The in vivo depletion of V beta 17a+ T cells results in the inhibition of reticulum cell sarcoma growth in SJL/J mice. Evidence for the use of anticlonotypic antibody therapy in the control of malignancy

Previous findings revealed that reticulum cell sarcoma (RCS) of SJL/J mice growth and survival depended on its ability to stimulate a potent host T cell response, by the means of a tumor-associated class II MHC molecule with IE-like specificities. Previously we presented evidence that the V beta 17a TCR+ clonotype of T cell was the predominant T cell involved in the host response to the tumor. We undertook our study to examine whether the depletion of the V beta 17a+ T cells, by the use of the anticlonotypic antibody, KJ23a, resulted in the inhibition of RCS tumor growth in vivo. We present evidence herein that supports this hypothesis. KJ23a-treated mice exhibited a complete reduction in T cells bearing the V beta 17a TCR. These mice exhibited a dramatic reduction in the in vitro proliferative response to RCS. Furthermore, the pretreatment of SJL/J mice with KJ23a mAb resulted in the complete loss in their ability to harbor RCS tumor. When tumor-bearing mice were treated with a single inoculum of KJ23a mAb within the first 7 days after the passage of tumor, the mice showed long term survival with diminishing tumor burden. These results demonstrated that the V beta 17a clonotype of T cells is required for the growth and maintenance of RCS tumor. Within the first 6 wk after tumor inoculation KJ23a-treated mice were capable of transferring tumor to naive syngeneic recipient mice despite the obvious lack of tumor growth in the treated donor animal. These results suggested that RCS tumors in the absence of V beta 17a+ T cells can persist for up to 6 wk in a state of "tumor dormancy." The predominant usage of the V beta 17a gene in RCS-specific T cells suggests that these T cells play an important role in the pathogenesis of RCS tumor. Furthermore, the positive therapeutic course taken by tumor-bearing mice upon the treatment with KJ23a mAb, demonstrates the enormous potential in anticlonotypic antibody therapy in the treatment of T cell-dependent tumors and diseases.     

Characterization and growth factor requirements of SJL lymphomas. I. Development of a B cell growth factor-dependent in vitro cell line, cRCS-X

Reticulum cell sarcomas (RCS) of SJL mice are completely dependent on host cells for their growth and therefore fail to grow in vitro. RCS cells induce marked proliferation in SJL Ly-1+2- T cells accompanied by lymphokine production. In an attempt to fully understand the host-tumor cell interaction, an RCS cell line, cRCS-X, was established in vitro from a transplantable tumor by the addition, every 3 wk, of gamma-irradiated syngeneic lymph node (LN) cells to the culture. cRCS-X maintains all of the characteristics of the parent tumor, RCS-X, including cell surface phenotype (Ks and I-As positive, Ds negative and B cell marker 14.8 positive), ability to stimulate host T cells, and ability to grow in nonirradiated but not in gamma-irradiated SJL mice. The growth factor requirements of cRCS-X were examined. It was found that human BCGF can replace gamma-irradiated LN cells in the maintenance of long term in vitro growth of cRCS-X. cRCS-X cells respond to human B cell growth factor (BCGF) or to recombinant murine interleukin (IL)-5 in a short term proliferation assay [( 3H]thymidine incorporation) in a dose-dependent manner in the presence and absence of fetal calf serum. BCGF also promotes colony formation in soft agar by cRCS-X cells. Although both IL-1 and interferon-gamma can synergize with BCGF in the induction of cRCS-X proliferation, these lymphokines, as well as IL-2, IL-3, granulocyte-macrophage colony-stimulating factor, and IL-4 have no effect on cRCS-X growth when added alone. In addition, it was shown that SJL LN cells produce both IL-4 and BCGF II activities as assayed on murine B cells, after stimulation with gamma-irradiated cRCS-X cells. In light of these results it is postulated that IL-5, [corrected] produced by syngeneic T cells [corrected] after stimulation with RCS, is essential for RCS growth, both in vitro and in vivo.     

T-helper-cell-specific monoclonal antibody inhibits growth of B-cell lymphomas in syngeneic SJL/J mice

Transplantable follicular center cell lymphomas of SJL/J mice are B-cell tumors that stimulate proliferation of host T-helper (TH) cells and which grow progressively in the peripheral lymphoid tissues of immunocompetent recipients. However, tumor growth is compromised in immunosuppressed syngeneic recipients, suggesting that the host response to SJL follicular center cell (SJL/FCC) lymphoma cells is required for optimal tumor growth. In vitro studies indicate that the host TH cells (Lyt-1+, 2-, L3T4a+) which respond to the major histocompatibility complex (MHC) class II (I-As) surface determinants on the SJL/FCC lymphoma cells produce a variety of lymphokines, some of which may promote tumor growth in vivo. The results of this study demonstrate that treatment of lymphoma-injected mice with L3T4a-specific mAb inhibits the growth of the SJL/FCC lymphoma cells, despite the fact that these tumor cells do not express L3T4a determinants. Thus, in this model, mAb therapy targeting host immune cells rather than the tumor cells is an effective means to control tumor growth. Long-term observation of SJL/FCC lymphoma-injected, anti-L3T4a mAb-treated mice reveals prolonged survival of the majority of these animals with periodic recurrence of tumor growth. During periods of remission, LN cells from these long-term surviving animals were unable to mount the characteristic in vitro host response to irradiated SJL/FCC lymphoma cells. These results provide direct evidence that SJL/FCC lymphoma cells fail to retain their characteristic neoplastic properties in a microenvironment that is initially devoid of tumor-responsive TH cells.     

Mechanism of tumor rejection in anti-CD3 monoclonal antibody-treated mice

The present study was undertaken to determine the mechanism of tumor rejection in mice treated with low dose anti-CD3 mAb. It was found that treated mice developed nonrestricted antitumor cytolytic spleen cells of the Thy-1+, asialo GM-1+, CD4-, CD8- phenotype. Although these cells might play a role in immunopotentiating some immune responses, in vivo depletion studies using anti-asialo GM-1 mAb demonstrated that these cells were not involved in the rejection of the progressor tumor, 1591-PRO4L, by anti-CD3 mAb-treated mice. Mice treated with anti-CD3 did develop lasting tumor specific immunity as demonstrated by their ability to reject PRO4L on tumor rechallenge while being unable to reject an unrelated UV-induced tumor. The specificity of this memory implicated T cells in the response to PRO4L in anti-CD3-treated mice. Using in vivo T cell subset depletion of anti-CD3-treated animals, it was shown that both CD4+ and CD8+ T cells are required for anti-CD3-induced tumor rejection. The CD4+ cells provide helper function and are only required in the early rejection period, whereas CD8+ cells are required throughout the immune response. In fact, examination of rejecting tumors from treated animals revealed the presence of tumor-specific CD8+ cytolytic T cells capable of cytolysis immediately after removal from the rejecting PRO4L tumor. Thus, in vivo treatment with anti-CD3 mAb likely results in the pan-stimulation of the entire T cell population, which enhances the generation of specific CD8+ T cells, which then eliminate the tumor.     

Mapping of SJL/J reticulum cell sarcoma tumor-associated Ia antigens by T cell hybridomas: characterization of tumor-specific and shared epitopes detected on IE+ allogeneic cells

Previous studies have suggested that reticulum cell sarcoma (RCS) tumor cells of SJL/J (IA + IE-) mice express neospecificities that are related to antigenic specificities characteristic of IE+ allogeneic cells. These neospecificities have also been suggested to play a role in the strong syngeneic antitumor proliferative response as well as in regulating RCS growth in vivo. The present studies characterize four RCS tumor-specific T cell hybridoma clones prepared from the fusion of BW5147 thymoma with T cells derived from lymph nodes of tumor-bearing mice. Upon stimulation, these hybridomas secrete IL 2 in the supernatant. Two hybridomas responded to RCS to IE+k and to IE+d allogeneic cells, respectively, and the other two hybridomas were tumor specific. The specificity of these hybridomas was assessed by response to both spontaneous and transplantable RCS lines and failure to stimulate a response by either normal or LPS-induced B cell blasts from the host SJL/J cells. The epitopes recognized by the T cell hybridomas were examined by the ability of several monoclonal antibodies to inhibit the IL 2-induced response by the T cell hybridomas. Antibodies directed against the IABs polypeptide of the IA hybrid molecule blocked the antitumor response by all four hybridomas. However, the response to allogeneic IE+ cells was not blocked by anti-IAs antibody but was blocked by antibodies directed against either the IAk,d or IEk,d hybrid molecules or the corresponding alpha- or beta-chains. The response to both RCS and allogeneic cells was blocked by monoclonal antibodies directed against L3T4 antigens on the T cells. Based on the exquisite specificity of the T cell receptors, the results here demonstrate that RCS tumor cells express on their surface both tumor-specific I-A-associated epitopes and Ia-associated antigenic specificities that are shared with IE+ allogeneic cells. The present studies of adapting T cell hybridomas and blocking antibodies proved useful to characterize and map distinct tumor-associated epitopes on the surface of tumor cells. These findings, when combined with structural studies, should help unravel the molecular complexity of tumor-associated antigens.     

Opsonization of tumor-reactive T cells in SJL/J mice bearing syngeneic tumors

Summary The role of antigen-reactive cell opsonization (ARCO) in a syngeneic tumor system and its effect on tumor progression was investigated. Thus, anti-tumor reactive T cells were prepared in vivo by immunization of normal SJL/J mice with mitomycin C-inactivated tumor cells of the syngeneic transplantable reticulum cell sarcoma (RCS) line LA-6. Dividing cells were subsequently labeled by injecting iodo-2-deoxyuridine (¹²⁵IUdR) into the same animals 3 days later. Antigen-reactive cells (*ARC) present in the radiolabeled, nylon wool-fractionated spleen cell population taken from these mice on day 4 and injected IV into syngeneic SJL/J mice bearing LA-6 tumors were diverted to the liver and away from the spleen. The effect was maximal by 8 days following inoculation of tumor cells, and was specific inasmuch as ¹²⁵IUdR-labeled cells prepared by immunization with allogeneic spleen or tumor cells which were not opsonized in day-8 LA-6 tumor-bearing mice. Opsonization of *ARC in day-8 LA-6 tumor-bearing mice was completely abrogated by either prior injection of heat-aggregated immunoglobulin into the mice or preincubation of the *ARC in solubilized tumor antigen before injection into tumor-bearing mice, demonstrating the involvement of Fc receptors in the host and antigen-specific receptors on the *ARC, respectively, in the opsonizing process. When anti-LA-6 reactive T cells were incubated in serum from LA-6 tumor-bearing mice and then injected IV into normal syngeneic SJL/J mice, a similar liver diversion was observed. Serum from cyclophosphamide-pretreated mice injected with LA-6 or serum from mice given mitomycin C-inactivated LA-6 cells did not cause opsonization of tumor-reactive T cells, while a mixture of these two sera did have some *ARC opsonizing activity. Further experiments with SJL/J mice bearing spontaneous RCS tumor indicate that tumor-reactive T cells are also opsonized in these mice. The above studies and others suggested that ARCO may play an important role in vivo in the survival of tumors. Abbreviations used in this paper are: ARC, antigen-reactive cells; ARC, radiolabeled antigen-reactive cells; ARCO, antigen-reactive cell opsonization; LA-6 tumor line derived in our laboratory; L.I., localization index; PEG, polyethylene glycol; RCS, reticulum cell sarcoma; STA, soluble tumor antigen; TBS, tumor-bearer serum     

Proliferative responses of T cells from SJL----F1 and F1----SJL bone marrow chimeras to SJL lymphoma cells

RCS tumor cells induce marked proliferation of syngeneic SJL T cells in vivo and in vitro. Certain F1 hybrids of SJL mice give high proliferative responses to gamma-RCS, while other F1 hybrids give low responses. SJL----"non-responder" F1 and "non-responder" F1----SJL semiallogeneic bone marrow chimeras were prepared to study how the host environment affects the ability of T cells to give a proliferative response to gamma-RCS. The results indicate that T cells educated in an SJL host become responsive to RCS cells, while T cells educated in an (SJL X BALB/c)F1 host become unresponsive. This finding applies to both thymus and lymph node T cells. The unresponsiveness in F1 mice is not due to suppressor cells, since added F1 cells do not affect the proliferative response of SJL cells to gamma-RCS. Instead, it appears that RCS-specific T cells are either deleted in (SJL X BALB/c)F1 mice, or expanded in SJL mice as they develop. These findings are discussed in relation to the specificity of the responding T cells, for LPS activated syngeneic B cell blasts as well as RCS cells, and to the presence of a "leaky" thymus barrier in SJL mice for B cells.     

The immunotherapeutic effects in tumor-bearing mice of Ly-6 monoclonal antibodies

In vivo administration of Ly-6 mAb which recognize lymphoid differentiation Ag encoded for by the Ly-6 gene complex were found to have significant beneficial immunotherapeutic effects in tumor-bearing mice. The effectiveness of the mAb treatment in mice bearing sarcomas, leukemias, or melanomas was dependent on the host and not the tumor Ly-6 phenotype. The treatment was effective in nu/nu mice, although a more pronounced inhibition of tumor growth occurred in immunocompetent mice. The effectiveness of the therapy in immunocompetent mice was dependent on the dose of mAb and was influenced by the immunogenicity of the tumor. It ranged from significant growth inhibition of weakly immunogenic tumors to complete rejection of strongly immunogenic tumors. The results of cell-mediated cytotoxic assays of splenocytes from mAb-treated mice indicated that Ly-6 mAb treatment induced and/or augmented tumor-specific CTL as well as NK cell activity in these mice. Ly-6 mAb treatment represents a novel method for tumor immunotherapy using mAb recognizing lymphoid differentiation Ag with functional activities.     

Specific lymphocyte-target cell conjugate formation between tumor-specific helper T-cell hybridomas and IA-bearing RCS tumors and IE-bearing allogeneic cells. I. Role of Ia and both L3T4 and LFA-1 antigens in recognition/binding

The studies reported here describe the feasibility of using single cell techniques with nonadherent target cells for the formation of T helper lymphocyte-target cell conjugates in an Ia recognition system. We have taken advantage of four tumor-specific T cell hybridomas lines, two of which respond only to IA-bearing RCS tumor cells of SJL/J (H-2s) origin, and the other two that respond to both RCS and IA- or IE-bearing allogeneic cells of H-2k,d haplotypes. The conjugate frequency between the T cell hybridomas and target cells was scored microscopically and was facilitated by labeling the lymphocyte with fluorescein. The frequency of conjugate formation ranged from 20 to 40% above background. Conjugate formation was antigen specific and correlated well with the hybridoma specificity determined by IL 2 responses after antigenic stimulation. The cross-reactive hybridomas formed conjugates with RCS and LPS blasts derived from CBA or DBA/2 origin, but not with cells of syngeneic or other allogeneic strains. Conjugate formation with RCS was inhibited greater than 50% with mAb directed against IAs determinants on the RCS tumor cells, and conjugate formation with allogeneic cells was blocked only with mAb directed to either IA/IEk or IA/IEd specificities directed against the alpha or beta polypeptide chain. Blocking of conjugate formation was also achieved by various mAb directed against surface membrane molecules associated with the T cell hybridomas. LFA-1 mAb inhibited significantly the formation of conjugates. However, L3T4 mAb blocked only partially the conjugates. Other antibodies directed against Lyt-1 or Thy-1.2 antigens were without blocking effect. The poor blocking observed with L3T4 mAb did not correlate with the almost complete blocking observed in the IL 2 response by the same hybridomas. These studies of the syngeneic anti-RCS tumor response directed against IA-bearing RCS showed that the conjugate assay permits mapping of tumor-associated Ia epitopes. In addition, the results of these studies demonstrate the feasibility of conjugate formation in determining the antigenic specificity of the T helper system. This assay system can be used to establish the minimal frequency of antigen-reactive cells and can divide the T helper response into multiple steps (i.e., recognition/binding, activation, proliferation, and lymphokine release) and determine the surface membrane molecules involved in recognition.     

Innate memory phenotype CD4+ T cells play a role in early protection against infection by Listeria monocytogenes in a CD30L-dependent manner

CD30 ligand (CD30L, CD153) is a type II membrane-associated glycoprotein belonging to the tumor necrosis factor family. It is shown here that CD30L knock out (KO) mice are highly susceptible to primary infection with Listeria monocytogenes as assessed by the survival rate. There were significantly more bacteria on day 3 after infection in the peritoneal cavity, spleen and liver of CD30LKO mice than in wild type (WT) mice. The innate function of memory phenotype (MP) CD44+ CD4+ T cells for interferon-gamma production was significantly lower in CD30LKO mice than in WT mice in response to interleukin (IL)-12 and IL-15 in vitro. Depletion of CD4+ T cells by in vivo administration of anti-CD4 mAb at an early stage after infection hampered protection against Listeria. Furthermore, in vivo administration of agonistic anti-CD30 mAb restored protection against Listeria in CD30LKO mice, whereas treatment with soluble mCD30-Ig hampered protection in WT mice. Taken together, it appears that CD30L/CD30 signaling plays an important role in innate MPCD4+ T cell-mediated protection against infection with L. monocytogenes.     

Mirtazapine inhibits tumor growth via immune response and serotonergic system

To study the tumor inhibition effect of mirtazapine, a drug for patients with depression, CT26/luc colon carcinoma-bearing animal model was used. BALB/c mice were randomly divided into six groups: two groups without tumors, i.e. wild-type (no drug) and drug (mirtazapine), and four groups with tumors, i.e. never (no drug), always (pre-drug, i.e. drug treatment before tumor inoculation and throughout the experiment), concurrent (simultaneously tumor inoculation and drug treatment throughout the experiment), and after (post-drug, i.e. drug treatment after tumor inoculation and throughout the experiment). The "psychiatric" conditions of mice were observed from the immobility time with tail suspension and spontaneous motor activity post tumor inoculation. Significant increase of serum interleukin-12 (sIL-12) and the inhibition of tumor growth were found in mirtazapine-treated mice (always, concurrent, and after) as compared with that of never. In addition, interferon-γ level and immunocompetent infiltrating CD4+/CD8+ T cells in the tumors of mirtazapine-treated, tumor-bearing mice were significantly higher as compared with that of never. Tumor necrosis factor-α (TNF-α) expressions, on the contrary, are decreased in the mirtazapine-treated, tumor-bearing mice as compared with that of never. Ex vivo autoradiography with [(123)I]ADAM, a radiopharmaceutical for serotonin transporter, also confirms the similar results. Notably, better survival rates and intervals were also found in mirtazapine-treated mice. These findings, however, were not observed in the immunodeficient mice. Our results suggest that tumor growth inhibition by mirtazapine in CT26/luc colon carcinoma-bearing mice may be due to the alteration of the tumor microenvironment, which involves the activation of the immune response and the recovery of serotonin level.     

Interleukin-2 inhibits proliferation of HPV-associated tumor cells and halts tumor growth in vivo

Previous studies have shown inhibition of cervical cancer cell growth by treatment with high concentrations of IL-2. In the present study, we evaluated the in vitro and in vivo effects of recombinant human IL-2 on HPV-associated tumor cells (3T3-16). Treatment of 3T3-16 cells with rhIL-2 for 72 h inhibited cell growth in a dose-dependent manner and this effect was evidenced at nanomolar concentrations. These tumor cells expressed mRNA for beta and gamma subunits of the IL-2 receptor, which are required for signal transduction. In experiments to explore the effect of IL-2 on the growth of the HPV-associated tumor, mice received rhIL-2 through different routes: (i) intraperitoneal; (ii) subcutaneous, at the tumor inoculation site; or (iii) subcutaneous, distant from the tumor inoculation site. An effective antitumor response was observed only in those animals that received IL-2 at the tumor site (P<0.01). These results indicate the potential adequacy of therapeutic strategies based on local administration of rhIL-2 for cervical carcinoma, not only based on the ability of this cytokine to stimulate cellular-mediated immunity but also because of its direct effects on tumor cells.     

Activity of tumor-associated lymphoid cells at short intervals after administration of irradiated syngeneic and allogeneic tumor cells.

After a single intraperitoneal injection of irradiated tumor cells, host cells capable of responding against syngeneic tumors were detected in peritoneal exudates of mice. Although irradiation of the injected tumor prevented its overgrowth, it did not significantly alter the antigenicity of the tumor. Immunologic activities of tumor-associated host cells in the peritoneal cavity were continuously monitored, starting 48 hr after tumor administration. In vitro cell-mediated lysis of syngeneic tumors appeared as early as 3 days after irradiated tumor administration. In addition, peritoneal exudate cells from inoculated mice were capable of adoptively transferring immunity. Purification of these peritoneal exudate cells on nylon wool columns yielded a nonadherent Ig-negative lymphocyte fraction whose cytolysis was tumor-specific and T cell-associated. The macrophage-free lymphocyte fraction exhibited a higher in vitro activity against tumors than unpurified peritoneal exudates. This tumor-host system allowed the study of cells which directly interact with the tumor cells in vivo, starting shortly after tumor administration. The results reported in this paper show that tumor-associated lymphoid cells capable of mounting anti-tumor response in vivo and in vitro can be demonstrated as early as 3 days after tumor inoculation.     

A critical role for mast cells and mast cell-derived IL-6 in TLR2-mediated inhibition of tumor growth

Several TLR agonists are effective in tumor immunotherapy, but their early innate mechanisms of action, particularly those of TLR2 agonists, are unclear. Mast cells are abundant surrounding solid tumors where they are often protumorigenic and enhance tumor angiogenesis. However, antitumor roles for mast cells have also been documented. The impact of mast cells may be dependent on their activation status and mediator release in different tumors. Using an orthotopic melanoma model in wild-type C57BL/6 and mast cell-deficient Kit(W-sh/W-sh) mice and a complementary Matrigel-tumor model in C57BL/6 mice, mast cells were shown to be crucial for TLR2 agonist (Pam(3)CSK(4))-induced tumor inhibition. Activation of TLR2 on mast cells reversed their well-documented protumorigenic role. Tumor growth inhibition after peritumoral administration of Pam(3)CSK(4) was restored in Kit(W-sh/W-sh) mice by local reconstitution with wild-type, but not TLR2-deficient, mast cells. Mast cells secrete multiple mediators after Pam(3)CSK(4) activation, and in vivo mast cell reconstitution studies also revealed that tumor growth inhibition required mast cell-derived IL-6, but not TNF. Mast cell-mediated anticancer properties were multifaceted. Direct antitumor effects in vitro and decreased angiogenesis and recruitment of NK and T cells in vivo were observed. TLR2-activated mast cells also inhibited the growth of lung cancer cells in vivo. Unlike other immune cells, mast cells are relatively radioresistant making them attractive candidates for combined treatment modalities. This study has important implications for the design of immunotherapeutic strategies and reveals, to our knowledge, a novel mechanism of action for TLR2 agonists in vivo.     

The role of L3T4+ and Lyt-2+ T cells in the IgE response and immunity to Nippostrongylus brasiliensis

The role of L3T4+ and Lyt-2+ T cells in protective immunity to Nippostrongylus brasiliensis (Nb) was studied in BALB/c mice that were depleted of either the L3T4+ or Lyt-2+ T cell population by injection with rat mAb specific for the appropriate determinant. Host responses to Nb infection including spontaneous elimination of adult worms, development of intestinal mucosal mast cell hyperplasia and the generation of a polyclonal IgE response were all completely blocked by 0.5 mg anti-L3T4 antibody administered simultaneously with Nb inoculation. However, administration of 0.5 mg of anti-Lyt-2 antibody at the same time and 7 days after inoculation with Nb had no effect on any of these responses. Injection of anti-L3T4 antibody as late as 9 days after Nb inoculation interfered with spontaneous cure of Nb infection and anti-L3T4 antibody injection 11 days after Nb inoculation inhibited serum IgE levels measured on day 13 by 50%. In addition, administration of anti-L3T4 antibody at the time of the peak serum IgE response, 13 days after Nb inoculation, accelerated the decline in serum IgE levels. Injection of previously Nb-infected mice with anti-L3T4 antibody at the time of a second Nb inoculation prevented the development of a secondary IgE response but did not affect immunity to Nb infection based on finding no adult worms in the intestines of these mice. These data indicate that 1) L3T4+ T cells are required for spontaneous cure of Nb infection, development of intestinal mucosal mast cell hyperplasia, and the generation and persistence of an IgE response during primary infection with Nb and 2) L3T4+ T cells are required for a considerable time after inoculation for optimal development of these responses. However, L3T4+ T cells are not required for all protective responses in immune mice. In contrast, our data indicate that considerable depletion of the Lyt-2+ T cell population has no significant effect on either worm expulsion or the generation of serum IgE responses.     

Characterization of the inflammatory response in the central nervous system of mice susceptible or resistant to demyelination by Theiler's virus

Intracerebral inoculation of mice with Theiler's murine encephalomyelitis virus results in an intense inflammatory response of mononuclear leukocytes which infiltrate into the central nervous system. Resistant strains of mice have the ability to clear virus whereas susceptible strains become infected persistently and are associated with chronic demyelination which is proposed to be immune-mediated. In an attempt to better understand the role of the immune response during demyelination, mononuclear leukocytes were isolated from the central nervous system of infected mice and stained by an immunoperoxidase technique with anti-Thy-1.2, anti-L3T4, anti-Lyt-2 and anti-MAC-1 mAb. Infection of susceptible SJL/J mice resulted in a biphasic immune response which peaked on days 7 and 27 post-infection. In contrast, a single peak (day 7) was observed in resistant C57BL/10SNJ mice. The presence of Thy-1.2, L3T4, and MAC-1+ cells was similar between the two strains. However, although the number of Lyt-2+ cells peaked on day 7 in C57BL/10SNJ mice, they were not detected in SJL/J mice until 14 days post-infection and gradually increased in number over the course of infection. To further study the role of T cells in demyelination, serial frozen sections of brain and spinal cord were stained for the presence of Lyt-2 and L3T4+ cells in the lesions of chronically infected SJL/J mice. L3T4+ cells were observed predominantly in perivascular regions while Lyt-2+ cells were observed infiltrating the parenchyma. These results provide further evidence that Lyt-2+ lymphocytes are important in the mechanism of susceptibility/resistance to Theiler's murine encephalomyelitis virus-induced demyelination.     

Therapeutic effect of anti-L3T4 monoclonal antibody GK1.5 on cutaneous leishmaniasis in genetically-susceptible BALB/c mice

The effect of in vivo treatment with anti-L3T4 monoclonal antibody (mAb) on the course of experimentally-induced cutaneous leishmaniasis was studied in genetically susceptible BALB/c mice. Administration of anti-L3T4 mAb resulted in a pronounced therapeutic effect as reflected by both resolution of lesions and a dramatic reduction in the parasite load in treated mice. This effect was specific for anti-L3T4 mAb and correlated with a selective depletion of L3T4+ T cells in the lymphoid tissues of treated mice. Moreover, both the therapeutic effect of anti-L3T4 mAb on cutaneous leishmaniasis and the concurrent depletion of L3T4+ T cells in the lymphoid tissues of treated mice were dependent upon the isotype of the anti-L3T4 mAb employed.     

Treatment of murine lupus with F(ab')2 fragments of monoclonal antibody to L3T4. Suppression of autoimmunity does not depend on T helper cell depletion

Treatment with mAb to the L3T4 Ag on Th cells can inhibit autoimmunity in mice. However, the mechanism by which anti-L3T4 inhibits autoimmunity is not known. In these studies, lupus-prone NZB/NZW F1 (B/W) mice were treated with F(ab')2 fragments of mAb to L3T4 to determine whether Th cell depletion is required for the beneficial effects of anti-L3T4. We first showed that treatment of female B/W mice with F(ab')2 anti-L3T4 from age 5 to 9 mo significantly reduced autoantibody production without depleting L3T4+ cells. However, treatment was complicated by the development of a host immune response to the rat mAb fragments. To circumvent this problem, female B/W mice were treated with a single high-dose of intact rat mAb to L3T4 (GK1.5) at age two mo. to induce immune tolerance to the mAb. Then, after recovery of L3T4+ cells, the mice were treated from age four to 14 mo with either F(ab')2 anti-L3T4 (0.5 mg 3 times per wk), intact anti-L3T4, or saline. In mice tolerized by this regimen, neither the F(ab')2 rat mAb nor the intact rat mAb elicited a host response. The mAb fragments bound target Ag but did not deplete the Th cells, whereas intact mAb to L3T4 profoundly depleted the L3T4+ cells. Despite this difference, both therapies had the same substantial beneficial effects on autoimmunity. They significantly decreased anti-DNA Ab production, improved renal function and prolonged survival. The initial tolerizing dose, by itself, did not inhibit autoimmunity. These findings show that anti-L3T4 suppresses autoimmunity by directly altering Th cell function through the L3T4 Ag, and not solely by depleting Th cells. They also document the detrimental effects of the host immune response to therapy with anti-L3T4 mAb, and they demonstrate a new strategy by which this response may be prevented.     

Generation propagation, and targeting of human CD4+ helper/killer T cells induced by anti-CD3 monoclonal antibody plus recombinant IL-2. An efficient strategy for adoptive tumor immunotherapy.

We developed a culture system for the rapid generation of CD4+ T cells that have both helper and killer functions. CD4+ T cells isolated from human PBL did not proliferate or develop significant cytotoxicity when treated with rIL-2 because of the lack of p75 IL-2R expression. However, culture of isolated CD4+ T cells with immobilized anti-CD3 mAb plus rIL-2 resulted in a marked proliferation (500-fold increase in 14 days) of CD4+ T cells. The proliferating CD4+ T cells produced IL-2 (92 U/ml) and showed strong cytotoxicity against OKT3 hybridoma cells and Daudi, K562, and U937 tumor cells in an anti-CD3 mAb-dependent manner. The CD4+ T cells contained significant amounts of cytolytic granule-related proteins such as serine esterase and perforin. Activated CD4+ helper/killer cells can be generated from both healthy donors and tumor patients and can be propagated in vitro for 14 to 35 days by biweekly restimulation with immobilized anti-CD3 mAb plus rIL-2. This culture yielded about 20,000-fold increase in cell number after a 21-day culture. Bispecific antibody containing anti-CD3 and anti-glioma Fab components enhanced the cytotoxicity of activated CD4+ helper/killer cells against IMR32 glioma cells. Moreover, the activated CD4+ helper/killer cells showed both helper and antitumor activity in vivo and prevented growth of anti-CD3 hybridoma cells in nude mice whether or not IL-2 was administered. These results indicate that anti-CD3 mAb plus IL-2-activated CD4+ helper/killer cells may provide an effective strategy for adoptive tumor immunotherapy of cancer.