Evaluation of human carcinoembryonic-antigen (CEA)-transduced and non-transduced murine tumors as potential targets for anti-CEA therapies

The MC-38 C57BL/6 mouse colon adenocarcinoma cell line has been transduced with a retroviral construct containing cDNA encoding the human carcinoembryonic antigen (CEA) gene [Robbins PF, Kantor JA, Salgaller M, Horan Hand P, Fernsten PD, Schlom J (1991) Cancer Res 51: 3657]. Two clones, MC-38-ceal and MC-38-cea2, expressed high levels of CEA on their cell surface. A third CEA-expressing cell line, MCA-102-cea3, was similarly derived by transduction of the MCA-102 C57BL/6 mouse fibrosarcoma cell line and is described here. In this study, the three CEA-transduced murine tumor cell lines (MC-38-cea1, MC-38-cea2, MCA-102-cea3) were evaluated for their tumorigenic potential, as well as their ability to serve as in vivo model systems for active and passive immunotherapy studies. Parameters that were investigated include tumor growth rate, the antibody response of the host to CEA, and the CEA content of the tumors. The MC-38-cea2 model appeared to be the most appropriate for immunotherapy studies. Biodistribution studies, using an¹²⁵I-labeled anti-CEA mAb, demonstrated efficient tumor targeting of MC-38-cea2 tumors in C57BL/6 and athymic mice.     

IL-4 regulation of murine lymphokine-activated killer activity in vitro. Effects on the IL-2-induced expansion, cytotoxicity, and phenotype of lymphokine-activated killer effectors

The in vitro incubation of B6 splenocytes with purified, mouse rIL-4 for 4 to 5 days was sufficient to generate lymphokine-activated killer (LAK) activity. In addition, rIL-4 augmented LAK cytotoxic activity when combined with rIL-2, as measured in a 4 h 51Cr-release assay against fresh, syngeneic MCA-sarcoma (MCA-102 and MCA-105) cells. Interestingly, this augmentation was not observed against the cultured YAC-1 target. LAK generation and augmentation of cytotoxicity by rIL-4 was species-specific, because human rIL-4 (up to 20,000 U/ml) failed to elicit these effects in the mouse splenocyte cultures. When 5-day B6 LAK cells (splenocytes incubated in rIL-2 at 1000 U/ml for 5 days) were split and recultured in the combination of rIL-2 plus rIL-4 for 4 additional days at least a twofold greater expansion in cell number resulted compared to similar cells cultured in either rIL-2 or rIL-4 alone. Moreover, LAK cells expanded in rIL-2 plus rIL-4 exhibited substantial increases in in vitro cytolytic activity (on a per cell basis) against MCA-102 and MCA-105 sarcoma cells, but not against YAC-1 targets. FACS analysis or negative selection using Lyt-2 or NK-1.1 mAb plus C revealed no differences in effector phenotype(s) of LAK cells expanded in rIL-2 alone compared to rIL-2 plus rIL-4 to account for the differences observed in both expansion and cytolytic activity by rIL-4. The majority of cells was Thy-1+, Lyt-2+, T3+, and ASGM-1+. However, a marked increase in the granule-associated serine esterase, BLT-E, was found only in LAK cells expanded in the combination of both lymphokines. Collectively, these studies show that rIL-4 has potent regulatory activities on splenic LAK generation, expansion, and cytotoxic function in the mouse.     

Effects of cyclosporin on C57BL/6 splenocytes before and after culture with high-dose recombinant interleukin-2: Implications for immunosuppression with cyclosporin

Summary Lymphokine-activated killer cells appear to arise from precursor cells bearing natural killer (NK) cell antigens. Cyclosporin (CsA) is a well-known immunosuppressive agent that can down-regulate NK cell cytotoxicity. Studies were initiated to evaluate the effects of CsA on splenocytes before and after exposure to recombinant interleukin-2 (rIL-2). Normal C57BL/6 mice receiving CsA at a dose of 100 mg/kg demonstrated a decrease in NK cell lysis against the YAC-1 lymphoma target in a 4-h chromium-release assay. When splenocytes obtained from CsA-treated mice were cultured for 3 days in complete medium containing 1000 U rIL-2/ml, they demonstrated a return of NK cell lysis to normal (mean cytotoxicity = 65 LU versus 60 LU for control and CsA-exposed splenocytes respectively;P, NS, five consecutive experiments) but revealed a decrease in the lysis of a NK-resistant target: the MCA-102 sarcoma (mean cytotoxicity = 20 LU vs 12 LU for control and CsA-exposed splenocytes respectively;P <0.02, five consecutive experiments). Fresh splenocytes cultured in media containing rIL-2 and CsA demonstrated a decrease in proliferation, cell-cycle S-phase fraction and cell yields compared to splenocytes cultured in media containing rIL-2 alone. In addition, a decrease in tumor cell lysis for NK-cell sensitive (mean percentage lysis = 98% vs 60%, rIL-2 vs rIL-2 + CsA; effector-to-target ratio 100: 1) and resistant targets (mean percentage lysis = 68% vs 28%, rIL-2 vs rIL-2 + CsA; effector-to-target ratio 100: 1) was also seen. CsA had no effects on the phenotypic antigenic expression of splenocytes cultured with high-dose rIL-2 although activated T cell antigens were down-regulated when fresh splenocytes were evaluated after in vivo exposure to CsA. These studies support the down-regulating effects of CsA on NK cell lysis and suggest that the rIL-2-activated cell population is heterogeneous as demonstrated by the differential down-regulation and recovery of NK-resistant cell lysis versus NK-sensitive cell lysis.     

Augmentation of interleukin-2-induced activation of human melanoma tumor-infiltrating lymphocytes by heteroconjugate antibody

Summary Heteroconjugate (HC) antibody (anti-CD3 mAb × anti-p97 melanoma mAb) or monomeric anti-CD3 mAb by itself did not induce proliferation of uncultured melanoma tumor-infiltrating lymphocytes (TILs). They also failed to induce IL-2 production in uncultured TILs, although anti-CD3 mAb, but not HC antibody, stimulated IL-2 production in peripheral blood mononuclear cells (PBMCs). Sequential treatment of uncultured TILs from p97-antigen-positive (p97⁺) melanomas with HC antibody, followed by washing and incubation with interleukin-2 (IL-2), induced significantly higher proliferation than incubation with IL-2 alone. HC antibody pretreatment led to significantly greater results than with anti-CD3 mAb at a 1 ng/ml level in IL-2-induced proliferation of TILs from p97⁺ melanomas, similar to those with anti-CD3 mAb at a level of 100 ng/ml. HC antibody (1 ng/ml) pretretment did not enhance IL-2-induced proliferation of either TILs from p97^– melanomas or PBMCs, while anti-CD3 mAb enhanced the proliferation of TILs from some p97^– melanomas and PBMCs. Regardless of the pretreatment of uncultured TILs with HC antibody or anti-CD3 mAb, IL-2-activated TILs were cytotoxic primarily only to autologous tumor cells, and their phenotypes remained the same. Thus, HC antibody can augment IL-2-induced activation of TILs only from p97⁺ melanomas, without altering their pattern of cytotoxicity or phenotype. The findings were consistent with observations at the clonal level. In contrast to anti-CD3 mAb, HC pretreatment of uncultured TILs from only p97⁺ melanoma prior to limiting-dilution analysis increased the number of proliferating TIL clones, including autologous tumor-specific cytotoxic T lymphocyte clones. These results suggest that use of HC antibody in vivo would be more advantageous than anti-CD3 mAb, with regard to augmentation of IL-2-induced TIL activation.This work was supported in part by grants CA47 891, CA09 599, and RR5511-27 from the National Institutes of Health     

Characterization of the CD4+ and CD8+ tumor infiltrating lymphocytes propagated with bispecific monoclonal antibodies

To study the CD4+ and CD8+ tumor infiltrating lymphocytes (TIL) in the antitumor response, we propagated these subsets directly from tumor tissues with anti-CD3:anti-CD8 (CD3,8) and anti-CD3:anti-CD4 (CD3,4) bispecific mAb (BSMAB). CD3,8 BSMAB cause selective cytolysis of CD8+ lymphocytes by bridging the CD8 molecules of target lymphocytes to the CD3 molecular complex of cytolytic T lymphocytes with concurrent activation and proliferation of residual CD3+CD4+ T lymphocytes. Similarly, CD3,4 BSMAB cause selective lysis of CD4+ lymphocytes whereas concurrently activating the residual CD3+CD8+ T cells. Small tumor fragments from four malignant melanoma and three renal cell carcinoma patients were cultured in medium containing CD3,8 + IL-2, CD3,4 + IL-2, or IL-2 alone. CD3,8 led to selective propagation of the CD4+ TIL whereas CD3,4 led to selective propagation of the CD8+ TIL from each of the tumors. The phenotypes of the TIL subset cultures were generally stable when assayed over a 1 to 3 months period and after further expansion with anti-CD3 mAb or lectins. Specific 51Cr release of labeled target cells that were bridged to the CD3 molecular complexes of TIL suggested that both CD4+ and CD8+ TIL cultures have the capacity of mediating cytolysis via their Ti/CD3 TCR complexes. In addition, both CD4+ and CD8+ TIL cultures from most patients caused substantial (greater than 20%) lysis of the NK-sensitive K562 cell line. The majority of CD4+ but not CD8+ TIL cultures also produced substantial lysis of the NK-resistant Daudi cell line. Lysis of the autologous tumor by the TIL subsets was assessed in two patients with malignant melanoma. The CD8+ TIL from one tumor demonstrated cytotoxic activity against the autologous tumor but negligible lysis of allogeneic melanoma targets. In conclusion, immunocompetent CD4+ and CD8+ TIL subsets can be isolated and expanded directly from small tumor fragments of malignant melanoma and renal cell carcinoma using BSMAB. The resultant TIL subsets can be further expanded for detailed studies or for adoptive immunotherapy.     

Anti-CD3 + IL-2-stimulated murine killer cells. In vitro generation and in vivo antitumor activity

The growth, phenotype, in vitro cytolytic characteristics, and in vivo antitumor activity of murine splenocytes stimulated with anti-murine CD3 mAb in combination with IL-2 as compared with IL-2 alone was investigated. When cultured for 12 days with anti-CD3 mAb + IL-2, murine splenocytes increased 100- to 4000-fold in number compared with only 6- to 20-fold for cultures stimulated with IL-2 alone. Anti-CD3 mAb + IL-2 activated cultures developed high lymphokine-activated killer activity against NK-resistant targets including the P815 mastocytoma cell line and fresh MCA 106 sarcoma. Peak cytotoxicity on a per cell basis developed by day 8 after anti-CD3 mAb + IL-2 activation. A large proportion of the total cytolytic activity of long term anti-CD3 mAb + IL-2-stimulated cultures was related to the presence of anti-CD3 in the assay, indicating enhancement of cytotoxicity by activated CD3+ T cells. Phenotypic analysis indicated that anti-CD3 mAb + IL-2-stimulated cultures contained heterogeneous populations of T cells with increased percentages of both CD4+ and CD8+ phenotypes compared with cultures stimulated with IL-2 alone. Anti-CD3 mAb + IL-2-stimulated cells were tested for their in vivo antitumor activity by using C57BL/6 mice bearing MCA 106 sarcoma pulmonary metastases. IL-2-activated murine killer cells were given in combination with in vivo IL-2 and indomethacin, the latter of which was shown to potentiate the antitumor effect of IL-2. When given on day 5 after tumor inoculation, cell doses as low as 5 x 10(6) anti-CD3 mAb + IL-2-stimulated cells per mouse significantly reduced the number of pulmonary metastases (p less than 0.005). Thus, activation with the combination of anti-CD3 mAb + IL-2 produces rapidly expanding cultures of cytolytic cells with demonstrated in vivo antitumor efficacy.     

Regulation by glutathione of the effect of lymphokines on differentiation of primary activated lymphocytes. Influence of glutathione on cytotoxic activity of CD3-AK-.

By activating murine lymphocytes with anti-CD3 antibodies for 1 to 2 days, we generated a subset of activated killer cells, namely CD3-AK-. CD3-AK- mediated the slow lysis (20-h 125I-UdR release assay) of allogeneic P815 but had little effect on syngeneic HFL/b cells. Addition of IL-2 (murine or human) or an IL-2 inducer such as PMA in the assay medium induced the cytolytic activity of CD3-AK- on HFL/b. The activating effect of murine IL-2 and PMA on CD3-AK- was decreased by anti-murine IL-2 mAb. Although anti-murine IL-4 mAb alone did not show any effect, it enhanced the inhibitory effect of anti-IL-2 mAb, suggesting that IL-2 and IL-4 may have a synergistic effect on the cytolytic activity of CD3-AK-. Incubation of CD3-AK- with L-buthionine-(SR)-sulfoximine (BSO), an inhibitor of de novo glutathione (GSH) synthesis, decreased cellular GSH levels and inhibited the cytolytic activity of CD3-AK-, in a concentration-dependent manner. This inhibitory effect of BSO was not primarily due to a general cytotoxic effect and was positively correlated with the requirement for IL-2 for the CD3-AK(-)-mediated killing of the target cells. Incubation of CD3-AK- with GSH or 2-ME, which increased the level of cellular GSH, reversed the inhibitory effect of BSO. These results suggest that cellular GSH may regulate the effect of lymphokine(s) such as IL-2 and thus affect the differentiation of activated primary cytotoxic lymphocytes.     

Adoptive immunotherapy of murine hepatic metastases with lymphokine activated killer (LAK) cells and recombinant interleukin 2 (RIL 2) can mediate the regression of both immunogenic and nonimmunogenic sarcomas and an adenocarcinoma

The incubation of normal murine splenocytes in recombinant interleukin 2 (RIL 2) gives rise to lymphokine-activated killer (LAK) cells that are specifically cytotoxic to fresh noncultured, autologous, syngeneic, and allogeneic primary and metastatic tumor cells, but are not toxic to normal cells. We have recently shown that the systemic injection of RIL 2 given alone or in conjunction with LAK cells can reduce the number of established pulmonary and hepatic micrometastases from a weakly immunogenic sarcoma in mice. In this report we have analyzed the response of hepatic metastases (HM) induced from both a nonimmunogenic sarcoma (MCA-102) and an adenocarcinoma (MCA-38). Treatment of mice bearing HM from the MCA-102 and MCA-38 tumors revealed that low doses of RIL 2 (5000 to 25,000 U t.i.d.) had little if any anti-tumor effect when given alone (mean percent reduction over control for the MCA-102 tumor: 14%, for the MCA-38 tumor: 10%, p, not significant). Doses of 100,000 U of RIL 2 affected a 38 and 53% reduction in the number of metastases over control for the MCA-102 and MCA-38 tumors, respectively (p less than 0.05). However, when LAK cells were added to the same doses of RIL 2, the corresponding mean percent reduction over control was 90% (p less than 0.005) and 61% (p less than 0.05) for MCA-102 and MCA-38, respectively, at RIL 2 doses of 5000 to 25,000 t.i.d. At doses of 100,000 U of RIL 2 administered with LAK cells, the corresponding percent reductions were 98 and 99%, respectively (p less than 0.005). Therapy with LAK cells plus RIL 2 can also prolong the survival of these mice. In addition, the intraportal administration of LAK cells is more effective than the i.v. administration of these cells. Thus, treatment of established HM from a nonimmunogenic sarcoma and an adenocarcinoma can be successfully mediated by the systemic infusion of LAK cells with RIL 2. These findings provide a rationale for clinical trials of infusion of LAK cells with RIL 2 in the therapy of HM in humans.     

Functional heterogeneity between NKR-P1bright/Lycopersicon esculentum lectin (L.E.)bright and NKR-P1bright/L.E.dim subpopulations of rat natural killer cells.

In this report, we present data on heterogeneity of rat NK cells utilizing a combination of antibody and lectin-binding characteristics. Among NKR-P1bright NK cells, two discrete populations characterized as Lycopersicon esculentum lectin (L.E.)bright (60 to 80%) and L.E.dim (20 to 40%) were identified by flow cytometry. Comparison of the morphology of sorted NKR-P1bright/L.E.bright and NKR-P1bright/L.E.dim cells indicated that both were greater than 90% LGL. An analysis of the functional capabilities of the sub-populations indicated that NKR-P1bright/L.E.bright NK cells were more efficient in lysis of YAC-1 target cells (1743 LU20/10(7) cells) than were NKR-P1bright/L.E.dim cells (504 LU20/10(7) cells). Conversely, NKR-P1bright/L.E.dim NK cells were much more efficient at lysis of antibody-sensitized erythrocytes (antibody-dependent cellular cytotoxicity (ADCC)) (1412 LU20/10(7) cells) than were NKR-P1bright/L.E.bright cells (165 LU20/10(7) cells). Lysis of antibody sensitized P815 target cells yielded similar results as NKR-P1bright/L.E.dim cells and NKR-P1bright/L.E.bright cells had 905 LU20/10(7) and 189 LU20/10(7), respectively. Additional experiments indicated that NKR-P1bright/L.E.bright NK cells had the capacity to trigger lytic activity via NKR-P1 whereas NKR-P1bright/L.E.dim NK cells did not. NKR-P1bright/L.E.bright sorted cells had a greater capacity to form conjugates with YAC-1 target cells than did NKR-P1bright/L.E.dim sorted cells. Conversely, NKR-P1bright/L.E.dim NK cells were demonstrated to form E-A rosettes whereas the NKR-P1bright/L.E.bright NK cells were not. Additional experiments indicated that tomato lectin itself was not responsible for the differences in reverse ADCC activity or ADCC activity among the subsets. However, lysis of YAC-1 target cells was modulated to some degree by the lectin. These data indicate that NKR-P1bright/L.E.bright and NKR-P1bright/L.E.dim subpopulations of rat NK cells have different capacities for: 1) triggering through NKR-P1; and 2) E-A rosette formation and lysis of antibody-sensitized target cells by ADCC.     

Treatment of murine B cell lymphoma with bispecific monoclonal antibodies (anti-idiotype x anti-CD3).

It has previously been reported that T lymphocytes can be targeted by using bispecific antibodies consisting of anti-target antibody and anti-CD3. In the present study, a bispecific mAb was developed by somatic hybridization of mouse hybridomas, one producing a mAb against the Id determinant of the mouse B cell lymphoma 38C13 and the other a mAb against a polymorphic determinant on murine CD3. The bispecific antibody, anti-38C13 x anti-CD3, is bi-isotypic (IgG1 x IgG2a) and was purified by ion exchange and affinity chromatography. The dual specificity of the hybrid hybridoma-produced mAb could be demonstrated by flow cytometry, the induction of T cell proliferation, the induction of IL-2 secretion by polyclonal T cells, and redirected lysis of the relevant target cells. The hybrid (bi-isotypic) Fc part of the bispecific antibodies was nonfunctional in FcR-dependent redirected lysis. In vivo studies demonstrate that this bispecific mAb could efficiently target T cells towards the tumor cells, resulting in long term survival and cure of the lymphoma.     

Anti-CD3 and phorbol myristate acetate regulation of MHC unrestricted T cell cytotoxicity. Lack of a requirement for CD3/T cell receptor complex expression during tumor cell lysis

The effects of anti-CD3 mAb on MHC-unrestricted cytotoxic activity of NK depleted PHA-activated human T cells were examined. Anti-CD3 mAb had variable effects on killing of K562 or Daudi targets. Whereas lower concentrations of OKT3 often inhibited lysis of either target, higher concentrations (greater than 1 micrograms/ml) frequently increased K562 killing and always augmented Daudi lysis. However, lysis of the renal cell carcinoma, Cur, was consistently inhibited by OKT3 over a broad concentration range. Such variable effects were not related to differential regulation of heterogeneous subsets of effector cells, as similar patterns of OKT3-mediated modulation of tumor cell lysis by T cell clones was also observed. Another IgG2a anti-CD3 mAb, 64.1, and either F(ab')2 fragments of OKT3 or intact OKT3 in the presence of aggregated human Ig were found to inhibit lysis of Cur, K562, and Daudi targets consistently. Additional experiments were carried out to determine whether modulation of CD3 accounted for the inhibitory effects of the anti-CD3 mAb. PMA was noted to cause modulation of CD3 from the surface of PHA or alloantigen-activated T cells, and the combination of anti-CD3 and PMA caused even more marked modulation of CD3. Whereas preincubation with PMA and/or anti-CD3 decreased alloantigen-specific cytotoxic T cell function in relative proportion to the loss of CD3 expression, no consistent relationship between CD3 expression and the capacity of PHA-activated T cells to kill Cur targets was noted. PMA alone caused no consistent alteration of Cur lysis. Moreover, in the presence of PMA, anti-CD3 mAb caused no significant inhibitory effect on Cur lysis, in spite of increased modulation and in some cases virtual total loss of surface CD3 expression. These findings indicate that when FcR interactions are prevented, anti-CD3 mAb consistently inhibit MHC-unrestricted cytotoxicity by PHA-activated T cells. Despite this, the data support the conclusion that CD3/TCR complex interactions with target cells are not required for either target cell recognition or triggering of lysis by MHC-unrestricted cytotoxic T cells.     

Temperature requirements and kinetics of T cell signaling. Velocity of triggering correlates with functional effects of anti-CD3 mAb

Antibody reactive with the CD3 complex on the surface of T lymphocytes can either: inhibit CTL lysis of target cells expressing Ag; or redirect CTL to lyse target cells expressing FcR in the absence of Ag expression. To investigate these phenomena we examined the effect of anti-CD3 mAb on two indicators of CTL activation, the release of esterase and target cell lysis. Esterase release by long term allo-reactive human CTL in response to target cells (JY or HLA transfected K562 cells) was found to be Ag specific and correlate with target cell lysis. Addition of anti-CD3 to either JY targets or K562 cells expressing FcR resulted in a high level of esterase release. Triggering of esterase release was found with both soluble intact and Fab fragment of anti-CD3 in the absence of cells expressing measurable FcR. This apparent FcR-independent triggering of esterase release occurred at 37 degrees C but not at 24 degrees C. In contrast esterase activity was released from CTL at both 24 and 37 degrees C in response to intact target cells, JY or K562 cells plus intact anti-CD3 mAb. Addition of anti-CD3 mAb, at a level capable of blocking target cell lysis by greater than 50%, resulted in an initial velocity of esterase release almost twice that found in response to JY target cells. With a low level of anti-CD3 mAb, able to block JY lysis by approximately 10%, the initial rate of esterase release was much slower than that found in response to target cells. In contrast when FcR+ cells, K562, were added along with a low level of anti-CD3 the initial velocity of esterase release was about twofold more than the velocity of esterase release triggered by soluble anti-CD3 alone. These results indicate that soluble antibody can trigger long term active CTL and the velocity of this triggering correlates with anti-CD3-mediated inhibition as well as redirected lysis.     

The adhesion of anti-CD3-activated mouse T cells to syngeneic colon adenocarcinoma cells is differentially regulated by protein tyrosine kinase-, protein kinase C-, and cAMP-dependent pathways in the effector cell

The adhesion of anti-CD3-activated mouse T cells (AK-T cells) to syngeneic colon adenocarcinoma (MCA-38) cells is mediated principally through the integrin VLA-4 (alpha4beta1). We investigated the signalling pathways through which this adhesive interaction might be regulated. The protein tyrosine kinase inhibitors genistein and methyl 2,5-dihydroxycinnamate (MDHC) markedly inhibited the adhesion of AK-T cells to MCA-38 cells. Furthermore, pretreatment of the AK-T cells alone (but not the MCA-38 targets) with MDHC inhibited adhesion to a comparable extent as when MDHC was present during the assay. Calphostin C, an inhibitor of protein kinase C, also inhibited the adhesion of AK-T cells to MCA-38 monolayers. However, the phosphatidylinositol 3-kinase inhibitor wortmannin failed to alter AK-T cell adhesion to MCA-38 tumour cells. Inhibition of protein kinase A with the Rp diastereomer of adenosine cyclic 3',5'-phosphorothioate had no effect on adhesion, but the adenylyl cyclase activator forskolin and the cell-permeable cAMP analogues 8-Br-cAMP and dibutyryl-cAMP significantly suppressed adhesion. Pretreatment of AK-T cells alone with forskolin also inhibited adhesion. The adhesion of AK-T cells to MCA-38 tumour targets is therefore promoted by protein tyrosine kinases and protein kinase C, but inhibited by cAMP-dependent pathways, and the predominant location of the regulatory pathways is within the effector cell.     

Analysis of rat natural killer cytotoxic factor (NKCF) produced by rat NK cell lines and the production of a murine monoclonal antibody that neutralizes NKCF

Natural killer cytotoxic factor (NKCF) is produced as a result of the interaction of murine, rat, or human natural killer (NK) cells with NK-susceptible targets. This factor has been linked to the target cell lysis mediated by the NK effector cell. In the present results, culture supernatants from rat large granular lymphocyte (LGL) tumors exhibited NKCF activity which lysed the susceptible targets, MBL-2 and YAC-1. NKCF production from these rat tumor lines was spontaneous and was not significantly increased by co-incubation of the LGL tumors with target cells, target cell membranes, or by preincubation of the LGL tumor cells with interferon or interleukin 2. In addition to NKCF activity, the supernatants lysed L929, indicating the presence of tumor necrosis factor (TNF) in these preparations. The presence of this latter cytokine was verified using specific antibodies to recombinant murine TNF which neutralized the L929 activity while not affecting the NKCF activity against MBL-2 or YAC-1. Mouse monoclonal antibodies (mAb) A0287, A0462, and A0316) which significantly inhibit the NKCF cytolytic activity of these LGL-derived supernatants were also produced. These antibodies were shown to cross-react with human NKCF in a manner similar to that seen in the rat. Interestingly these same mAb demonstrated no inhibition of L929 cytotoxicity from either LGL-derived supernatants or by recombinant murine or human TNF. To examine further the specificity of these antibodies, they were chemically linked to Sepharose 4B and found to remove a significant proportion of the NKCF cytolytic activity from LGL supernatants, while not affecting the TNF reactivities in these preparations. In addition, these antibodies demonstrated significant inhibition of cell-mediated cytotoxicity by rat LGL against YAC-1 target cells. Biochemical analysis of labeled NKCF-containing supernatants indicated the major protein recognized by these anti-NKCF mAb to be approximately 12,000 m.w. The use of these mAb against NKCF should be very useful in further purification and biochemical characterization of NKCF and in studying its role in a variety of cell-mediated cytotoxicity assays.     

Studies on the anti-tumor efficacy of systemically administered recombinant tumor necrosis factor against several murine tumors in vivo

The anti-tumor activity of recombinant human tumor necrosis factor (rHTNF) was examined against four newly induced murine sarcomas (MCA-101, -102, -105, and -106) and a murine adenocarcinoma (MCA-38) transplanted s.c. into C57BL/6 mice. The serum half-life after a single i.v. injection of rHTNF was determined to be 30 +/- 2 min. Tumor-bearing mice were more susceptible to the toxic side effects of rHTNF than were normal mice. Forty-eight percent (41/86) of tumor bearing animals that received 10 micrograms rHTNF died within 48 hr after treatment compared with no deaths in 28 normal animals receiving this dose. Treatment of mice bearing either the MCA-101, -102, -105, or -106 sarcoma or the MCA-38 adenocarcinoma with rHTNF resulted in a marked necrosis of the central portion of each tumor within 24 hr. Animals bearing the weakly immunogenic tumors MCA-105, -106, and -38 experienced a reduction in average tumor area of 47% +/- 5, 46% +/- 6, and 37% +/- 11, respectively, by 3 to 4 days after treatment with rHTNF compared with pre-treatment values (p less than 0.001); increases of 79% +/- 11, 74% +/- 10, and 41% +/- 6 were seen in excipient-treated control animals over the same period. In contrast, animals bearing the non-immunogenic tumors MCA-101 and -102 experienced little if any decrease in tumor area at the doses of rHTNF used. rHTNF failed to mediate cures in animals bearing MCA-38, -101, or -102. In contrast, 67 and 28% of animals bearing MCA-105 and -106, respectively, which received 6 to 10 micrograms rHTNF were cured. Likewise, animals bearing MCA-105 and -106 sarcomas treated with 6 to 10 micrograms rHTNF had significantly increased survival compared with excipient-treated control animals. In contrast, no significant difference in mean survival was observed between excipient and rHTNF treated animals bearing MCA-38, -101, or -102. Histologically, the necrotic response of immunogenic MCA-106 and non-immunogenic MCA-102 tumors to systemically administered rHTNF was very similar. These two tumors differed morphologically, however, by the greater degree of chronic inflammation that was present at the periphery of the MCA-106 tumor in comparison with the MCA-102. By 72 hr after rHTNF administration, the sites of regressed MCA-106 tumors were replaced by a heterogeneous population of inflammatory cells and tumor cell "ghosts".(ABSTRACT TRUNCATED AT 400 WORDS)     

Inhibition of cytotoxic T cell lysis by anti-CD8 monoclonal antibodies: studies with CD3-targeted cytolysis of nominal antigen-negative targets

The function of the CD8 molecule in lympholysis mediated by cytotoxic T cells was investigated by examining possible contributions of ligands on the target cell to the inhibition of lysis observed with CD8-specific mAb. In order to evaluate a variety of target cells, including those not expressing the nominal Ag (NA) for which the CTL was specific, lysis was effected by cross-linking the CTL and the target cells with anti-CD3 mAb. Such CD3 redirected cytotoxicity was demonstrated to be inhibited by anti-CD8 mAb when low anti-CD3 mAb concentrations were used. The possibility that inhibition by anti-CD8 mAb resulted for competition for the FcR between the anti-CD3 mAb and anti-CD8 mAb was eliminated by targeting TNP-modified cells with an antibody heteroconjugate prepared from Fab fragments of anti-CD3 and anti-DNP antibodies. Inhibition of the lysis of target cells not expressing NA including those deficient in class I expression, demonstrated that neither NA nor class I expression was required for anti-CD8 mAb inhibition. Whether the anti-CD8 mAb inhibition required CD8 Ag interaction with any ligand on the target cell was further investigated by measuring exocytosis of enzyme granule from CTL activated with CD3-coated poly-styrene beads. CD8-specific mAb inhibited such CTL activation in this target cell-free system. A CD8(+), MHC class II-specific CTL clone, was used to show differential inhibition by anti-CD8 mAb, depending on the target cell, therefore providing evidence that anti-CD8 mAb binding does not generate an absolute off signal. These data are consistent with the hypothesis that anti-CD8 mAb affect the lytic process independent of the recognition of a ligand on the target cell by CD8.     

The direct effect of IL-12 on tumor cells: IL-12 acts directly on tumor cells to activate NF-kappaB and enhance IFN-gamma-mediated STAT1 phosphorylation

IL-12 directly acts on T cells and NK cells to induce IFN-gamma production. IFN-gamma plays an important role in anti-tumor effect of IL-12. In spite of various functions of IL-12 on immunocytes, the direct effect of IL-12 on tumor cells has not been fully clarified. The present study investigated the direct effect of IL-12 on eight murine tumor cell lines in vitro. IL-12 did not directly up-regulate expression of MHC class I on tumor cells, but enhanced IFN-gamma-induced up-regulation of MHC class I expression in MC-38, MCA102, MCA205 and MCA207 cells. IL-12 alone did not activate STAT1, but IL-12 enhanced IFN-gamma-mediated STAT1 phosphorylation in MC-38, MCA102, MCA205, MCA207 and Colon-26-NL-17 cells, which expressed IL-12 receptor beta1 mRNA. In the other side, Panc-02, B16-BL6 and 266-6 cells were not affected by IL-12, in which expression of IL-12 receptor beta1 mRNA was not detected. Anti-IL-12 mAb inhibited the direct effect of IL-12 on MC-38 cells. Moreover, nuclear localization of NF-kappaB was observed after stimulation of IL-12 or IL-12 p40 in MC-38 and Colon-26-NL-17 cells, but not in Panc-02 cells. These findings suggest that IL-12 directly acts on tumor cells through IL-12 receptor beta1 to activate NF-kappaB and enhance IFN-gamma-mediated STAT1 phosphorylation.     

Heteroconjugate antibody-directed killing of autologous human renal carcinoma cells by in vitro-activated lymphocytes

Tumor cell lysis can be enhanced significantly in vitro when heteroconjugate (HC) antibodies (anti-CD3 x anti-tumor mAb) are used to specifically direct lymphocyte effector cells to the tumor cell target. In order to effectively utilize HC antibodies in an immunotherapy protocol, methods must be identified for the optimum expansion, activation, and retargeting of lymphocyte-effector populations from cancer patients. In this study, we have compared the proliferative responses of different normal and renal cell carcinoma (RCC) patient lymphocyte preparations (PBL, tumor-infiltrating lymphocytes) stimulated in vitro for periods up to 12 days with a variety of growth factor combinations (anti-CD3, rIL-2, rIL-4). These activated lymphocyte preparations were then tested in vitro for their ability to kill RCC tumor cells and tumor cell lines in the presence of HC preparations (anti-CD3 mAb covalently linked to mAb reactive to different RCC tumor-associated Ag). RCC patient PBL cultured with anti-CD3 plus rIL-2 for 12 days resulted in a 3- to 160-fold expansion of effector cells. These cells, as well as tumor infiltrating lymphocytes, when retargeted with appropriate HC antibodies were capable of mediating high levels of killing of autologous tumor cells. No constitutive autologous anti-tumor cell response was detected in the absence of added HC antibodies. Of the five anti-RCC mAb tested (A6H, K29, K20, UR07, and URO 3), HC containing URO 3 x anti-CD3 and K20 x anti-CD3 elicited the highest level of tumor cell lysis by the activated lymphocyte effector cells. Together these results demonstrate that HC antibodies may be a useful imunotherapeutic reagent for directing the killing of RCC tumor cells by autologous lymphocytes.     

Characterization of the T cell-mediated cellular cytotoxicity during acute infectious mononucleosis

Primary infection with EBV during acute infectious mononucleosis (IM) is associated with a cytotoxic response against allogeneic target cells. C depletion with anti-CD3 (OKT3) and anti-CD8 (OKT8) mAb decreased the allogeneic cytolysis of two EBV-infected lymphoblastoid cell lines (LCL) by 96% and 89%, respectively. Complement depletion with the NK cell-specific mAb Leu-11b and NKH-1a resulted in only a slight decrease (less than 35%) in the lysis of these LCL. mAb inhibition studies with OKT3 and OKT8 inhibited the allogeneic lysis of two LCL by 87% and 82%, respectively. The alloreactive cytotoxic response was strongly inhibited by mAb specific for MHC class I determinants (W6/32, 65% inhibition and BBM.1, 58% inhibition). Acute IM lymphocytes lysed the allogeneic EBV-negative cell lines HSB2 (45%) and HTLV-1 T cell lines (16%). NK cell-depleted lymphocytes from an acute IM patient demonstrated preferential lysis of K562 transfected with human HLA-A2 (73%) compared with the K562 transfected control (20%). Cold target competition studies with allogeneic and autologous target and competitor LCL demonstrated no significant competitive inhibition between allogeneic and autologous cells. We interpret these results as evidence that 1) the acute IM-alloreactive cytotoxic response is mediated primarily by CTL; 2) these alloreactive CTL lyse allogeneic target cells irrespective of EBV antigenic expression; 3) MHC class I expression is sufficient for allogeneic recognition and lysis of target cells; 4) distinct effector CTL populations mediate lysis of autologous and allogeneic target cells; and 5) during acute IM, EBV infection results in the induction of both virus-specific and alloreactive CTL populations.     

Efficient expansion of tumor-infiltrating lymphocytes from solid tumors by stimulation with combined CD3 and CD28 monoclonal antibodies

Combined CD3 and CD28 monoclonal antibodies (mAb) may initiate efficient activation and expansion of tumor-infiltrating lymphocytes (TIL). In this study we compared phenotypical and functional characteristics of TIL from a group of 17 solid human tumors, stimulated either by high-dose recombinant interleukin 2 (rIL-2, 1000 IU/ml) or by a combination of anti-CD3 and anti-CD28 monoclonal antibodies in the presence of low-dose rIL-2 (10 IU/ml). Compared to activation with high-dose rIL-2, stimulation of TIL with CD3/CD28 mAb induced significantly stronger proliferation and yielded higher levels of cell recovery on day 14. Following the CD3/CD28 protocol, expansion of an almost pure population of CD3⁺ cells was obtained. Whereas CD4⁺ cells dominated in the first week of culturing, within 4 weeks the CD8⁺ population increased to over 90%. The specific capacity to kill autologous tumor cells was not increased as compared to the high-dose rIL-2 protocol, but all cultures showed high cytotoxic T cell activity as measured in a CD3-mAb-mediated redirected kill assay. These studies show that combined CD3 and CD28 mAb are superior to rIL-2 with respect to the initiation of expansion of CD8⁺ cytolytic TIL from solid tumors. Stimulation with specific tumor antigens at a later stage of culturing may further augment the expansion of tumor-specific cytolytic T cells.