD), but recently the concept has been challenged. Th17 cells play a critical role in mediating autoimmune diseases, but their role in the pathogenesis of GVHD remains unclear. Herein we compare the ability of in vitro generated Th1 and Th17 cells from C57BL/6 mice to induce GVHD in lethally irradiated BALB/c recipients. Allogeneic Th17 cells had superior expansion and infiltration capabilities in GVHD target organs, which correlated with their increased pathogenicity when compared with naïve or Th1 controls. Th17 cells caused no pathology in the syngeneic recipients, indicating that antigen-activation was required for their pathogenicity. Polarized Th17 cells could not maintain their phenotype in vivo as they produced a significant amount of interferon (IFN)-gamma after being transplanted into allogeneic recipients; however, IFN-gamma was not required for Th17 cell-induced GVHD. Further, we evaluated the pathogenesis of Th17 cells in GVHD by using polyclonal nonprimed CD4T cells in a clinically relevant allogeneic bone marrow transplantation (BMT) setting. We found that disruption of Th17-differentiation alone by targeting RORgammat (Th17-specific transcription factor) had no significant effect on GVHD development. We conclude that Th17 cells are sufficient but not necessary to induce GVHD.

Functional characterization and gene expression analysis of CD4+ CD25+ regulatory T cells generated in mice treated with 2,3,7,8-tetrachlorodibenzo-p-dioxin.

Although the effects of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) are mediated through binding and activation of the aryl hydrocarbon receptor (AhR), the subsequent biochemical and molecular changes that confer immune suppression are not well understood. Mice exposed to TCDD during an acute B6-into-B6D2F1 graft-vs-host response do not develop disease, and recently this has been shown to correlate with the generation of CD4(+) T cells that express CD25 and demonstrate in vitro suppressive function. The purpose of this study was to further characterize these CD4(+) cells (TCDD-CD4(+) cells) by comparing and contrasting them with both natural regulatory CD4(+) T cells (T-regs) and vehicle-treated cells. Cellular anergy, suppressive functions, and cytokine production were examined. We found that TCDD-CD4(+) cells actively proliferate in response to various stimuli but suppress IL-2 production and the proliferation of effector T cells. Like natural T-regs, TCDD-CD4(+) cells do not produce IL-2 and their suppressive function is contact dependent but abrogated by costimulation through glucocorticoid-induced TNFR (GITR). TCDD-CD4(+) cells also secrete significant amounts of IL-10 in response to both polyclonal and alloantigen stimuli. Several genes were significantly up-regulated in TCDD-CD4(+) cells including TGF-beta3, Blimp-1, and granzyme B, as well as genes associated with the IL12-Rb2 signaling pathway. TCDD-CD4(+) cells demonstrated an increased responsiveness to IL-12 as indicated by the phosphorylation levels of STAT4. Only 2% of TCDD-CD4(+) cells express Foxp3, suggesting that the AhR does not rely on Foxp3 for suppressive activity. The generation of CD4(+) cells with regulatory function mediated through activation of the AhR by TCDD may represent a novel pathway for the induction of T-regs.

Potassium humate inhibits carrageenan-induced paw oedema and a graft-versus-host reaction in rats.

It has been shown in a previous study that brown coal-derived potassium humate is safe and effective in suppressing contact hypersensitivity in rats. In this study the efficacy of potassium humate on other types of inflammation was determined. Preparative TLC followed by mass spectroscopy was used in an attempt to fingerprint the product. The effects of potassium humate, at an oral dose of 60 mg/kg bodyweight, on a delayed type hypersensitivity reaction, a carrageenan-induced inflammation model and an allogeneic graft-versus-host reaction (GVHR) in rats were investigated. Paw oedema was used as a measure of inflammation. It was found that potassium humate had no effect on the delayed type hypersensitivity reaction but significantly inhibited the increase in paw volume of the carrageenan-induced oedema in rats which compared favourably with indomethacin treatment. Furthermore, potassium humate inhibited the GVHR induced in normal and cyclophosphamide-treated immune-incompetent rats. The identification of a naturally occurring compound that is safe and effective in reducing different types of inflammation merits further evaluation in clinical trials.

[Role of antithymocyte globulin in reducing the incidence of complications after allogeneic hemopoietic cell transplantation].

AIM: To evaluate the efficacy of antithymocyte globulin (ATG) used in conditioning modes before allogeneic hemopoietic cell transplantation (allo-HCT) and its effect in reducing the incidence of posttransplantation complications. SUBJECTS AND METHODS: The study assessed the results of 92 allo-HCTs depending on the presence or absence of ATG in conditioning modes, the doses of Atgam (60 mg/kg or more), the presence or absence of acute leukemia (AL) in remission before HCT. RESULTS: In patients with AL in remission receiving ATG in conditioning modes (Atgam 60 mg/kg or thymoglobulin 7.5 mg/kg), overall three-year survival was 60%. Increasing the dose of Atgam up to more than 60 mg/kg resulted in higher transplantation-associated mortality (TAM) rates than did with the Atgam dose of 60 mg/kg (p < 0.01). CONCLUSION: Allo-HCT is the treatment of choice for patients with AL in the presence of an HLA-identical related or unrelated donor. The use of Atgam in a course dose of not more than 60 mg/kg or thymoglobulin 7.5 mg/kg in conditioning modes is associated with low TAM rates and higher overall survival in earlier-stage disease in complete clinical hematological remission as compared with those in patients with expanded-stage AL, rather than in AL in remission at the start of conditioning before HCT.

Thymus-derived lymphocytes: humoral and cellular reactions distinguished by hydrocortisone.

Lymphocytes derived from the thymus (T cells) take part in the induction of humoral antibody and also effect cell-mediated graft-versus-host reactions. Preliminary treatment of mice with hydrocortisone caused an inhibition of T-cell function in humoral immunity, while enhancing the graft-versus-host reactivity of the same population of spleen cells. This suggests that different types of T cells participate in cellular and humoral immune reactions.

Bone marrow-derived lymphoid cells (B cells): functional depletion with cobra factor and fresh serum.

Treatment of rat spleen cells with cobra factor and fresh rat serum provided a simple, rapid means of functionally eliminating complement receptor lymphocytes. Cells able to differentiate into plaque-forming cells in a syngeneic, irradiated host were diminished, but cells able to induce a graft-versus-host reaction were not diminished. There was no effect on plaque-forming cells from an immune spleen.

The role of graft and host accommodation in a hamster-to-rat cardiac transplantation model.

BACKGROUND: We evaluated the importance and mechanism of graft and host accommodation in hamster-to-rat cardiac xenotransplantation models. METHODS: To evaluate graft accommodation, accommodated hamster grafts (Group 2) were transplanted to naïve host rats treated with FK506, and compared with naïve hamster grafts (Group 1). To evaluate host accommodation, three groups were evaluated: naive hamster hearts were transplanted to naïve hosts treated with FK506 (Group 3: 0.5 mg/kg, Group 4: 1.0 mg/kg) and splenectomy, and compared with accommodating hosts (Group 5) with FK506 0.5 mg/kg and splenectomy. We examined graft survival, histopathology, antihamster antibodies and B-1 cells in blood. RESULTS: Graft survival in Group 2 (3.4+/-0.9 days) was not significantly different from that in Group 1 (2.8+/-0.4 days). Graft survival in Groups 4 and 5 (>30 days) was significantly prolonged compared with that in Group 3 (6.0+/-0.7 days). Histopathology of Groups 1-3 showed humoral rejection, whereas Groups 4 and 5 showed normal histology and expression of protective genes. In Groups 1-3, antihamster immunoglobulin (Ig) M and B-1 cells increased significantly compared to Groups 4 and 5, where IgM and B-1 cells remained low or were reduced. CONCLUSIONS: Host accommodation was more important than graft accommodation. Accommodating grafts expressing protective genes were rejected with an elevation of both IgM and B-1 cells. In accommodated hosts, both IgM and B-1 cells decreased, suggesting that B-1 cells may be responsible for the production of antihamster antibodies. These results suggest that sufficient suppression of B-1 cells, resulting in decreased titers of antihamster antibodies, may play an important role in host accommodation.

After discontinuation of calcineurin inhibitors, tapering of mycophenolate mofetil further impairs donor-directed cytotoxicity.

BACKGROUND: Recently, we described a significant decrease in donor-specific cytotoxic T-lymphocyte precursor frequency (CTLpf) after discontinuation of calcineurin inhibitors (CNI), while the proliferative capacity in mixed lymphocyte culture (MLC), and the number of interferon-gamma (IFN-gamma) producing cells (pc) in Elispot remained unchanged. METHODS: We tested T-cell reactivity in CNI free patients with stable renal graft function, on mycophenolate mofetil (MMF) or azathioprine (AZA) plus prednisone, who were tapered to 50% of their MMF or AZA dose. RESULTS: Furthermore, tapering of the MMF or AZA dose resulted in a decrease of donor-reactive CTLpf in all patients with detectable CTLpf. Detectable numbers decreased from a median of 32 to 8 CTLp/10(6) peripheral blood mononuclear cell (PBMC). No effect on third-party reactive CTLpf was found, while the T-cell reactivity to donor and third-party cells as tested in MLC and in IFN-gamma Elispot was not affected either by tapering of immunosuppression. Third-party reactivity was significantly higher than donor-specific reactivity in all tests. A control group showed no changes in any of the in vitro assays. CONCLUSION: Both withdrawal of CNI and tapering of MMF or AZA dose decreases the donor-specific CTLpf. Our data suggest that reduction of immunosuppression results in a specific decrease of donor-directed cytotoxic capacity of immunocompetent cells, while their proliferation and cytokine production capacity remained unchanged. Immunosuppression hinders development of cytotoxic non-responsiveness.

Differential roles of IL-1 and TNF-alpha on graft-versus-host disease and graft versus leukemia.

We demonstrate an increase in graft-versus-host disease (GVHD) after experimental bone marrow transplant (BMT) when cyclophosphamide (Cy) is added to an otherwise well-tolerated dose (900 cGy) of total body irradiation (TBI). Donor T cell expansion on day +13 was increased after conditioning with Cy/TBI compared with Cy or TBI alone, although cytotoxic T lymphocyte (CTL) function was not altered. Histological analysis of the gastrointestinal tract demonstrated synergistic damage by Cy/TBI and allogeneic donor cells, which permitted increased translocation of LPS into the systemic circulation. TNF-alpha and IL-1 production in response to LPS was increased in BMT recipients after Cy/TBI conditioning. Neutralization of IL-1 significantly reduced serum LPS levels and GVHD mortality, but it did not affect donor CTL activity. By contrast, neutralization of TNF-alpha did not prevent GVHD mortality but did impair CTL activity after BMT. When P815 leukemia cells were added to the bone marrow inoculum, allogeneic BMT recipients given the TNF-alpha inhibitor relapsed at a significantly faster rate than those given the IL-1 inhibitor. To confirm that the role of TNF-alpha in graft versus leukemia (GVL) was due to effects on donor T cells, cohorts of animals were transplanted with T cells from either wild-type mice or p55 TNF-alpha receptor-deficient mice. Recipients of TNF-alpha p55 receptor-deficient T cells demonstrated a significant impairment in donor CTL activity after BMT and an increased rate of leukemic relapse compared with recipients of wild-type T cells. These data highlight the importance of conditioning in GVHD pathophysiology, and demonstrate that TNF-alpha is critical to GVL mediated by donor T cells, whereas IL-1 is not.

Augmentation of cellular immunity by kigamicin D.

Kigamicin D did not show any immunosuppressive activity in mixed lymphocyte culture reaction and mitogen induced lymphocyte blastogenesis in vitro and graft versus host reaction in vivo. Natural killer cell activity in spleen cells was not affected by oral administration of kigamicin D. Instead, delayed-type hypersensitivity response to sheep red blood cells was stimulated at a broad dosage level. It is concluded that kigamicin D increases cellular immunity to specific antigen.

Indomethacin-induced, monocyte-dependent restoration of local graft-versus-host reaction among cells from cancer patients.

Peripheral blood mononuclear cells from 16 of 17 cancer patients known to have a negative local graft-versus-host (GVH) reaction (T-cell function deficiency) were pharmacologically immunorestored by treatment with indomethacin. The restorative effect of the indomethacin was exerted directly on nonadherent lymphocytes. This process of desuppression required for its completion the presence of glass-adherent monocytes. The immune restorative effect of indomethacin in terms of local GVH reaction did not appear to be mediated by inhibition of prostaglandin synthesis. Pharmacologic immune restoration may be an important therapeutic modality in cancer patients.

Suppression of antibody-mediated and cell-mediated murine immunity by the carcinogen N-[4-(5-nitro-2-furyl)-2-thiazolyl]acetamide.

N-[4-(5-Nitro-2-furyl)-2-thiazolyl]acetamide (NFTA) administered at 1000 ppm in diet to mice for 12 weeks induced a high incidence of lymphocytic leukemia. Effects of NFTA on antibody-mediated immunity and cell-mediated immunity of BALB/c mice were studied using the spleen plaque assay for detection of immunoglobulin M-producing cells and the graft-versus-host (GVH) reaction, respectively. NFTA suppressed both responses. With the spleen plaque assay, the number of antibody-forming cells (AFC) to sheep red blood cells was significantly less than in unmedicated, control mice after treated mice received NFTA at 1000 ppm for 6 days. The GVH reaction was not suppressed at 21 days, but was severely suppressed at 70 days, prior to the histological appearance of leukemia. Effect of dose was studied by administering NFTA at 100, 250, 500, and 1000 ppm of diet for 13 to 14 weeks and then determining the response in the spleen plaque assay and GVH reactions. The ratio of AFC/spleen of NFTA-treated groups to AFC/spleen of an unmedicated control group, at the above specified doses, was 0.86, 0.22, 0.33, and 0.54 in ascending dosage order beginning with 100 ppm. For the GVH reaction, the suppression of the cell-mediated immunity was directly proportional to the dose of NFTA. Suppression of the antibody-mediated immunity in relation to the induction of leukemia at 28 weeks was studied by feeding NFTA at 500 ppm for 14 weeks, followed by unmedicated diet for 14 weeks. During the 11th week, mice were immunized with SRBC; 5 days later the spleens were removed and the spleen plaque assay was performed. Eight of 18 mice fed NFTA developed leukemia. The number of AFC/spleen was 78 X 10(3) +/- 34 for those with leukemia and 68 X 10(3) +/- 24 (p greater than 0.5) for those without leukemia, compared with 170 X 10(3) +/- 74 for the control mice (p less than 0.01 for both groups, compared with controls). A closely related carcinogenic nitrofuran, N-[4-(5-nitro-2-furyl)-2-thiazolyl]formamide, did not suppress the antibody-mediated immunity response measured during the 11th week of administration.

Avian thymic hormone treatment of peripheral blood mononuclear cells from young chicks stimulates acute graft-versus-host reaction in chicken embryos.

Avian thymic hormone (ATH) is a parvalbumin produced by epithelial cells in the thymic cortex of chickens and circulates in the blood on a 5-day cycle. It stimulates precocious development of cell-mediated immunity. The effect of partially purified extracts of thymus (TE) and purified ATH were tested for their effect on the acute graft-versus-host reaction (GVHR). Treatment of chicks for their first 3-days of life did not enhance the acute GVHR produced by their PBMC in 14-day-old embryos. PBMC from 3-day-old chicks were treated in vitro with TE, ATH, thymosin fraction 5 or thymosin alpha1 for 2 h and injected into 14-day-old embryos. Bone marrow cells and thymic lymphocytes were treated with TE. Only PBMC treated with TE or ATH produced an enhanced acute GVHR. Because ATH targets gammadelta T cells, the data implicate participation of donor gammadelta T cells in the acute GVHR.

Cytokine treatment of human bone marrow activates anti-leukaemia effector cells: monitoring of purging by polymerase chain reaction and DNA analysis.

The aims of this study were to investigate the role of cytokines (tumour necrosis factor alpha (TNF alpha), interferon gamma (IFN gamma) and interleukin-2 (IL-2) in augmenting graft-versus-leukaemia (GVL). We have investigated the effector cells involved in GVL, by studying the role of these cells in purging of the cell line K562 in short-term bone marrow cultures. The effect of the addition in vitro of rGCSF was also studied. Monitoring of purging was achieved by cytotoxicity assays, DNA analysis and the use of the polymerase chain reaction for the detection of bcr/abl transcripts in the Philadelphia positive (Ph+) K562 cell line. Supernatants from IL-2-treated and non-treated bone marrow were tested for cytokine production (TNF alpha and IFN gamma). The results have shown that the main cytotoxic effector cells in the bone marrow generated by IL-2 have the CD56+ CD8+ phenotype. Overnight incubation of bone marrow was sufficient to generate cytotoxic cells as measured by Chromium51 (Cr51) release assays. Measurable levels of TNF alpha but not IFN gamma were also detected in supernatants. Addition of TNF alpha and IFN gamma to the IL-2 in the bone marrow cultures augmented the cytotoxicity but tended to inhibit progenitor cell growth as measured by granulocyte-macrophage colony-forming unit (GM-CFU) and erythroid blast-forming unit (BFU-e) assays. An estimate of the purging of the marrow could also be achieved by DNA analysis of K562 DNA in bone marrow. The bcr/abl transcript could still be detected by PCR analysis in marrow containing 1% K562 and treated with IL-2 for 24 h, but by 6 days of incubation the bcr/abl transcript was weak or undectable. The results suggest that although reduction in the proportion of leukaemia in contaminated marrow can be detected after incubation with IL-2 for 24 h, complete elimination of minimal residual disease requires longer incubation times.

Antagonistic effects of systemic interleukin 2 on immune Tcell-mediated graft-versus-leukemia reactivity.

This study demonstrates that systemic interleukin 2 (IL-2) can decrease the homing of syngeneic immune T cells to the target organ of metastases and accelerate unwanted side effects of allogeneic immune T cells. As a tumor system, we used the well-characterized highly aggressive DBA/2 mouse leukemia ESb and its less aggressive adhesion variant, ESb-MP. Systemic IL-2 treatment was performed with recombinant human interleukin-2 (Proleukin), which was slowly released via an implanted osmotic pump or was modified with polyethylene glycol (PEG-IL-2) to achieve constant plasma levels. Allogeneic B10.D2 antitumor immune spleen cells (ISPL cells) exerted strong graft-versus-leukemia (GvL) reactivity after adoptive transfer into late-stage ESb-MP tumor-bearing DBA/2 mice. Mls(a) superantigen-reactive vbeta6 donor T cells were not eliminated or tolerized by in vivo priming with the tumor cells and were present in active proliferation in liver infiltrates. When exogenous PEG-IL-2 or Proleukin was applied in addition to ISPL cells in such mice, the strong GvL-mediated protective immunity was converted into a fatal graft-versus-host disease. IL-2 treatment alone had no toxic effect and caused a moderate protection effect in the absence of an effect on local tumor growth. Potentiation of GvH reactivity of B10.D2 ISPL by PEG-IL-2 was proven in non-tumor-bearing DBA/2 mice, in which graft-versus-host disease was characterized by: (a) heavy hepatic lymphocytic infiltration, (b) irreversible increase of serum glutamate-oxalacetate-transaminase and glutamate-pyruvate-transaminase levels, (c) weight loss, and (d) death. Antagonistic effects of systemic IL-2 on GvL were observed with syngeneic DBA/2 anti-ESb immune peritoneal effector cells (PECs). There was a detrimental effect of systemic IL-2 on liver target organ infiltration by immune T cells causing, at day 6 after transfer, a drop from 20-30 CD4 or CD8 T cells per liver lobule in the PEC group to <5 in the PEC plus IL-2 group. The results emphasize the importance of a better understanding of IL-2 function in vivo and of its interaction with immune cell function to improve protocols for optimal application in the clinic to achieve maximal GvL effects.