Transfer and co-amplification of a gene encoding a 96-kDa immune IFN-inducible human melanoma-associated antigen. Preferential expression by mouse melanoma host cells

An immune IFN-inducible human melanoma-associated glycoprotein Ag, 96-kDa MAA, having preferential distribution on metastases has been defined by mouse mAb CL203.4. To initiate molecular genetic analysis of 96-kDa MAA, the gene encoding the Ag was transfected into mouse B16 melanoma cell clone B78H1. Formation of B78H1-transfectant colonies expressing a surface Ag reactive with mAb CL203.4 in an immunorosetting assay was dependent on addition of chromosomal DNA from human melanoma cells [primary (1 degree) transfer] or from Ag-expressing transfectant cells (2 degrees, 3 degrees, 4 degrees transfer). The mAb CL203.4-reactive species expressed by the transfectant cells is a glycoprotein with a molecular mass 93-kDa, within the range of 93 to 96-kDa observed for the endogenous human Ag. In the presence of tunicamycin, an inhibitor of N-linked glycosylation, both mouse melanoma transfectants and human melanoma cells express a 50- to 51-kDa antigenic species. Human alu family repeat sequences (h-alu) are present in the genomes of 3 degrees transfectant cells. Continued presence of these h-alu after dilution of extraneous human DNA by three cycles of transfection suggests their association with the transferred 96-kDa MAA gene. Use of a selective co-amplification procedure led to transfectant cells' increased expression of 96-kDa MAA and to commensurate increases in their content of presumed 96-kDa MAA gene-associated h-alu. Preferential DNA-mediated transferability of the 96-kDa MAA+ phenotype into B78H1 cells as compared with LMTK- mouse fibroblasts suggests host cell specificity of 96-kDa MAA gene expression.     

Characterization of a monoclonal antibody-defined human melanoma-associated antigen susceptible to induction by immune interferon

To develop monoclonal antibodies (mAb) recognizing human melanoma-associated antigens (MAA) susceptible to modulation by immune interferon (IFN-gamma), hybridomas were constructed with splenocytes from a BALB/c mouse immunized with IFN-gamma-treated melanoma cells Colo 38. Screening of supernatants with control and IFN-gamma-treated melanoma cells showed that the mAb CL203 and CL207 display preferential reactivity with IFN-gamma-treated melanoma cells. The two mAb recognize the same (or spatially close) determinant on a 96,000 MAA which has a density of 0.36 X 10(6) antigenic sites/cell on untreated melanoma cells Colo 38 and of 1.39 X 10(6) and 1.54 X 10(6) on melanoma cells Colo 38 treated with IFN-gamma (final concentration, 200 U/ml) for 24 and 48 hr, respectively. The effect of IFN-gamma on the 96,000 MAA is dose- and time-dependent, reversible, and blocked by inhibitors of RNA and protein synthesis. Furthermore, the effect of IFN-gamma on the induction of the 96,000 MAA appears to be specific, inasmuch as IFN-alpha and IFN-beta do not induce the expression of the 96,000 MAA. The latter is also induced by IFN-gamma in a variety of carcinoma cell lines, but its level is markedly lower than on melanoma cells. Furthermore, the apparent m.w. of the antigen synthesized by the carcinoma cell lines in the presence of IFN-gamma ranges between 93,000 and 96,000. This molecular heterogeneity appears to reflect differences in the degree of glycosylation of the polypeptide moiety because the antigen synthesized by a variety of cell lines in the presence of tunicamycin has an apparent m.w. of 51,000.     

Human tumor-derived heat shock protein 96 mediates in vitro activation and in vivo expansion of melanoma- and colon carcinoma-specific T cells

Heat shock proteins (hsp) 96 play an essential role in protein metabolism and exert stimulatory activities on innate and adaptive immunity. Vaccination with tumor-derived hsp96 induces CD8(+) T cell-mediated tumor regressions in different animal models. In this study, we show that hsp96 purified from human melanoma or colon carcinoma activate tumor- and Ag-specific T cells in vitro and expand them in vivo. HLA-A*0201-restricted CD8(+) T cells recognizing Ags expressed in human melanoma (melanoma Ag recognized by T cell-1 (MART-1)/melanoma Ag A (Melan-A)) or colon carcinoma (carcinoembryonic Ag (CEA)/epithelial cell adhesion molecule (EpCAM)) were triggered to release IFN-gamma and to mediate cytotoxic activity by HLA-A*0201-matched APCs pulsed with hsp96 purified from tumor cells expressing the relevant Ag. Such activation occurred in class I HLA-restricted fashion and appeared to be significantly higher than that achieved by direct peptide loading. Immunization with autologous tumor-derived hsp96 induced a significant increase in the recognition of MART-1/Melan-A(27-35) in three of five HLA-A*0201 melanoma patients, and of CEA(571-579) and EpCAM(263-271) in two of five HLA-A*0201 colon carcinoma patients, respectively, as detected by ELISPOT and HLA/tetramer staining. These increments in Ag-specific T cell responses were associated with a favorable disease course after hsp96 vaccination. Altogether, these data provide evidence that hsp96 derived from human tumors can present antigenic peptides to CD8(+) T cells and activate them both in vitro and in vivo, thus representing an important tool for vaccination in cancer patients.     

A novel IFN-gamma regulated human melanoma associated antigen gp33-38 defined by monoclonal antibody Me14/D12. I. Identification and immunochemical characterization

A novel melanoma-associated differentiation Ag whose surface expression can be enhanced or induced by IFN-gamma was identified by mAb Me14/D12. Testing of numerous tumor cell lines and tumor tissue sections showed that Me14/D12-defined Ag was present not only on melanoma but also on other tumor lines of neuroectodermal origin such as gliomas and neuroblastomas and on some lymphoblastic B cell lines, on monocytes and macrophages. Immunoprecipitation by mAb Me14/D12 of lysates from [35S]methionine-labeled melanoma cells analyzed by SDS-PAGE revealed two polypeptide chains of 33 and 38 KDa, both under reducing and nonreducing conditions. Cross-linking experiments indicated that the two chains were present at the cell surface as a dimeric structure. Two-dimensional gel electrophoresis showed that the two chains of 33 and 38 KDa had isoelectric points of 6.2 and 5.7, respectively. Treatment of the melanoma cells with tunicamycin, an inhibitor of N-linked glycosylation, resulted in a reduction of the Mr from 33 to 24 KDa and from 38 to 26 KDa. Peptide maps obtained after Staphylococcus aureus V8 protease digestion showed no shared peptides between the two chains. Although biochemical data indicate that Me14/D12 molecules do not correspond to any known MHC class II Ag, their dimeric structure, tissue distribution, and regulation of IFN-gamma suggest that they could represent a new member of the MHC class II family.     

Differential role of distinct determinants of intercellular adhesion molecule-1 in immunologic phenomena

This study analyzed 1) the relationship between the molecules recognized by anti-intercellular adhesion molecule-1 (ICAM-1) mAb RR 1/1 and by anti-96K melanoma-associated Ag mAb CL203.4 in lymphoid cells, 2) the induction of ICAM-1 on activated PBMC, and 3) the functional activity of distinct and spatially distant determinants recognized by mAb CL203.4 and RR1/1. Sequential immunoprecipitation experiments showed that the determinant recognized by mAb CL203.4 is expressed on a slightly broader population of ICAM-1 molecules than that defined by mAb RR1/1. Serologic and immunochemical assays have shown that ICAM-1 is induced on lymphocytes activated with Con A, PHA-M, IL-2, allogeneic HLA mismatched lymphocytes and autologous PHA-M-activated T cells. However, ICAM-1 was not detected on lymphocytes incubated with IFN-gamma. Incubation of monocytes with LPS induced ICAM-1 in the subpopulation which lacks it and increased its density on the cells which express it. Induction of ICAM-1 is an early event in the activation process and precedes the appearance of IL-2 and transferrin receptors. Comparison of the functional activity of the anti-ICAM-1 mAb CL203.4 and RR1/1 showed that both of them inhibit to a similar extent proliferation of lymphocytes stimulated with PHA-M and with allogeneic lymphocytes, but that only mAb RR1/1 inhibits PMA-induced aggregation of cultured B lymphoid cells JY, of promonocytic cells U-937 and of PHA-blasts as well as LAK cell-mediated cytotoxicity of target cells. mAb CL203.4 represents the first example of anti-ICAM-1 mAb without inhibitory effect on the aggregation of lymphoid cells. The differential functional activity of mAb CL203.4 and RR1/1 does not reflect differences in their affinity, because they display a similar affinity constant to lymphoid cells. These results suggest that distinct determinants of ICAM-1 play a different role in immunologic phenomena.     

Immunochemical and functional analysis of HLA class II antigens induced by recombinant immune interferon on normal epidermal melanocytes

The effect of recombinant immune interferon (IFN-gamma) on the expression and shedding of HLA antigens and of melanoma-associated antigens (MAA) by epidermal melanocytes was investigated by using serologic and immunochemical techniques. IFN-gamma enhances the expression and/or shedding of HLA class I antigens and of the cytoplasmic MAA defined by monoclonal antibody (MoAb) 465.12S and induces a slight reduction in the expression of the high m.w. melanoma-associated antigen (HMW-MAA). In agreement with the data in the literature, melanocytes incubated with IFN-gamma acquire HLA-DR, -DQ, and -DP antigens. Contrary to previous information in the literature, the effect is not restricted to HLA class II antigens, since IFN-gamma also induces the expression of the 96-kDa MAA recognized by MoAb CL203. The effect of IFN-gamma on HLA class II antigens and 96-kDa MAA is dose and time dependent and is specific, because recombinant leukocyte interferon affects the expression of neither type of antigen. In spite of the expression of HLA class II antigens, IFN-gamma-treated melanocytes do not acquire the ability to stimulate the proliferation of allogeneic lymphocytes. HLA-DR antigens are more susceptible to induction by IFN-gamma than HLA-DQ and -DP antigens, since the percentage of melanocytes acquiring HLA-DQ and -DP antigens is lower than that acquiring HLA-DR antigens. Furthermore, the dose of IFN-gamma is higher and the time of incubation is longer to induce HLA-DQ and -DP antigens than to induce HLA-DR antigens. The differential susceptibility of HLA-DR, -DQ, and -DP antigens as well as of melanocytes from various donors to the modulating effect of IFN-gamma may provide an explanation for the more frequent detection of HLA-DR than of HLA-DQ and -DP antigens in melanoma lesions and for the expression of HLA class II antigens by some, but not all, melanoma lesions.     

Isolation of the melanoma-associated antigen p23 using antibody phage display

The general responsiveness of human melanoma to immunotherapy has been well established, but active immunotherapy of melanoma has been hampered by insufficient information on the immunogenicity of melanoma-associated Ags in patients. In this study, we isolated a recombinant phage-Fab clone (A10-5) from a phage-Fab library derived from the B cells of a melanoma patient in remission after immunotherapy. Purified A10-5 Fab bound at high levels to cultured melanoma cell lines and to tissue sections of metastatic and vertical growth phase primary melanoma, but not to radial growth phase primary melanoma, nevi, or normal skin. A10-5 Fab bound to both the surface and the cytoplasm of cultured melanoma cells, but only to the cytoplasm of cultured fibroblasts. Western blot analysis revealed A10-5 Fab reactivity with a 33- and a 23-kDa glycoprotein under nonreducing conditions, and with a 23-kDa protein only under reducing conditions. A cDNA with an open reading frame predicted to encode a 23-kDa protein was cloned by screening a melanoma cell cDNA library with A10-5 Fab. This protein (p23) is the human homologue of the murine tumor transplantation Ag P198 that interacts with the cytoplasmic domain of ErbB-3 expressed by melanoma cells. Thus, the Ab phage display method has identified a novel, stage-specific melanoma-associated Ag that may have therapeutic and diagnostic value.     

Differential induction by immune interferon of the gene products of the HLA-D region on the melanoma cell line MeWo and its metastatic variant MeM 50-10

This study has shown for the first time an association between the metastatic properties of two autologous melanoma cell lines and their susceptibility to induction of HLA class II Ag by IFN-gamma. After in vitro incubation with IFN-gamma the melanoma cell line MeWo did not acquire reactivity with anti-HLA class II antibodies, whereas its metastatic variant MeM 50-10 did. The differential susceptibility to induction of HLA class II Ag on the two cell lines cannot be accounted for by either differences in the number and affinity of IFN-gamma receptors or in the sensitivity to IFN-gamma, but most likely reflects an intrinsic property of each cell line. Serologic and immunochemical investigations with anti HLA-DR, DQ, and DP mAb have indicated that only HLA-DR Ag are induced by IFN-gamma on MeM 50-10 cells. Northern blot analysis with HLA-DR beta, DQ beta, and DP beta probes suggest that different mechanisms underlie the differential susceptibility to induction by IFN-gamma of the gene products of the HLA-D region. The regulatory mechanism(s) that control the expression of HLA class II Ag appear to be different from those controlling the expression of the melanoma-associated Ag tested, inasmuch as the modulation of the latter by IFN-gamma did not differ on the two melanoma cell lines.     

Recombinant human IFN-gamma, but not IFN-alpha or IFN-beta, enhances MHC- and non-MHC-encoded glycoproteins by a protein synthesis-dependent mechanism

Despite quantitative as well as qualitative differences, all three types of IFN (IFN-alpha, IFN-beta, and IFN-gamma) modulate the synthesis as well as the expression of class I and class II histocompatibility Ag and a melanoma-associated Ag located in the plasma membrane as well as the cytoplasm of human melanoma cells. By employing inhibitors of RNA and protein synthesis it was demonstrated that IFN-alpha and -beta increase the expression of histocompatibility products and this tumor-associated Ag by a process not requiring new protein synthesis. In contrast, IFN-gamma does require de novo protein synthesis for its modulatory activity. Thus, it appears that IFN might trigger various adaptive functions in different cell lineages by inducing at least two separate sets of responses specific for either IFN-alpha and -beta or IFN-gamma. Because the induction requirements for (2'-5')-oligoadenylate synthetase as well as for the development of a cellular antiviral state by different IFN also display a similar protein synthesis dependence pattern, the present results suggest that a similar set of cellular mediators may be involved in the modulation of antigenic expression by IFN-gamma in human melanoma cells.     

Regression of human melanoma xenografts in nude mice injected with methotrexate linked to monoclonal antibody 225.28 to human high molecular weight-melanoma associated antigen

Summary Intravenous injections into nude mice of 5 mg/kg methotrexate (MTX) linked to the antibody to human high molecular weight-melanoma associated antigen (HMW-MAA), monoclonal antibody (mAb) 225.28, an IgG_2a, on days 1, 4, 7, 10 and 14, starting 24 h after subcutaneous inoculation of 2 × 10⁶ cultured human M21 melanoma cells inhibited mean tumor volume by 90% on day 14 and by 65% on day 50 after the beginning of the treatment. Injections of equimolar amounts of free MTX and MTX linked to normal mouse IgG or to an isotypematched myeloma protein did not inhibit tumor growth significantly. MTX linked to mAb 225.28 did not inhibit the xenograft of a subline of human melanoma cell line M21 without detectable expression of HMW-MAA. In a clonogenic assay, the MTX-225.28 conjugate was three times more potent in inhibiting the growth of M21 melanoma cells than free MTX, but did not inhibit the growth of kidney carcinoma cells Caki-1, which do not express high-M _r MAA. In contrast, MTX linked to the mAb DAL K29, reacting with kidney carcinoma cells Caki-1, inhibited their growth but did not affect that of melanoma cells. M21 melanoma cells isolated from the residual tumor of a mouse treated with the MTX-225.28 conjugate did not differ in their reactivity with mAb 225.28 and in their sensitivity to MTX when compared with M21 cells from an untreated mouse.     

Effective drug-antibody targeting using a novel monoclonal antibody against the proliferative compartment of mammalian squamous carcinomas

Summary mAb 174H.64, which selectively recognizes an epitope expressed on the proliferating cells of mammalian squamous carcinomas, was covalently coupled to daunomycin (DM) by an acid-sensitive linker and tested for its selective cytotoxicity for squamous carcinomas. A murine lung squamous carcinoma model for chemoimmunotherapy using mAb 174H.64-DM conjugates was developed. This model utilizes the KLN-205 cell line, which metastasizes to the lungs following i.v. injection and shows a pattern of growth similar to those of spontaneous squamous carcinomas, characterized by highly proliferative cells at the periphery of the tumor (reactive with 174H.64) with the keratinized differentiated cells toward the center (not reactive with 174H.64). 174H.64-DM conjugates showed marked and specific cytotoxicity against KLN-205 cells both in vitro and following i.v. injection of the immunoconjugate in mice with established lung metastases. The conjugate was nearly as effective as daunomycin alone when incubated in vitro with KLN-205 cells and much more effective than daunomycin alone in vivo or other control immunoconjugates, which were ineffective. Finally, while the free 174H.64 mAb produced a significantly increased time of survival of mice bearing KLN-205 metastases, a much greater survival was found with mice treated with the 174H.64-DM immunoconjugate, some mice apparently demonstrating long-term survival (>100 days). We conclude that mAb 174H.64 may have potential therapeutic benefit against squamous carcinoma.This work was supported by the Medical Research Council of Canada and Biomira Inc.     

Enhancement of in vitro tumor-infiltrating lymphocyte cytotoxicity by heteroconjugated antibodies.

Tumor-infiltrating lymphocytes (TIL) were obtained from a mouse melanoma cell line (CL 62) transfected with the gene for the human melanoma Ag p97. TIL were cultured with anti-CD3 antibody and IL-2 for up to 38 days. Flow cytometry identified these TIL as Thy-1.2 + ve/CD4-ve/CD8 + ve cells. A heteroconjugated antibody 500A2 x 96.5, specific for both the CD3 Ag on TIL and the p97 Ag on CL 62 melanoma cells, was prepared using N-succinimidyl-3-(2-pyridyldithio)-propionate as a linking agent. TIL alone demonstrated low levels of cytotoxicity against autologous CL 62 tumor and also against the parental K1735 tumor and an allogeneic murine melanoma (B16). The addition of 500A2 x 96.5 heteroconjugated antibody enhanced TIL-mediated lysis of CL 62 tumor, but not of the K1735 or B16 tumors. This enhanced cytotoxicity was elicited at E:T ratios as low as 0.4:1, and in TIL cultured for 7 to 38 days. These results suggest that hetero-conjugated antibody may enhance the anti-tumor effect of TIL in vivo.     

A daidzein-daunomycin conjugate improves the therapeutic response in an animal model of ovarian carcinoma

The use of daunomycin against neoplasms is limited due to its severe cardiotoxicity. The cytotoxicity of daunomycin can be minimized by linking it to an affinity tag. Since ovarian cancer cells are sensitive to isoflavone action, we synthesized a daidzein daunomycin conjugate. In MLS human ovarian cancer cells, the conjugate was shown to have a larger cytotoxic effect than daunomycin per se at a low concentration. The conjugate was then tested in vivo in mice carrying MLS xenografts. Tumour growth in the groups of conjugate and daunomycin was inhibited by >50% as compared to vehicle treated mice. In contrast to daunomycin treated mice, no weight reduction or death was seen in mice treated with the conjugate. In vivo imaging of the fluorescence signal generated by daunomycin indicated uptake of both conjugate and daunomycin by the tumour. Tumour fluorescence was, however, higher in the conjugate treated mice than in the daunomycin treated mice, thus suggesting specific delivery of the drug to the tumour. Histological examination of myocardial tissue indicated that only the daunomycin, but not conjugate treated mice showed cardiac damage. These results indicate that targeting of daunomycin via carboxymethyldaidzein retains daunomycin's cytotoxic effects while averting its toxicity in an ovarian xenograft.     

Cytotoxic activity toward mouse melanoma following immunization of mice with transfected cells expressing a human melanoma-associated antigen

Summary B78H1 is a mouse melanoma cell line that is weakly antigenic in syngeneic mice. In an attempt to augment their immunogenicity, B78H1 cells were transfected with genomic DNA from a line of human melanoma cells expressing a 96-kDa melanoma-associated antigen (ICAM-1). A selective co-amplification procedure was employed that generated a population of transfected cells (Ui11) that expressed fivefold higher quantities of the melanoma-associated antigen than the cells from which the DNA was obtained. To test the transfected cells' relative capacity to generate a cellular immune response against B78H1 cells, Ui11 cells and B78H1 cells were administered (in parallel) to syngeneic C57BL/6 mice, susceptible to the growth of the melanoma. Each cell line (lethally iradiated beforehand) was injected intraperitoneally at weekly intervals into the mice. After two or three injections, a standard chromium-release assay was employed to detect the presence of cellular immunity toward B78H1 cells. The population of spleen cells from mice immunized with the transfected melanoma cells exhibited higher levels of cytotoxicity toward B78H1 cells than spleen cells from mice immunized with equivalent numbers of nontransfected cells. This observation is consistent with the notion that the transfected human melanoma-associated antigen acted as a second antigen capable of potentiating cellular immune responses against the weakly immunogenic determinants of the mouse melanoma cells. The introduction of genes for foreign antigens into weakly antigenic tumor cells may generate immunogens that can lead to augmented anti-tumor cellular immune responses.     

In vitro and in vivo induction of a Th cell response toward peptides of the melanoma-associated glycoprotein 100 protein selected by the TEPITOPE program

The melanoma-associated Ag glycoprotein 100 was analyzed by the T cell epitope prediction software TEPITOPE. Seven HLA-DR promiscuous peptides predicted with a stringent threshold were used to load dendritic cells (DC), and induction of a proliferative response was monitored. PBMC of all nine donors including two patients with malignant melanoma responded to at least one of the peptides. The proliferative response was defined as a Th response by the selective expansion of CD4(+) cells, up-regulation of CD25 and CD40L, and IL-2 and IFN-gamma expression. Peptide-loaded DC also initiated a T helper response in vivo (i.e., tumor growth in the SCID mouse was significantly retarded by the transfer of PBMC together with peptide-loaded DC). Because the use of the TEPITOPE program allows for a prediction of T cell epitopes; because the predicted peptides can be rapidly confirmed by inducing a Th response in the individual patient; and because application of peptide-loaded DC suffices for the in vivo activation of helper cells, vaccination with MHC class II-binding peptides of tumor-associated Ags becomes a feasible and likely powerful tool in the immunotherapy of cancer.     

CD40 ligation activates murine macrophages via an IFN-gamma-dependent mechanism resulting in tumor cell destruction in vitro

We have shown previously that agonistic anti-CD40 mAb induced T cell-independent antitumor effects in vivo. In this study, we investigated mechanisms of macrophage activation with anti-CD40 mAb treatment, assessed by the antitumor action of macrophages in vitro. Intraperitoneal injection of anti-CD40 mAb into C57BL/6 mice resulted in activation of peritoneal macrophages capable of suppressing B16 melanoma cell proliferation in vitro, an effect that was greatly enhanced by LPS and observed against several murine and human tumor cell lines. Anti-CD40 mAb also primed macrophages in vitro to mediate cytostatic effects in the presence of LPS. The tumoristatic effect of CD40 ligation-activated macrophages was associated with apoptosis and killing of tumor cells. Activation of macrophages by anti-CD40 mAb required endogenous IFN-gamma because priming of macrophages by anti-CD40 mAb was abrogated in the presence of anti-IFN-gamma mAb, as well as in IFN-gamma-knockout mice. Macrophages obtained either from C57BL/6 mice depleted of T and NK cells by Ab treatment, or from scid/beige mice, were still activated by anti-CD40 mAb to mediate cytostatic activity. These results argued against the role of NK and T cells as the sole source of exogenous IFN-gamma for macrophage activation and suggested that anti-CD40 mAb-activated macrophages could produce IFN-gamma. We confirmed this hypothesis by detecting intracytoplasmic IFN-gamma in macrophages activated with anti-CD40 mAb in vivo or in vitro. IFN-gamma production by macrophages was dependent on IL-12. Taken together, the results show that murine macrophages are activated directly by anti-CD40 mAb to secrete IFN-gamma and mediate tumor cell destruction.     

Cloning and in vitro expression of a melanoma-associated antigen immunogenic in patients with melanoma

The purpose of this study was to identify human melanoma-associated Ag (MAA) that are immunogenic in patients, because these molecules may be useful immunogens to implement active specific immunotherapy. To this end, an expression cDNA library constructed from the human melanoma cell line A375 was screened with sera from patients with melanoma. A 1029-bp cDNA (designated D-1) was isolated. Its nucleotide sequence showed no significant homology with viral and mammalian sequences stored in GE-NETYX. cDNA D-1 hybridized to a 2.0-kb mRNA species from human melanoma, neuroblastoma, erythroleukemia, B lymphoid, and T lymphoid cell lines but not from a renal carcinoma cell line, PBL, and cultured skin fibroblasts. The D-1 clone produced a fusion protein that displayed a significantly higher reactivity with sera from patients with melanoma than from healthy controls. Furthermore, D-1 fusion protein induced in mice antibodies that immunoprecipitated a 50-kDa component from cultured human melanoma cells. The structural properties of D-1 MAA are different from those of previously described MAA. These results suggest that the approach we have applied may be useful to identify novel MAA expressed by melanoma cells. Furthermore, the immunogenicity of recombinant D-1 protein suggests that it may be a valuable immunogen to implement active specific immunotherapy in patients with melanoma, if additional experiments show that it has the appropriate tissue distribution.     

Monoclonal antibody L6-daunomycin conjugates constructed to release free drug at the lower pH of tumor tissue

Summary Measurements in cancer patients showed that the pH of tumors averages 0.8 unit lower than that of the surrounding normal tissues, confirming published work. Based on this, the anti-carcinoma monoclonal antibody (mAb) L6 was used to prepare immunoconjugates with daunomycin (DM), the drug being released at the acidic pH of the tumor. A direct linking of the aconitic derivative of DM (AcoDM) to mAb L6 led to conjugates that either had a low drug/antibody ratio (<5:1) or precipitated in vitro. In order to increase the drug load and avoid precipitation, several biopolymers were tested as spacers between the drug and the L6. To attach the polymer derivative to the mAb, the former was maleimidized and the mAb was thiolated. The AcoM/mAb ratio obtained was 20, and the mAb retained its highly specific binding to tumor cells. At pH 6 the AcoDM-L6 conjugate was toxic to cultured C-3347 carcinoma cells with an inhibitory concentration (IC₅₀) of 5 µg/ml. The conjugate was less effective than the free DM with an IC₅₀ of 0.2 µg/ml. The L6 alone was not toxic. At a tumor pH of 6.5, 15% of the AcoDM was released. The amount of released drug reached a maximum 24–48 h after exposure to the acidic medium.In vivo localization studies demonstrated a similar tumor uptake of the conjugate and mAb L6 with 18% of the injected dose/g tumor and a maximum uptake in tumor 48 h after injection. Our data indicate that it is possible to construct conjugates based on a pH-sensitive linker that can be targeted successfully to a tumor with release of a portion of the drug at the tumor site, but testing is needed to establish whether such release has anti-tumor activity in vivo and offers an advantage over treatment with unconjugated drug.     

Development of potent monoclonal antibody auristatin conjugates for cancer therapy

We describe the in vitro and in vivo properties of monoclonal antibody (mAb)-drug conjugates consisting of the potent synthetic dolastatin 10 analogs auristatin E (AE) and monomethylauristatin E (MMAE), linked to the chimeric mAbs cBR96 (specific to Lewis Y on carcinomas) and cAC10 (specific to CD30 on hematological malignancies). The linkers used for conjugate formation included an acid-labile hydrazone and protease-sensitive dipeptides, leading to uniformly substituted conjugates that efficiently released active drug in the lysosomes of antigen-positive (Ag+) tumor cells. The peptide-linked mAb-valine-citrulline-MMAE and mAb-phenylalanine-lysine-MMAE conjugates were much more stable in buffers and plasma than the conjugates of mAb and the hydrazone of 5-benzoylvaleric acid-AE ester (AEVB). As a result, the mAb-Val-Cit-MMAE conjugates exhibited greater in vitro specificity and lower in vivo toxicity than corresponding hydrazone conjugates. In vivo studies demonstrated that the peptide-linked conjugates induced regressions and cures of established tumor xenografts with therapeutic indices as high as 60-fold. These conjugates illustrate the importance of linker technology, drug potency and conjugation methodology in developing safe and efficacious mAb-drug conjugates for cancer therapy.     

Human high molecular weight melanoma-associated antigen mimicry by mouse antiidiotypic monoclonal antibody MK2-23. Characterization of the immunogenicity in syngeneic hosts

Previous studies have shown that the mouse antiidiotypic mAb MK2-23 elicited with the syngeneic anti-human high molecular weight melanoma-associated Ag (HMW-MAA) mAb 763.74 elicits anti-HMW-MAA antibodies in syngeneic hosts and in patients with melanoma. The present investigation has characterized the fine specificity of antibodies elicited by mAb MK2-23, tested its ability to induce delayed-type hypersensitivity reaction to HMW-MAA-bearing melanoma cells and analyzed the variables that influence the immunogenicity of mAb MK2-23. The anti-HMW-MAA antibodies elicited by mAb MK2-23 recognize the same population of molecules recognized by mAb 763.74, react with the same (or spatially close) determinant(s) and express the idiotopes recognized by mAb MK2-23 in their Ag-combining sites. The antiidiotypic antibodies that bind to HMW-MAA have a lower titer than those that do not. These results in conjunction with those obtained in mice using a suboptimal immunization schedule suggest that the idiotope(s) that mimic(s) the mAb 763.74-defined determinant of the HMW-MAA is less immunogenic than those that do not. mAb MK2-23 induces a delayed-type hypersensitivity reaction to HMW-MAA-bearing melanoma cells. Therefore, mAb MK2-23 represents the first example of mouse antiidiotypic mAb that induces a cellular and humoral immunity to a human tumor-associated Ag (TAA), because the previously described mouse antiidiotypic mAb that bear the mirror image of TAA have been shown to induce only humoral anti-TAA immunity. The immunogenicity of mAb MK2-23 is markedly enhanced by its conjugation to keyhole limpet hemocyanin and its administration with FA. Furthermore, the number of immunizations and the doses of mAb MK2-23 injected influence its immunogenicity, although to a lower extent than conjugation to a carrier and mixing with an adjuvant. The information derived from the present investigation represents a useful background to optimize the immunization schedule with mAb MK2-23 in patients with melanoma.