Circulating immune complexes as possible cause for anticomplementary activity in humans with malignant melanoma

Summary Sera from 98 melanoma patients, 20 noncancer patients with immune complex-associated diseases, and 90 normal donors were analyzed for anticomplementary (AC) activity by the complement consumption method. Some of these sera were also tested for immune complex-like materials by the Raji cell radioimmune assay. In addition, serum samples from ten melanoma patients were analyzed serially to correlate the AC activity with clinical course. Significant levels of Ac activity were found in 45% of melanoma sera, 75% of nonmalignant immune complex-associated disease sera, and 10% of normal donors' sera. In some patients, AC activity decreased and became undetectable as their disease progressed. AC-negative serum samples taken from melanoma patients late in the course of disease when the tumor burden was large became anticomplementary when mixed with autologous or allogeneic serum samples taken earlier at the time of little or no tumor burden. The early serum samples contained antibodies against autologous tumor extracts, as shown by a complement fixation test. Absorption of early serum samples with cultured allogeneic melanoma cells reduced their ability to consume complement when mixed with autologous late serum samples, suggesting the presence of free antigen in the latter. The mixed samples of early and late sera and the sera positive in the complement consumption test contained heavy nonmonomeric IgG. Therefore, the AC activity of melanoma sera could be due to tumor-associated antigen-antibody complexes.     

Serial studies of autologous antibody reactivity to squamous cell carcinoma of the head and neck

Summary In previous studies we evaluated the incidence and specificity of autologous antibody reactivity against squamous cell carcinoma of the head and neck (SCCHN). We were able to demonstrate that autologous antibody reactivity is present in native sera but was usually of too low a titer to allow further analysis. Dissociation of immune complexes by acidification and ultrafiltration of serum augmented autologous antibody reactivity in nine out of nine autologous systems tested. Native antibody and antibody derived from immune complexes produced by the host and reactive with autologous tumor cells may be directed against physiologically relevant antigens. Therefore, correlations of antibody titers with clinical course may provide insight into the nature of the host response to cancer. In the present analysis, serological studies of six patients with SCCHN were performed with serum samples obtained over many months. Results of serial serological assays were correlated to tumor progression and clinical course. Fluctuations in autologous antibody reactivity were noted over time. In four cases, rises in autologous antibody titers preceded the clinical diagnosis of recurrence by several months. Drops in autologous antibody reactivity were noted in two cases following surgery or radiation therapy. In two cases of long-term survivors, no correlation between antibody reactivity and clinical course was noted. Specificity analysis of the six autologous systems demonstrated reactivity against autologous and allogeneic SCCHN as well as melanoma cell lines. These sera did not react with glioma, neuroblastoma, renal cell, breast, bladder and colon carcinoma cell lines nor with fetal calf serum, pooled lymphocytes, red blood cells and platelets. Autologous serial serological studies may provide a means by which to evaluate the host/tumor relationship in patients with SCCHN.     

Humoral immune response to melanoma-associated membrane antigen and fetal brain antigen demonstrated by indirect membrane immunofluorescence. I

Summary A melanoma-associated membrane antigen and a fetal brain antigen were identified on the surface of a human melanoma cell line by indirect membrane immunofluorescence techniques. The target melanoma cells were grown in gamma globulin-depleted human serum. Sera from melanoma patients were used as the source of antimelanoma antibodies. To remove alloantibodies, the allogeneic sera were preabsorbed with cultured lymphoblastoid cells derived from the peripheral lymphocytes of the donor of the target cell line. To further define the antigen responsible for antibody activity, sequential absorption tests were performed with fetal brain cells, cultured sarcomas, and breast carcinomas. Some antibody activity was removed by fetal brain tissues. Further absorption with fetal brain or the cultured sarcoma or breast carcinoma did not remove additional activity. However, antibody activity was completely removed by either cultured or biopsy-derived melanoma cells. A serum autochthonous to the target cell line was also tested. The antibody titer of the serum was completely removed by absorption with either autochthonous biopsied tumor or an allogeneic melanoma cell line, but not with the normal tissues. Thus it appeared that sera from melanoma patients contained antibody to both a melanoma-associated membrane antigen and a fetal brain antigen.     

Identification of specific cytolytic immune responses against autologous tumor in humans bearing malignant melanoma

Tumor-infiltrating lymphocytes from six patients with metastatic malignant melanoma were expanded by culture in recombinant interleukin 2. Three of the preparations were highly cytotoxic against autologous fresh melanoma tumor cells, but not against autologous fresh normal cells or allogeneic fresh tumor targets. The other three were highly cytotoxic against autologous fresh melanoma tumor cells and also had a limited capacity to kill allogeneic fresh tumor targets. The tumor-associated specific killer cells could be expanded from threefold to 95,652-fold with maintenance of specific antitumor lysis. The expanded tumor-infiltrating cells were Leu-4+ T cells, and in five of six patients the majority were Leu-3+. These studies demonstrate that the melanoma-bearing patient raises an immune response against autologous tumor and presents a method for the generation of human lymphocytes with antitumor reactivity that may be useful in the adoptive immunotherapy of tumors.     

Vaccination of Stage IV patients with allogeneic IL-4- or IL-2-gene-transduced melanoma cells generates functional antibodies against vaccinating and autologous melanoma cells

The antibody (Ab) response to allogeneic Me14932 and autologous melanoma cells was analyzed in 13 Stage IV (AJCC) melanoma patients immunized with Me14932 cells transduced with the IL-4 (Me14932/IL-4) ( n=10) or IL-2 (Me14932/IL-2) ( n=3) gene. No Ab response was observed before the 4th vaccination. Among 8 patients that received four vaccinations, 3/5 patients vaccinated with Me14932/IL-4 cells developed Ab (IgG and/or IgM) to Me14932 ( n=3) and to autologous ( n=2) melanoma cells, and 2/3 patients vaccinated with Me14932/IL-2 cells developed Ab (IgG) to Me14932, but not to autologous melanoma cells. Further, among these 5 responding patients, circulating Ab against the HLA-A3 allele, expressed only on vaccinating cells, were identified in the immune sera of 4 patients immunized with Me14932/IL-4 ( n=2) or Me14932/IL-2 ( n=2) cells. These sera mediated antibody-dependent cell cytotoxicity (ADCC) of Me14932 cells, and a direct correlation ( r=0.85; P=0.03) between intensity of staining (IgG) and extent of lysis was found. Immune serum of one of these patients also induced ADCC of autologous melanoma cells, and serum from another patient mediated complement cytotoxicity of Me14932, but not of autologous melanoma cells. Thus, Abs against vaccinating and autologous melanoma cells were generated in 62% of patients after four vaccinations with cytokine-transduced melanoma cells. These findings demonstrate that the identification and titration of alloreactive Ab helps to monitor the extent of immunization against cellular vaccines, while the induction of Ab reactive to antigens shared between vaccinating and autologous melanoma cells may contribute to their therapeutic efficacy.     

Non-fastidious,melanoma-specific CD8+ cytotoxic T lymphocytes from choroidal melanoma patients

To characterize the anti-melanoma reactivity of CD8⁺ cytotoxic T lymphocytes (CTL) from choroidal melanoma patients, CTL clones were isolated from the peripheral blood of three patients after mixed lymphocyte/tumor cell culture (MLTC). Clones were derived from lymphocytes stimulated by allogeneic (OCM-1, A24, A28) or autologous (OCM-3, Al, A30) melanoma cells. Their reactivity against a panel of HLA-typed melanoma and nonmelanoma cells was assessed, to determine whether a single CTL clone could recognize and lyse a variety of allogeneic melanoma cell lines. While proportionately more clones derived from autologous MLTC were melanoma-specific than allogeneic MLTC (42% versus 14%), melanoma-specific CTL were recovered from both. Notably, a novel melanoma specificity was identified. These CTL clones were termed non-fastidious because they were capable of lysing melanoma cells with which they had no HLA class I alleles in common. Nonetheless, lysis was mediated by the HLA class I molecule. Since lysis was specific for melanoma cells, these CTL appeared to recognize a shared melanoma peptide(s). Because of their prevalence, we propose that non-fastidious CTL are integral to human anti-melanoma T cell immunity. This reinforces clinical findings that allogeneic melanomas can substitute for autologous tumors in active specific immunotherapy. By circumventing the need for autologous melanoma, it is possible to treat patients after removal of the primary choroidal melanoma in an attempt to prevent metastasis.Supported by USPHS grants EY-09031 and EY-09427, and the Lucy Adams Choroidal Melanoma Research Fund to J. K.-M.     

Inhibition of mitogen-induced lymphocyte proliferation correlated to anticomplementary activity in sera from melanoma patients

Summary Sera from 98 melanoma patients and 90 normal donors were analyzed for antibody (Ab) to melanoma extracts, melanoma-associated antigen (Ag) and anticomplementary (Ac) activities by the microcomplement consumption technique. Sera were also tested for their ability to inhibit mitogen(phytohemagglutinin: PHA)-ininduced blastogenesis of normal lymphocytes. The results of the complement consumption assays were correlated with the results of inhibition of PHA-induced blastogenesis. Of 98 melanoma sera, 22% were Ab-positive, 30% were Ag-positive, and 44% were Ac-positive, in contrast to only 6% Ab-positive, no Ag-positive, and 7% Ac-positive in 90 normal sera. Fifty-nine percent of melanoma sera were inhibitory to PHA-induced blastogenesis, as against 12% of normal donors' sera. Ac-positive melanoma sera were significantly more inhibitory than Acnegative melanoma sera. The inhibitory activity of Acpositive sera was potentiated by the simultaneous presence of detectable Ag activity and was diminished by detectable Ab activity. Presence of Ab or Ag activity alone did not correlate with the inhibitory activity of the melanoma sera. Increasing incidence of Ac activity and ability to inhibit PHA-induced blastogenesis was observed with increasing tumor burden or advancing clinical stage. Sera from patients who displayed a delayed cutaneous hypersensitivity reaction to 2,4-dinitrochlorobenzene (DNCB) were less inhibitory to PHA-induced blastogenesis than the sera from patients who did not respond to this contact allergen. Thus, Ac activity may be one of the circulating factors responsible for the immunosuppressive effect of cancer patients' sera.     

Membrane-associated antigens of human malignant melanoma IV: Changes in expression of antigens on cultured melanoma cells

Summary Established melanoma cell lines were cultured for one passage (approximately 1 week) in different lots of fetal calf and new born calf sera and then tested against a panel of previously positively reacting sera from melanoma patients and polyspecific HL-A alloantisera. Using indirect immunofluorescence the cells showed varying degrees of reactivity ranging from positive to negative reactions depending on the supplementing serum in the culture medium. When standardized culture conditions were used and the cells were tested by immune adherence at several weeks intervals against panels of sera from melanoma patients, from tumor patients other than melanoma, from pregnant women, and from normal donors, most of the sera reacted identical, but some sera not only had changed quantitatively but also qualitatively from a negative to a positive reaction and vice versa indicating a shift in the spectrum of expressed antigens. When single cell clones from a cell line were isolated and tested against a panel of antisera, striking differences in reactivity were observed suggesting that the shift in the spectrum of expressed antigens was due to the outgrowth of dominating subclones with antigen patterns different from the previously dominating subclones. This conclusion was further supported by experiments in which a weakly positive reacting serum was employed to separate a cell line into positively and negatively reacting sublines. Unit gravity sedimentation and density gradient sedimentation were used in order to separate rosetted from non-rosetted tumor cells which had been prepared by immune adherence. It is concluded that cultured cell lines are in a dynamic state and that differentiation is one of the major mechanisms accounting for a change in antigen expression.     

Characterization of human malignant melanoma cell lines. III. Membrane immunofluorescence reactivity with sera from patients with melanoma

Summary Seven well-characterized human malignant melanoma cell lines have been evaluated in terms of their reactivity in membrane immunofluorescence tests with sera from 48 patients with melanoma, 23 patients with other forms of cancer and 28 normal controls. There was a significantly greater degree of reactivity of melanoma sera (33.7%) than of sera of normal controls (22.2%) or of sera from patients with other forms of cancer (24.2%). The incidence of strong reactors among the melanoma patients was found to be inversely proportional to the extent of disease in the melanoma patients: Stage I, 54.5%, Stage III, 36.8% and Stage IV, 29.4%. Reactivity against non-melanoma cell lines was similar in the three subject groups and was unaffected by stage of disease in the melanoma patients. No single cell line showed preferential reactivity with melanoma sera. There was an increased overall incidence of reactivity of all three subject groups against non-pigmented cell lines.A-B-0 antigens and heterophile antigens were excluded as a cause of seropositivity. The antigen(s) was trypsin-sensitive and neuraminidase-resistant.These data suggest that long term cultures of human melanoma may contain melanoma-associated antigens which may be useful in the further study and search for melanoma-specific antigens.     

Cloned human cytotoxic T lymphocyte (CTL) lines reactive with autologous melanoma cells. I. In vitro generation, isolation, and analysis to phenotype and specificity

Activation of peripheral blood lymphocytes (PBL) from a melanoma patient either in secondary MLC in which EBV-transformed B cells from the cell line JY were used as stimulator cells, or by co-cultivation with the autologous melanoma cells in a mixed leukocyte tumor cell culture (MLTC) resulted in the generation of cytotoxic activity against the autologous melanoma (O-mel) cells. From these activated bulk cultures four cloned cytotoxic T lymphocyte (CTL) lines were isolated. The CTL clone O-1 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+), and O-36 (T3+, T4-, T8+, OKM-, HNK-, and HLA-DR+) were obtained from MLC, whereas the CTLC clones O-C7 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+) and O-D5 (T3+, T4-, T8+, OKM-1-, HNK, and HLA-DR+) were isolated from autologous MLTC. All four CTL clones were strongly cytotoxic for O-mel cells but failed to lyse autologous fibroblasts and autologous T lymphoblasts. Moreover, the CTL clones lacked NK activity as measured against K562 and Daudi cells. Panel studies indicated that the CTL clones also killed approximately 50% of the allogeneic melanoma cells preferentially, whereas the corresponding T lymphoblasts were not lysed. Monoclonal antibodies against class I (W6/32) and class II (279) MHC antigens failed to block the reactivity of the CTL clones against O-mel and allogeneic melanoma cells, indicating that a proportion of human melanoma cells share determinants that are different from HLA antigens and that are recognized by CTL clones. In contrast to the CTL clones isolated from MLTC, the clones obtained from MLC also lysed JY cells, which initially were used as stimulator cells. The reactivity of O-36 against JY could be inhibited with W6/32, demonstrating that this reactivity was directed against class I MHC antigens. These results suggest that the lysis of O-mel and JY cells by O-36 has to be attributed to two independent specificities of this CTL clone. The specificity of the other cross-reactive CTL clone (O-1) could not be determined. The notion that individual CTL clones can have two specificities was supported by the following observations. The cytotoxic reactivity of both O-1 (T4+) and O-36 (T8+) against JY was blocked by monoclonal antibodies directed against T3 and human LFA-1, and against T3, T8, and human LFA-1, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Monoclonal auto-antibodies and sera of autoimmune patients react with Plasmodium falciparum and inhibit its in vitro growth

The relationship between autoimmunity and malaria is not well understood. To determine whether autoimmune responses have a protective role during malaria, we studied the pattern of reactivity to plasmodial antigens of sera from 93 patients with 14 different autoimmune diseases (AID) who were not previously exposed to malaria. Sera from patients with 13 different AID reacted against Plasmodium falciparum by indirect fluorescent antibody test with frequencies varying from 33-100%. In addition, sera from 37 AID patients were tested for reactivity against Plasmodium yoelii 17XNL and the asexual blood stage forms of three different P. falciparum strains. In general, the frequency of reactive sera was higher against young trophozoites than schizonts (p < 0.05 for 2 strains), indicating that the antigenic determinants targeted by the tested AID sera might be more highly expressed by the former stage. The ability of monoclonal auto-antibodies (auto-Ab) to inhibit P. falciparum growth in vitro was also tested. Thirteen of the 18 monoclonal auto-Ab tested (72%), but none of the control monoclonal antibodies, inhibited parasite growth, in some cases by greater than 40%. We conclude that autoimmune responses mediated by auto-Ab may present anti-plasmodial activity.     

Demonstration of antibodies binding to autologous and allogeneic leukemic cells in childhood ALL. Evidence for a common ALL antigen(s)

The humoral immune response to autologous leukemic cells was investigated in childhood ALL using a 125I protein A binding assay. In 5/7 patients antibodies were demonstrated at diagnosis and in 3/7 cases also after chemotherapy. Sera from 2/3 patients, which bound significantly to autologous leukemic cells, did not bind significantly to autologous remission cells. In allogeneic experiments sera bound significantly to ALL leukemic cells (6/7 positive combinations), but not to AML leukemic cells (8/8 negative combinations). We propose that ALL sera contain antibodies binding to autologous leukemic cells and that they are directed against a common ALL antigen(s).     

In vitro sensitization of human lymphoid cells to antigens on cultured melanoma cells: II. Sensitization against melanoma-associated antigens

Peripheral blood lymphoid cells from patients with malignant melanoma can be sensitized on allogeneic or autochthonous melanoma monolayers. Peak cytotoxicity occurred after 5 days of sensitization. Sensitization appeared to be directed against melanoma-associated antigens, as judged by the pattern of cytotoxic reactivity. Sensitized cells were cytotoxic against autochthonous or allogeneic melanoma cells, but not against autochthonous fibroblasts or allogeneic tumor cells of different histologic types. Sensitization of responder lymphoid cells from melanoma patients on allogeneic melanoma cells usually resulted in more pronounced cytotoxicity against autochthonous melanoma target cells than did sensitization on autochthonous melanoma monolayers. These results indicate that cell cultures of human malignant melanoma contain tumor-associated antigens which can sensitize human peripheral blood lymphoid cells in vitro. These results also support the concept that there are cross-reactive tumor-associated antigens in human malignant melanomas.     

Generation of cytotoxic effector cells against human melanoma

Metastatic or tumor-draining lymph nodes from six of nine melanoma patients undergoing lymph node dissection for metastatic melanoma generated cytotoxic T cells against autologous melanoma when these lymph node cells were treated by in vitro sensitization and recombinant interleukin-2 (IL-2). During the initial lymphocyte culture (2–6 weeks), cross-reactivity with autologous tumor cells, K562 and Daudi cells was usually noted. Cold-target inhibition assay with K562 and Daudi showed K562/Daudi-associated antigens on melanoma cells. During the later phase of lymphocyte culture with repeated in vitro sensitization (over 6–10 weeks), cytotoxicity was noted against autologous and allogeneic melanoma cells but not against K562, Daudi cells or autologous fibroblasts. Repeated in vitro sensitization resulted in the selection of specific cytotoxic lymphocytes against melanoma. Cold-target inhibition assay with autologous and allogeneic melanoma cells revealed shared and individual antigens. Using blocking monoclonal antibodies, MHC-restricted killing was noted in the autologous system. Further, both the autologous and allogeneic systems could be mediated through adhesion molecules such as ICAM-1 and LFA-3 on melanoma cells and LFA-1 on T cells. This study suggests that a constellation of cytotoxic effector cells and melanoma-associated antigens may be pivotal in tumor killing. Thus, future adoptive immunotherapy should modulate and enhance this complex interaction.This work was supported by an Elsa, U. Pardee Foundation grant, the Arizona Chronic Disease Research Commission grant and partly by grant CA23074 from the National Institutes of Health, Bethesda, MD, 20892     

Nature of antigens and antibodies in immune complexes isolated by staphylococcal protein A from plasma of melanoma patients

Immune complexes (IC) were isolated from plasma of melanoma patients by absorption to staphylococcal protein A and subsequent elution with MgCl2. The isolated ICs were purified by precipitation with polyethylene glycol and sucrose density gradient ultracentrifugation after radioiodination with 125I. The purified ICs were dissociated and radiolabeled antigen/antibody components were separated by ultracentrifugation at low pH (2.6). Under these conditions, about 72% radioactivity of the purified IC remained in the light-density region as a wide band. After neutralization, 26%-60% radioactivity in the region of 5S sedimentation bound to immobilized autologous immunoglobulins, as opposed to a maximum of 23% to immobilized immunoglobulins from human normal serum. Significant levels (73%-77%) of radioactivity in 7S region bound to rabbit anti-human IgG immunobeads. Immunoprecipitation of the antigen fraction by allogeneic anti-melanoma and rabbit anti-melanoma antibodies followed by SDS-polyacrylamide gel electrophoresis revealed the presence of a fetal antigen (FA) and a melanoma tumor-associated antigen (TAA). In addition, the presence of auto-antigen(s) was indicated by using autologous antibody in immunoprecipitation. Immunoglobulins (IgG) isolated from purified IC bound to cultured melanoma, sarcoma, and normal fibroblasts, although the binding to sarcoma and normal fibroblasts could be inhibited by preincubation of isolated IgG with soluble FA but not with soluble melanoma TAA. Thus, results of this investigation provide evidence that circulating IC in melanoma patients are composed of at least IgG and different antigens, and some of these antigens are produced by their tumor.     

Nature of antigens and antibodies in immune complexes isolated by staphylococcal protein A from plasma of melanoma patients

Summary Immune complexes (IC) were isolated from plasma of melanoma patients by absorption to staphylococcal protein A and subsequent elution with MgCl₂. The isolated ICs were purified by precipitation with polyethylene glycol and sucrose density gradient ultracentrifugation after radioiodination with ¹²⁵I. The purified ICs were dissociated and radiolabeled antigen/antibody components were separated by ultracentrifugation at low pH (2.6). Under these conditions, about 72% radioactivity of the purified IC remained in the light-density region as a wide band. After neutralization, 26%–60% radioactivity in the region of 5S sedimentation bound to immobilized autologous immunoglobulins, as opposed to a maximum of 23% to immobilized immunoglobulins from human normal serum. Significant levels (73%–77%) of radioactivity in 7S region bound to rabbit anti-human IgG immunobeads. Immunoprecipitation of the antigen fraction by allogeneic anti-melanoma and rabbit anti-melanoma antibodies followed by SDS-polyacrylamide gel electrophoresis revealed the presence of a fetal antigen (FA) and a melanoma tumor-associated antigen (TAA). In addition, the presence of auto-antigen(s) was indicated by using autologous antibody in immunoprecipitation. Immunoglobulins (IgG) isolated from purified IC bound to cultured melanoma, sarcoma, and normal fibroblasts, although the binding to sarcoma and normal fibroblasts could be inhibited by preincubation of isolated IgG with soluble FA but not with soluble melanoma TAA. Thus, results of this investigation provide evidence that circulating IC in melanoma patients are composed of at least IgG and different antigens, and some of these antigens are produced by their tumor.     

Membrane associated antigens of human malignant melanoma V: Serological typing of cell lines using antisera from nonhuman primates

Summary Antisera against various melanoma cell lines were raised in nonhuman primates (Cercopithecus aethiop.). After exhaustive absorption with AB Rh + red blood cells and pooled platelets from about 200 donors the sera were still reactive to various degrees in the microimmune adherence test with other melanoma lines, with embryonic fibroblasts, and with non-melanoma lines. As proven by absorption experiments, the main-specificity of the antisera was not directed against components of the fetal calf serum used for cell culture or against mycoplasma grown from commercial fetal calf serum. In addition, no cross-reactivity was observed with Bacillus Calmette-Gérin, and in blocking experiments no reactivity against extracts of common bacterial antigens or mixed molds was detected. Absorption with embryonic fibroblasts or embryonic tissue showed that the reactivity of most antisera was directed against melanoma-associated antigens expressed also on fetal tissue. It was not possible to determine whether the remaining reactivity on some cell lines was melanoma-specific or directed against fetal antigens not contained in the fetal material used for absorption. Cross-absorption of antisera with other melanoma cells revealed that various cell lines express different patterns of tumor-associated antigens with no, or only partial, overlap. The cross-absorption experiments made it possible to type the cell lines according to their surface antigens and arrange the cell lines in order according to the degree of mutual antigenic relationship.     

Serological response of non-human primates to human melanoma disialoganglioside GD3

Summary The immunogenicity of the disialoganglioside, GD3, a melanoma-tumor-associated antigen, has been evaluated in non-human primates. Sera from four chimpanzees and two monkeys were evaluated for anti-GD3 antibody activity by solid-phase radioimmunoassay using GD3 and control gangliosides as targets. Serum from one monkey, immunized with cells from a melanoma cell line, was strongly reactive with GD3, having a titer of >2500. In contrast, serum from this animal was non-reactive with several other gangliosides including the structurally similar GM3. Anti-GD3 reactivity was also demonstrable, albeit in low titer, in the sera of an additional monkey and a chimpanzee. Each of these animals had likewise been immunized using cells from melanoma cell lines. On the basis of these observations, suggestive of a primate anti-GD3 antibody response, we initiated a series of immunizations of chimpanzee using purified GD3 bound to Salmonella minnesota, R595. IgG reactive with melanoma cells in the cell-binding assay was first detected in sera collected after 4 immunizations and increased in titer against each reactive melanoma cell line during the immunizations. Reactivity of this serum with melanoma cell lines demonstrated a direct correlation with the expression of GD3 by the respective cell line. Anti-GD3 reactivity was evident in solid-phase radioimmunoassay against purified GD3 beginning with serum collected after 11 immunizations. By comparison with its binding to the control ganglioside panel, this serum demonstrated strong specificity for GD3 (titer=640) while having only marginal reactivity with GM3 (titer=40). Immune serum from this animal was also able specifically to block subsequent binding of a murine IgM anti-GD3 antibody (DMab7) to target GD3 in solid-phase radioimmunoassay. Together, these observations suggest that GD3, in the form of a purified molecule bound to a bacterial matrix or as part of the intact melanoma cell membrane, can be immunogenic in non-human primates, and is able to elicit an antibody response of appropriate specificity.Supported in part by grant CA32672 from the National Cancer Institute, Veterans Administration Program 821 and by the Yerkes Regional Primate Center, Atlanta, Georgia. The Yerkes Center is fully accredited by the American Association for Accreditation of Laboratory Animal Care     

Tumour-specific Antibodies in Human Malignant Melanoma and their Relationship to the Extent of the Disease

Biopsy specimens and sera were obtained from 103 melanoma patients. Autoantibodies were demonstrated by (1) complement-dependent cytotoxicity of autologous melanoma cells in short-term culture; (2) complement-dependent inhibition of ribonucleic acid synthesis; (3) immunofluorescent staining of the cytoplasm of killed melanoma cells and of the surface membrane of viable melanoma cells. Over one-third of the sera studied had antibodies to autologous melanoma cells. Although for technical reasons all three tests could not be performed with the cells from every melanoma, whenever multiple testing was possible there was complete concordance. The autoantibodies were virtually confined to patients in whom the disease was not widely disseminated, and over 80% of such patients had positive sera. In a limited number of patients who have been followed autoantibodies disappeared as the disease progressed to become widely disseminated. Two patients with generalized disease developed autoantibodies following inoculation by their own irradiated tumour cells.Two types of autoantibodies were recognized: one, active against antigen(s) in the cell surface membrane, was specific for each tumour—that is, only the autologous serum reacted—and was concerned in the cytotoxic activity; the other reacted with cytoplasmic antigens which appeared to be present in most or all melanoma cells.     

Lysis of autologous human melanoma cells by in vitro allosensitized peripheral blood lymphocytes

Summary Peripheral blood lymphocytes (PBL) of melanoma patients were sensitized in vitro with lymphocytes of a single donor or with a pool of lymphocytes of 5–20 different donors. After 6–7 days, the cytotoxic activity of the sensitized PBL was tested against cultured autologous tumor cells and lymphocytes in a ⁵¹Cr-release assay. Tumor lysis was observed in 13 of 16 cases in which patients' PBL (Pt-PBL) were stimulated by a pool of allogeneic lymphocytes and in five out of seven cases when single sensitization was performed. In no case was lysis of autologous normal lymphocytes or blasts seen. Cultivation of Pt-PBL with irradiated autologous tumor cells never led to the induction of lymphocytes cytotoxic to melanoma cells. Lysability by pool-activated autologous Pt-PBL of fresh cryopreserved tumor cells was compared to that of short-term cultured tumor cells, and no significant differences were observed. Cold-target inhibition experiments indicated that the cytotoxicity of Pt-PBL was tumor-restricted since only autologous melanoma cells but not lymphocytes were able to inhibit the reaction. These results indicate that activation of Pt-PBL is necessary in order to elicit or amplify their antitumor activity.