Cytotoxic T lymphocytes reactive against a syngeneic murine tumor and their specific suppressor T cells are both elicited by in vitro allosensitization.

Sensitization of C57BL/6 (B6, H-2b) splenocytes against normal BALB/c (H-2d) leukocytes (B6 a/BALB) in bulk MLC induced CTL reactive against the syngeneic (H-2b) nonimmunogenic lymphoma PIR-2, in addition to the CTL directed against the corresponding (H-2d) allotargets. However, MLC-derived lymphocytes did not directly exhibit anti-PIR-2 cytotoxicity in spite of the high anti-PIR-2 CTL frequency (up to 1/20) among them, as demonstrated by the limiting dilution culture (LDC) technique. The present study was undertaken to resolve this contradiction. We found that anti-PIR-2 cytotoxicity could be detected only when B6 a/BALB MLC-derived responding cells were plated in LDC at low numbers (less than 200) of cells/well. In contrast, increasing the number of the plated cells to 500-5,000 resulted in a gradual decrease in the percentage of wells cytotoxically reactive against PIR-2, whereas the percentage of wells exhibiting cytotoxicity against the allotargets remained unchanged (100%). This decrease of anti-PIR-2 cytotoxicity in LDC and the lack of anti-PIR-2 reactivity among MLC-derived lymphocytes were shown by mixing experiments to result from the activity of radioresistant Thy-1+, Lyt-2+, L3T4- suppressor cells, blocking the anti-PIR-2 cytotoxicity at the effector phase. The suppression was specific as indicated by the following observations: (a) freshly obtained B6 splenocytes, cultured unsensitized B6 splenocytes, mitogen-induced B6 lymphoblasts, B6 LAK cells, or B6 a/B6 MLC-derived lymphocytes were not suppressive; (b) anti-PIR-2 cytotoxicity elicited in B6 a/BALB LDC was suppressed only by lymphocytes derived from B6 a/BALB MLC and not from B6 a/C3H (H-2k) MLC; and (c) B6 a/BALB MLC-induced suppressor cells could be adsorbed on monolayers of BALB/c but not of C3H lymphoblasts. Since both syngeneic tumor and allogeneic target cells were lysed by the same clonal cell population but only the antisyngeneic activity was suppressed, we suggest that a single CTL can exhibit two cytotoxic activities that are differentially affected by the described suppressor cells. This mode of suppression may play a role in controlling autoimmune reactivity.

In vitro generation of cytotoxic lymphocytes against radiation- and radiation leukemia virus-induced tumors. III. Suppression of anti-tumor immunity in vitro by lymphocytes of mice undergoing radiation leukemia virus-induced leukemogenesis.

Adult C57BL/6 mice exposed to fractionated irradiation or inoculated with the radiation leukemia virus (RadLV), develop high incidence (80-100%) of lymphatic leukemias within 3-6 mo. RadLV-induced lymphomas can elicit cytotoxic responses in vitro in lymphocytes of preimmunized syngeneic mice, a reaction that is dependent on the expression of membrane-associated viral antigenicity. As soon as 5 d after RadLV inoculation, and during the entire leukemogenic process, suppressor T cells are detectable in the spleen that are capable of specifically abrogating generation of syngeneic anti-tumor cytotoxic cells in vitro. Mice exposed to fractionated x irradiation do not develop suppressor cells and their splenocytes may be stimulated in vitro to generate cytotoxicity toward RadLV-induced leukemias. These findings suggest that although RadLV has been isolated from radiation-induced leukemias, x-ray- and RadLV-induced leukemogenesis do not seem to involve a common viral etiology, and that induction of suppressor cells during RadLV leukemogenesis may be essential for tumor progression.

In vitro induction of cell-mediated immunity to murine leukemia cells. III. Effect of methanol extraction residue fraction of BCG on the generation of cytotoxic lymphocytes against leukemia.

Effects of the methanol extraction residue (MER) fraction of tubercle bacilli (BCG) on the generation of cytotoxic lymphoid cells were studied in vitro with the use of unidirectional mixed lymphocyte-tumor cell cultures. These cultures consisted of splenocytes of lymph node cells from normal donor C57BL/6, BALB/c, and strain A mice and mitomycin C-inactivated leukemia cells of both syngeneic and allogeneic origin. Addition of small amounts of MER (0.2-5 microgram/ml) to the cultures potentiated appreciably the elicitation of cytotoxic reactivity (as measured by the 51Cr-release assay) of the sensitized cells, whereas higher quantities (10-40 microgram/ml) had a strong suppressive effect. MER also induced some cytotoxic capacity in normal murine and human lymphoid cells not exposed to specific tumor cell stimulation. The stimulatory and suppressive effects were noted only when MER was present during the initial 24-48 hours of the 6-day culture. With the nylon wool fractionation technique, it was apparent that MER affected primarily the nonadherent cell population. MER could also prevent the generation of nonspecific suppressor cells by splenocytes maintained for 3-6 days in tissue culture.

Liposomes as sustained release system for human interferon-gamma: biopharmaceutical aspects.

Interferon-gamma (IFNgamma) has proven to be a promising adjuvant in vaccines against cancer and infectious diseases. However, due to its rapid biodegradation and clearance, its efficacy is severely reduced. Liposomal association might prolong the residence time of IFNgamma, but no efforts have been made to optimize the biopharmaceutical characteristics of liposomal IFNgamma for its application in therapy or as vaccine immunoadjuvant. In the present study, various liposomal formulations of recombinant human IFNgamma (hIFNgamma), differing in lipid composition, were prepared via the film hydration method and characterized in vitro regarding association efficiency and bioactivity, and in vivo regarding cytokine release kinetics after subcutaneous (s.c.) administration into mice. Human IFNgamma can be formulated in large, multilamellar liposomes with high association efficiency (>80%) and preservation of bioactivity. A critical parameter is the inclusion of negatively charged phospholipids to obtain a high liposome association efficiency, which is dominated by electrostatic interactions. The fraction of externally adsorbed protein compared to the total associated protein can be minimized from 74+/-9% to 8+/-3% by increasing the ionic strength of the dispersion medium. After injection of free (125)I-hIFNgamma, the radiolabel was detectable up to 48 h at the injection site. Liposomal encapsulation of (125)I-hIFNgamma increased the local area under the curve 4-fold, and the presence of the radiolabeled hIFNgamma at the injection site was prolonged to 7 days. The release kinetics and overall residence time of the cytokine at the s.c. administration site was influenced by depletion of the externally adsorbed IFNgamma, reducing the initial burst release. Increasing the rigidity of the liposome bilayer also resulted in a more pronounced reduction of the burst release and a 19-fold increase in the residence time of the protein at the s.c. administration site, compared to the free cytokine. As adjuvanticity of liposomal IFNgamma may strongly depend on the release kinetics of cytokines in vivo, the findings in this paper may contribute to a rational design of liposomal-cytokine adjuvants in vaccines against cancer and infectious diseases.

Immunoadjuvant activity of interferon-gamma-liposomes co-administered with influenza vaccines.

In an attempt to potentiate the relatively low immunogenicity of the currently used influenza vaccines, especially in high-risk groups, monovalent and divalent subunit vaccine preparations were co-administered with free or liposome-associated murine interferon gamma (mIFNgamma) as an adjuvant. Recombinant murine IFNgamma was entrapped (50-70% efficiency) in two types of large multilamellar vesicles: mIFNgamma-LIP A-'conventional' liposomes, and mIFNgamma-LIP B- 'surface-depleted' liposomes, in which 60 and 8% of the associated cytokine was located at the external liposome membrane, respectively. Subunit preparations containing the viral surface proteins hemagglutinin and neuraminidase (HN) were injected once, i.p. (0.5 microg each), into BALB/c mice, alone and combined with free or liposomal mIFNgamma (mIFNgamma-LIP, 0.5 or 3.0 microg). Sera were tested 3-16 weeks post-vaccination by hemagglutination inhibition (HI), and by ELISA for IgG1 and IgG2a antibodies (Abs). In addition, protective immunity against intranasal viral infection was assayed at 11 and 17 weeks post-vaccination. The results showed that: (a) Vaccination with HN alone produces very low HI and IgG titers and does not afford any protection. (b) Although co-administration with free mIFNgamma (particularly using 3.0 microg) markedly enhances HI titer as well as the IgG1 and IgG2a levels, protection is negligible (0-33%). (c) In most cases, mIFNgamma-LIP is significantly more potent than free mIFNgamma (2-40-fold increase in Ab titer), and the low dose (0.5 microg) is generally more efficient than the high dose. Up to 83% of the mice co-vaccinated with mIFNgamma-LIP were protected against viral challenge. (d) Both the IgG2a level and the HI titer appear to be crucial for protection. (e) Although the two liposomal preparations differ in their cytokine release profile in vivo and in their bioactivity in vitro, their adjuvant activity is comparable.

Enhancement of antitumor activity of polyethylene glycol-coated liposomal doxorubicin with soluble and liposomal interleukin 2.

Polyethylene glycol-coated liposomal doxorubicin (Doxil) has a sustained release profile and a mild myelosuppressive effect that may enable a beneficial interaction with lymphocyte-activating cytokines, such as interleukin 2 (IL-2). Previous studies have shown that liposome entrapment of IL-2 potentiates its immunomodulatory effects and reduces the need for frequent dosing. We assessed the therapeutic effect of Doxil (8 mg/kg) followed by free or liposomal IL-2 (50,000 Cetus Units x 3) in mice bearing M109 lung adenocarcinoma transplanted i.v. or i.p. Doxil was always administered i.v., whereas IL-2 was given i.v. in the i.v. M109 model and i.p. in the i.p. M109 model. The optimal combined treatment was significantly more effective than liposomal chemotherapy alone, producing tumor-free, long-term survivors in 100% (i.v. M109) and 94% (i.p. M109) of the mice, compared with 50% and 56%, respectively, for Doxil alone. The efficacy boost of IL-2 appeared to be formulation dependent, with free IL-2 and IL-2 in small unilamellar vesicles most active in the i.v. tumor model, and IL-2 in multilamellar vesicles most active in the i.p. tumor model. The combination of Doxil with free or liposomal IL-2 was devoid of any conspicuous toxicity. Cytokine treatment without chemotherapy was completely ineffective. Liposome-based chemoimmunotherapy is a synergistic and highly efficacious approach to eradicate metastatic and regionally spread tumors.

Selective accumulation of lymphocyte precursor cells mediated by stromal cells of hemopoietic origin.

Thymocytes were propagated in long-term cultures supported by stromal cells of both bone marrow and thymus origin. Interleukin 2 (IL-2) supplementation augmented the cell yield and allowed detailed phenotype analysis. Within 2-3 months of culture a cell population was selected in which the expression of Thy-1 antigen persisted, CD4 and CD8 antigens gradually declined, and Pgp-1 antigen, found on less than 5% of fresh thymocytes, was strongly increased. This cultured cell population (Thy-1.2 origin) contained no detectable spleen colony-forming units (CFU-S) but efficiently repopulated the thymus of Thy-1.1-irradiated congenic mice, indicating the precursor T-cell nature of the population. Upon removal from the stroma, the T cells exhibited poor cytotoxicity towards syngeneic tumor cells. Further propagation with IL-2 in the absence of stroma resulted in the acquisition of cytotoxic ability. Replacement of the horse serum used in the above experiments with fetal calf serum resulted in accumulation of cells expressing B220 antigen. This experimental model provides the means to maintain lymphocyte precursor cells in long-term culture and to further study their differentiation in the absence of stroma, both in vitro and in vivo.

Current problems and future goals in clinical bone marrow transplantation.

Allogeneic bone marrow transplantation (BMT) is associated with the cumulative toxicity of high dose chemotherapy and/or radiation therapy regimens currently in use, with acute and chronic graft vs host disease (GVHD), as well as with the consequences of delayed immunological reconstitution due to slow maturation of the immune system and drugs currently used for prevention of GVHD. Although GVHD may be overcome by T-cell depletion it leads to an increased incidence of graft rejection and relapse of the original malignancy. These too represent major problems. Autologous BMT results in high relapse rates due to lack of immune-mediated allogeneic interactions of grafted cells against tumor cells of the host. In view of the fact that experiments in animal models of human disease suggest that antileukemic effects of allogeneic marrow grafts may be partially independent of GVHD, new approaches for amplification of antitumor effects of autologous and allogeneic cells by cytokines and by lymphokine-activated cells are discussed. Evidence for antileukemia effects of IL-2 therapy in animals is presented. Beneficial effects of several cytokines in autologous and allogeneic BMT are suggested by significant facilitation of immunological and hematopoietic reconstitution following transplantation of bone marrow cells treated in vitro with cytokines (including ASTA-Z-purged marrow) and following in vivo administration of cytokines in conjunction with BMT. Overall, in view of several innovative biological interventions, it seems that significant progress in autologous and allogeneic BMT may be underway; the concept yet to be established is that successful and less risky BMT may be accomplished by replacing aggressive chemoradiotherapy regimens with sophisticated immunomanipulations and biological response modifying agents.

In vitro induction of cell-mediated immunity to murine leukemia cells. I. Optimization of tissue culture conditions for the generation of cytotoxic lymphocytes.

Cytotoxic lymphocytes (CTL) to allogeneic and syngeneic murine leukemia cells were generated in vitro in "one way" mixed lymphocyte-tumor cell cultures carried out under a variety of conditions. In an attempt to define the optimal culture conditions for sensitization, the following parameters were analyzed: culture vessel, culture volume, responder: stimulator (R:S) cell ratio, lymphoid cell density, source of lymphoid cells, duration of culture, fetal calf serum (FCS) concentration, 2-mercaptoethanol (2-ME) concentration, concentration of amino acids, and buffering system. Of the many variables examined, of particular importance were the R:S cell ratio, the cell density, the FCS concentration, the presence of 2-ME, and the time of harvesting. These factors exerted various effects, both quantitatively and qualitatively, on the magnitude and kinetics of the responses induced in microcultures (5 X 10(6) lymphocytes) and macrocultures (25 X 10(6) lymphocytes). Moreover, optimal sensitization in syngeneic cultures required different conditions than those for allogeneic cultures. Cytotoxic activity was assessed in vitro by a quantitative 51Cr-release assay. The sensitized lymphocytes demonstrated the characteristics ofT lymphocytes and reacted specifically with the sensitizing leukemia cells.

In vitro induction of cell-mediated immunity to murine leukemia cells. II. cytotoxic activity in vitro and tumor-neutralizing capacity in vivo of anti-leukemia cytotoxic lymphocytes generated in macrocultures.

The main findings of the present study are: (a) highly reactive cytotoxic lymphocytes (CTL) against syngeneic and allogeneic murine leukemia cells were generated in vitro in macro 'one-way' mixed leukocyte-tumor cultures (MLTC). Cultures set up in large tissue culture flasks contained up to 400 X 10(6) normal spleen cells (responder cells) and 20--40 X (10(6) mitomycin C-treated leukemia cells (stimulator cells). Successful sensitization in macrocultures was greatly dependent upon the responder cell density and the responder/stimulator cell ratio. Cytotoxic activity, as measured by the 51Cr-release assay, peaked on day 5--7. (b) Sensitized 'memory' lymphocytes produced in primary MLTC could be restimulated with the original tumor cells to give a more rapid and stronger secondary cytotoxic response. (c) lymphocytes sensitized to allogeneic leukemia cells reacted equally well with sensitizing leukemia cells and with the corresponding normal lymphoid target cells, whereas lymphocytes sensitized to syngeneic leukemia cells did not react with the homologous normal lymphocytes. (d) Cryopreserved normal splenocytes and leukemia cells were as efficient as fresh cells in generating allogeneic and syngeneic CTL. (e) Using a Winn-type tumor neutralization assay, it was shown that both allogeneic and syngeneic splenocytes sensitized in vitro to EL4 leukemia (of C57BL/6 mice) and to YAC leukemia (of A mice) were capable of preventing tumor growth in the syngeneic host, whereas cultured normal splenocytes frequently showed a tumor-enhancing effect. Long-term survivors, remaining after inoculation of leukemia cells and sensitized lymphocytes, also became resistant to a tumor challenge that was up to 10,000 greater than the minimum lethal dose.

A rapid and sensitive technique for the detection of Fc receptors on macrophages.

A rapid sensitive technique for the production of macrophage EA rosettes employing centrifugal sedimentation of opsonized erythrocytes is described. Using this method, a sensitive rosette formation-inhibition assay for the determination of anti-macrophage antibody titers has been developed.

Typing of HLA class II and class I antigens using PHA-activated, IL-2-propagated T lymphocytes.

We describe here a simple procedure, by which HLA class II antigens can be accurately and reliably identified in those patients where there is minimal or absent expression of HLA-DR,DQw antigens on B cells, or when the total number of leukocytes recovered from the patients do not permit reliable typing. Ficoll-Hypaque-separated peripheral blood mononuclear leukocytes, fresh or cryopreserved, were activated by PHA and then propagated in IL-2-containing medium until enough cells for typing were obtained (usually 7-14 days). At this stage, the cultured cells were shown to be primarily T cells (greater than 90% CD3+). Since the activated T cells propagate in the presence of IL-2, even a small number (10(4] of fresh or cryopreserved patients' cells suffice for this protocol. To date we have been able to successfully HLA-DR,DQw type 34/34 bone marrow transplantation candidates and 12/12 long-term dialysis patients, who were untypable using fresh cells. HLA-DR,DQw antigens on activated T cells from normal individuals were identical to those found on their uncultured B cells. In addition, class I antigens that were undetectable on the uncultured cells of one patient could be identified on activated T cells. The HLA antigens identified on the patients' activated T cells were confirmed by phenotypic analysis of cells from family members.

In vitro induction of cytotoxic effector cells against human neoplasms. I. Sensitization conditions and effect of cryopreservation on the induction and expression of cytotoxic responses to allogeneic leukemia cells.

Peripheral blood lymphocytes (PBL) from normal human donors were sensitized in vitro against allogeneic human acute myelocytic leukemia (AML) cells by means of an unidirectional mixed lymphocyte-tumor cell culture (MLTC) technique. The cytotoxic responsiveness of the sensitized lymphocytes, as determined in vitro by the 51Cr-release assay, varied among individual lymphocyte donors and was greatly dependent on the sensitization culture conditions. Induction of cytotoxic effector cells was augmented appreciably by adding to the cultures minute amounts of the immunopotentiating agent MER-BCG. Responding lymphocytes and stimulating leukemia cells cryopreserved for several weeks in liquid nitrogen were as effective as fresh cells in generating effector lymphocytes; the cytotoxic capacity of already sensitized lymphocytes was fully retained by cryopreservation. The implications of these findings for possible clinical employment of in vitro sensitized lymphocytes in adoptive immunotherapy of cancer are discussed.

Cytokine production in human mixed leukocyte reactions performed in serum-free media.

The mixed leukocyte reaction (MLR) is an in vitro test commonly performed in a serum-containing medium (SCM), and used to study allorecognition and cellular immunity accompanied by cytokine release. We investigated the possibility of performing the MLR test in serum-free media (SFM) by comparing human leukocyte proliferation and cytokine release in MLRs performed in SFM and SCM. Of the four SFM tested, only Biotarget- was as effective as SCM in supporting leukocyte proliferation and IL-2 secretion. Both phenomena were observed only in allogeneic combinations. The levels of IL-1, IL-6, and TNFalpha in allogeneic MLR combinations in SFM were half those in SCM cultures; the kinetics of their release were the same. With the exception of IL-2, a high degree of spontaneous release of the other three cytokines analyzed was observed in responder cells, in irradiated stimulator cells, and in autologous combinations cultured in both SCM and SFM. It appears that unlike IL-2, the cytokines IL-1, IL-6, and TNFalpha are nonspecifically produced in MLR and cannot serve as sensitive indices of HLA disparity.

In vivo and in vitro induction of cytotoxic lymphocytes by alloantigen-reactive lymphocytes fractionated on spleen cell monolayers.

The generation of cytotoxic T cells by normal and primed lymphocytes fractionated on spleen cell monolayers was examined by two methods. In the first method, sublethally irradiated recipients were inoculated with the fractionated cells, and 5 to 6 days later the spleens were tested for cytotoxicity against 51Cr tumor target cells syngeneic to the host. Significant reduction of cytotoxic activity was observed in one-half of the experiments. In the second method, the fractionated cells were cultured with mitomycin C-treated stimulated cells and tested 6 days later for cytotoxicity. A slight reduction of cytotoxic activity was observed. In both methods, the cytotoxic response generated by the fractionated alloantigen-primed lymphocytes was similar to the response obtained with unprimed cells.

A short human and mouse MLR assay utilizing lymphokine (IL-2, IL-3) secretion as an early activation event.

The mixed leukocyte reaction is the only functional in vitro assay currently employed for confirmation of MHC matching between bone marrow recipients and their prospective donors and for MHC class II (HLA-Dw) typing. This assay is, however, time-consuming (6 days for human MLR), whereas for clinical purposes results are often required much earlier. In an attempt to shorten the MLR incubation period, we tested IL-2 (in human MLR) and IL-2/IL-3 (in mouse MLR) production as an indication of early stages of T cell activation. We here describe a shorter assay in which IL-2 and IL-3 secretion during MLR was assessed by adding the respective lymphokine-dependent cell lines either to the MLR supernatants or directly to the original MLR cultures, using the colorimetric (3-[4,5 Dimethylthiazol-2-yl]-2.5-diphenyltetrazolium bromide) (MTT) technique or the 3H-thymidine incorporation assay. In both human and mouse MLR systems, lymphokine production peaked at 24-48 hr after culture initiation, allowing tests to be completed within 48 to 72 hr. Weak MLR responses, as detected by lymphokine production, could be considerably amplified by irradiating (250-1000 cGy) the responder cells and by adding heparin (1-10 U/ml) to the cultures. The results obtained by this novel procedure correlated with those obtained by the standard 6-day human MLR assay in over 250 combinations tested thus far, and therefore it may replace the standard MLR procedure.

Bone marrow transplantation with T-cell-depleted grafts. I. Reconstitution of immunohemopoietic functions in lethally irradiated mice transplanted with unseparated or T-cell-depleted syngeneic bone marrow grafts.

The potential role of donor's mature T lymphocytes on the recovery of various immunological functions and hematopoiesis was investigated in lethally irradiated BALB/c mice by studying reconstitution with normal, as compared with T-cell-depleted, syngeneic marrow grafts. Recovery of total, as well as mononuclear, peripheral white blood cell counts, platelets, hemoglobin levels, proportion of Thy 1.2+ cells, responses to concanavalin A, phytohemagglutinin and lipopolysaccharide, mixed lymphocyte response, cell-mediated lympholysis response, anti-SRBC agglutinins and natural killer activity were basically similar in recipients of unmanipulated (as compared with T cell depleted) syngeneic marrow grafts. The data suggest that in a syngeneic murine bone marrow transplantation setting, mature donor T lymphocytes do not seem to play a major role in immunohemopoiesis. Normal T cell number and T-cell-dependent immune function can be readily regenerated out of the stem cell reservoir of adult donors following transplantation into lethally ablated recipients.

Prediction by a modified mixed leukocyte reaction assay of graft-versus-host disease and graft rejection after allogeneic bone marrow transplantation.

In this report we describe a modified, sensitive MLR test that appears to detect fine antigenic disparities between HLA-identical siblings confirmed as such by serology and the standard MLR test. In a group of 40 consecutive allogeneic bone marrow transplants, reactivity detected by the modified MLR test correlated with the development of rejection of matched marrow grafts and onset of acute graft vs. host disease (aGVHD). Thus, 13/15 positively reacting patient/donor pairs developed one of these complications (P < 0.001), while only 2/25 developed aGVHD in the negatively reacting group. This test may be useful for selecting the most compatible donor when several potential donors are available.

Bone marrow transplantation with T-cell-depleted grafts. II. Reconstitution of immunohemopoietic functions in lethally irradiated mice transplanted with unseparated or T-cell-depleted bone marrow grafts disparate at minor histocompatibility antigens.

Graft-versus-host disease (GVHD), a serious complication of allogeneic bone marrow transplantation (BMT), can be prevented by in vitro depletion of T cells from the bone marrow (BM) prior to transplantation. The purpose of this study was to assess the role of BMT cells in the reconstitution of various immune functions following BMT across minor histocompatibility barriers. Lethally irradiated CBA/J (H-2k) mice were grafted with either 10(7) unseparated or T-cell-depleted BM cells from B10.BR (H-2k, minor-histoincompatible) mice. Blood counts, BM colonies in agar, and various immune functions of spleen cells from the recipient mice were tested 2-12 weeks post-BMT and compared with those of normal donors. The following observations were made: (A) Peripheral blood lymphocyte counts decreased to 30% of normal 2 weeks post-BMT with almost normal recovery at 8 weeks. (B) The percentage of Thy1.2+ splenocytes reached normal levels at 8 weeks post-BMT. (C) The number of BM colonies (GM-CFU) was reduced to 10% at 2 weeks and fully recovered at 12 weeks. (D) Proliferative response to the B-cell mitogen LPS was fully reconstituted after 4 weeks; however, anti-SRBC PFC (following Mishell-Dutton cultures) was restored 50% at 8-12 weeks. (E) Reconstitution of T cell functions including proliferative responses to concanavalin A, phytohemagglutinin, and allogeneic leukocytes, and allocytotoxicity, did not exceed 50% even 12 weeks post-BMT. Overall, depletion of T cells from donor BM allografts incompatible at minor histocompatibility loci, did not seem to significantly alter the rate of immunohematopoietic reconstitution in the lethally irradiated BM recipients.

Allosensitization in IL-2-containing limiting dilution cultures generates cytotoxic T lymphocytes (CTL) rather than LAK cells reactive with a syngeneic nonimmunogenic murine tumor.

We have previously demonstrated that high frequency (1/20) of potent cytotoxic cells reactive with the nonimmunogenic lymphoma PIR-2 of C57BL/6 (B6, H-2b) origin, can be obtained by allosensitization of syngeneic B6 splenocytes against BALB/c (H-2d) splenocytes in limiting dilution cultures (LDC). Since a high concentration (250 U/ml) of exogenous interleukin 2 (IL-2), sufficient for the elicitation of lymphokine-activated killer (LAK) cells, was used in the LDC, and because the LDC-derived cytotoxic cells were active against a wide spectrum of target cells, we investigated whether the anti PIR-2 effector cells are LAK cells or cytotoxic T lymphocytes (CTL). We found that depletion from the B6 responder cell population of Lyt2+ (CTL precursors), but not of asialo GM1+ (LAK cell precursors), prior to LDC, results in the ablation of anti PIR-2 activity. When B6 splenocytes were plated in LDC with IL-2, in the absence of allogeneic stimulating cells, the resulting anti PIR-2 activity was greater than 10- to 500-fold lower than that obtained in LDC in the presence of allogeneic stimulating cells and IL-2. These and other observations suggest that the cytotoxic response against syngeneic tumors elicited by alloantigens in LDC is mediated by CTL rather than LAK cells, and that allogeneic sensitization in LDC can provide a means for the generation of CTL against syngeneic, nonimmunogenic tumors.