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.     

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.     

Analysis of the interaction between a human high molecular weight melanoma-associated antigen and the monoclonal antibodies to three distinct antigenic determinants

The restricted tissue distribution and the limited heterogeneity that appear in melanoma lesions of the high M.W. melanoma-associated antigen (HMW-MAA) suggest that this antigen may be an appropriate marker for radioimaging, and a useful target for immunotherapy in patients with melanoma. Therefore, in this study we analyzed other characteristics that are important in the selection of reagents for radioimaging and immunotherapy purposes. The affinities of the monoclonal antibodies (MoAB) 149.53, 225.28S, and 763.74T to distinct determinants of the HMW-MAA were found to be at least 1 X 10(8) mol/L. Furthermore, the effects of the concentrations of unlabeled MoAb on the dissociation rates suggest that the binding of MoAb 149.53 and 225.28S to melanoma cells (Colo 38) is preferentially bivalent, whereas that of MoAb 763.74T is preferentially univalent. These results suggest that the latter MoAb is the reagent of choice for assays that make use of soluble HMW-MAA, whereas the former two are the reagents of choice for assays with membrane-bound HMW-MAA, such as imaging with radiolabeled MoAb. The density of the HMW-MAA on cultured Colo 38 melanoma cells appears to be in the range of approximately 5 X 10(6) molecules/cell. The HMW-MAA was not susceptible to MoAb-mediated modulation under a variety of experimental conditions that included various concentrations of modulating MoAb, different incubation times, the use of an anti-mouse Ig antiserum, and the relaxation of equilibrium by diluting cells in MoAb-free medium. These results indicate that the HMW-MAA and the available corresponding MoAb meet the criteria to be reagents for radioimaging and immunotherapy in patients with melanoma.     

Phage-selected primate antibodies fused to superantigens for immunotherapy of malignant melanoma

 The high-molecular-weight melanoma-associated antigen, HMW-MAA, has been demonstrated to be of potential interest for diagnosis and treatment of malignant melanoma. Murine monoclonal antibodies (mAb) generated in response to different epitopes of this cell-surface molecule efficiently localise to metastatic lesions in patients with disseminated disease. In this work, phage-display-driven selection for melanoma-reactive antibodies generated HMW-MAA specificities capable of targeting bacterial superantigens (SAg) and cytotoxic T cells to melanoma cells. Cynomolgus monkeys were immunised with a crude suspension of metastatic melanoma. A strong serological response towards HMW-MAA demonstrated its role as an immunodominant molecule in the primate. Several clones producing monoclonal scFv antibody fragments that react with HMW-MAA were identified using melanoma cells and tissue sections for phage selection of a recombinant antibody phage library generated from lymph node mRNA. One of these scFv fragments, K305, was transferred and expressed as a Fab-SAg fusion protein and evaluated as the tumour-targeting moiety for superantigen-based immunotherapy. It binds with high affinity to a unique human-specific epitope on the HMW-MAA, and demonstrates more restricted crossreactivity with normal smooth-muscle cells than previously described murine mAb. The K305 Fab was fused to the superantigen staphylococcal enterotoxin A (D227A) [SEA(D227A)], which had been mutated to reduce its intrinsic MHC class II binding affinity, and the fusion protein was used to demonstrate redirection of T cell cytotoxicity to melanoma cells in vitro. In mice with severe combined immunodeficiency, carrying human melanoma tumours, engraftment of human lymphoid cells followed by treatment with the K305Fab-SEA(D227A) fusion protein, induced HMW-MAA-specific tumour growth reduction. The phage-selected K305 antibody demonstrated high-affinity binding and selectivity, supporting its use for tumour therapy in conjunction with T-cell-activating superantigens. Received: 9 September 1999 / Accepted: 21 October 1999     

Immunochemical characterization of a human high molecular weight — melanoma associated antigen identified with monoclonal antibodies

Sodium dodecyl sulfate polyacrylamide gel analysis of a high molecular weight (HMW) human melanoma associated antigen (MAA) defined by murine monoclonal antibodies revealed a number of distinct polypeptides ranging from 80,000 up to 280,000 daltons, in addition to an extremely heterogeneous group of components distributed over a wide range in apparent molecular weight (300,000-700,000 daltons). The 280,000 dalton and the larger heterogeneous molecular weight material are glycosylated since they are labeled with 3H-sugars. The HMW-MAA is readily solubilized in the absence of detergents and the entire series of polypeptides fractionates together in the void volume of a Sephadex G200 column. Peptide maps of the various polypeptides of the HMW-MAA, generated by Staphylococcus aureus V-8 protease, are essentially the same except that some of the proteolytic fragments derived from the lower molecular weight polypeptides (80,000 daltons) are present in greater amounts than are similar fragments derived from the larger molecular weight polypeptides; the latter finding suggests that the complexity in molecular weight of the MAA may reflect combinations of several base subunits. Proteolytic cleavage of the HMW-MAA generates a number of peptides ranging in molecular weight from 77,000 daltons to less than 12,000 daltons, which still react with monoclonal antibodies and can distinguish monoclonal antibodies specific for different antigenic determinants of this MAA.     

IFN-gamma treatment of K562 cells inhibits natural killer cell triggering and decreases the susceptibility to lysis by cytoplasmic granules from large granular lymphocytes

Pretreatment of human K562 leukemia cells with rIFN-alpha and rIFN-gamma resulted in decreased susceptibility to lysis by human peripheral blood NK cells. The reduction of NK-susceptibility after IFN treatment was not due to a general effect of IFN on the stability of the cell membrane because the susceptibility of K562 cells to lysis by antibodies plus C, distilled water, or lysolecithin was unaffected. Binding studies with effector cell preparations enriched for NK cells with large granular lymphocyte morphology revealed no difference in binding to control and IFN-gamma-treated target cells. The sensitivity to soluble NK cytotoxic factors was not affected significantly by the IFN treatment. In contrast, the susceptibility of IFN-treated target cells to the cytotoxic activity of purified cytoplasmic granules from a rat large granular lymphocyte tumor was significantly reduced, indicating that the IFN-induced resistance acted at the level of susceptibility to the lytic mechanism of NK cells. However, IFN-alpha was more effective than IFN-gamma in inducing resistance to the cytoplasmic granules although resulting in only a weak resistance in the cell-mediated cytotoxic assay. IFN-gamma but not IFN-alpha caused a reduction in the frequency of effector cells that had reoriented their Golgi apparatus toward their bound target cell. In addition, IFN-gamma treated K562 cells failed to elicit an influx of Ca2+ into effector cells. Taken together, the results suggest that IFN-gamma in addition to an increased resistance to the lytic molecules released by NK cells can also induce changes in the target cells which prevent the triggering and activation of the effector cell.     

Differential effect of interferon on the expression of tumor-associated antigens and histocompatibility antigens on human melanoma cells: relationship to susceptibility to immune lysis mediated by monoclonal antibodies

Incubation of cultured human melanoma cells with human leukocyte interferon did not change the expression of melanoma-associated antigens (MAA) recognized by monoclonal antibodies and of Ia-like antigens but significantly increased the expression of HLA-A,B antigens and of beta 2-microglobulin (beta 2-mu). The effect is dependent on the dose of interferon and on the incubation time. Interferon-treated melanoma cells showed an increased susceptibility to lysis mediated by monoclonal antibodies to HLA-A,B antigens and to human beta 2-mu; on the other hand, interferon-treated melanoma cells did not change in their susceptibility to murine natural killer (NK) cell lysis and to immune lysis mediated by monoclonal antibodies to MAA and to Ia-like antigens, and they displayed a reduced susceptibility to human NK cell lysis. Therefore, the increased susceptibility of interferon-treated melanoma cells to lysis mediated by anti HLA-A,B and anti beta 2-mu monoclonal antibodies is likely to reflect the increase in cell surface expression of the corresponding antigens.     

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.     

Specificity of mimotope-induced anti-high molecular weight-melanoma associated antigen (HMW-MAA) antibodies does not ensure biological activity

Vaccines based on peptide mimics (mimotopes) of conformational tumor antigen epitopes have been investigated for a variety of human tumors including breast cancer, tumors expressing the carcinoembryonic antigen, B cell lymphoma, neuroblastoma, and melanoma. In our previous work, we designed a vaccine based on a mimotope of the high molecular weight-melanoma associated antigen (HMW-MAA) that elicited HMW-MAA-specific antibodies (Abs) with anti-tumor activity in vitro and in vivo. In this study, we aimed to identify mimotopes of additional distinct HMW-MAA epitopes, since they could be used to construct a polymimotope melanoma vaccine. For this purpose, random peptide phage libraries were screened with the anti-HMW-MAA monoclonal antibodies (mAbs) VT80.12 and VF1-TP43 yielding one peptide ligand for each mAb. Both peptides inhibited the binding of the corresponding mAb to the HMW-MAA. Furthermore, when coupled to the carrier protein keyhole limpet hemocyanin (KLH), both HMW-MAA mimotopes elicited peptide-specific Abs in rabbits or BALB/c mice, but only the mimotope isolated with the mAb VT80.12 elicited HMW-MAA-specific Abs and only in mice. However, the latter Abs had no detectable effect on HMW-MAA expressing human melanoma cells in vitro. These results describe limitations related to the phage display technique and emphasize the need to characterize the functional properties of the mAb utilized to isolate mimotopes of the corresponding epitopes.     

Dissection of defective antigen presentation by interferon-gamma-treated fibroblasts

The capacity of interferon-gamma (IFN-gamma)-treated HLA-DR expressing human dermal fibroblasts (FB) to function as antigen-presenting cells (APC) was examined. FB were cultured with 250 U/ml IFN-gamma for 4 days to induce HLA-DR expression. Peripheral blood monocytes (M phi), FB, or IFN-gamma-treated FB from the same donor were then cultured overnight with or without the recall antigen streptokinase streptodornase (SKSD), and their capacity to stimulate autologous T4 cell DNA synthesis was examined. SKSD-bearing M phi stimulated T4 cell proliferation, whereas antigen-bearing HLA-DR (+) FB did not. Even after fixation with paraformaldehyde to eliminate metabolic activity, SKSD-bearing M phi, but not FB, were able to function as APC. However, when HLA-DR (-) endothelial cell (EC) or autologous or HLA-D-mismatched M phi were added to the cultures, antigen-pulsed IFN-gamma-treated FB and M phi were comparably effective stimulators of autologous T4 cell DNA synthesis. Antigen recognition by the T4 cell was restricted by the class II major histocompatibility complex (MHC)-encoded gene products expressed by the IFN-gamma-treated FB and was unrelated to the class I or II MHC-encoded gene products expressed by the additional cell type. EC-promoted T4 cell DNA synthesis induced by antigen-bearing IFN-gamma-treated FB was inhibited by 60.3, a monoclonal antibody directed at an epitope common to LFA-1, CR3, and the p150,95 molecule. Inhibition caused by 60.3 was completely reversed by the addition of IL 2 to the cultures. Antigen presentation by IFN-gamma-treated FB was also enhanced somewhat by IL 1, IL 2, or monoclonal antibody directed at Tp44 (9.3). However, each of these additions alone promoted T cell proliferation less effectively than EC and resulted in responses that were smaller than those triggered by antigen-bearing M phi. The data suggest that IFN-gamma-treated FB take up and process antigen effectively, but lack an accessory cell property necessary for antigen-induced T4 cell IL 2 production and proliferation.     

CD4-dependent potentiation of a high molecular weight-melanoma-associated antigen-specific CTL response elicited in HLA-A2/Kb transgenic mice

The human high m.w.-melanoma-associated Ag (HMW-MAA) is an attractive target for the immunotherapy of melanoma, due to its relatively high expression in a high percentage of melanoma lesions and its restricted distribution in normal tissues. Active immunization with HMW-MAA mimics has been previously shown to induce a HMW-MAA-specific, T cell-dependent Ab response associated with an apparent clinically beneficial effect in advanced melanoma patients. Although T cells play an important role in controlling tumor growth, only limited information is available to date about the induction of HMW-MAA-specific CTL. In this report, we show that immunization of HLA-A2/K(b) transgenic mice with HMW-MAA cDNA-transfected syngeneic dendritic cells elicited a CD8(+) CTL response specific for HMW-MAA peptides with HLA-A2 Ag-binding motifs. The elicited CTL lysed HLA-A2(+)HMW-MAA(+) melanoma cells in vitro, and mouse HLA-A2/K(b) cells pulsed with HMW-MAA-derived peptides in vitro and in vivo. Although this CTL response could be generated in the absence of CD4(+) T cell help, harnessing CD4(+) T cell help in a noncognate Ag-specific manner with the polyclonal activator staphylococcal enterotoxin A augmented the CTL response. These results imply that dendritic cell-based immunization, in combination with CD4(+) T cell help, represents an effective strategy to implement T cell-based immunotherapy targeting HMW-MAA in patients with HMW-MAA-bearing tumors.     

Antigen presentation by interferon-gamma-treated endothelial cells and fibroblasts: differential ability to function as antigen-presenting cells despite comparable Ia expression

The effect of interferon-gamma (IFN-gamma) on endothelial cell (EC) and fibroblast (FB) class II major histocompatibility complex (MHC) gene product expression and antigen presenting ability was examined. Control FB did not express class II MHC gene products, whereas a small (less than 1%) population of passaged EC expressed class II gene products. IFN-gamma induced a comparable density of HLA-DR expression on nearly all EC and FB. IFN-gamma-treated EC and FB also expressed HLA-DP but at a lower density, whereas HLA-DQ expression was barely detectable on either cell type. Control FB were not able to stimulate allogeneic T4 cell DNA synthesis or function as antigen-presenting cells (APC). Control EC were also unable to stimulate allogeneic T4 cell DNA synthesis unless large numbers of stimulator cells were used. Small numbers of IFN-gamma-treated EC were able to stimulate allogeneic T4 cell DNA synthesis, whereas larger numbers were markedly more effective than control EC. In contrast, IFN-gamma-treated FB were ineffective stimulators of allogeneic T4 cell DNA synthesis. IFN-gamma-treated FB were able to present the exogenous antigen SKSD to autologous but not allogeneic T4 cells, but they were extremely inefficient APC. The inability of IFN-gamma-treated FB to function as APC could not be explained by FB-mediated immunosuppression, Ia density, or HLA-DQ expression. This limited capacity of IFN-gamma-treated FB to participate in Ia-restricted functional interactions with T4 cells correlated with a similar diminished capacity to support nonspecific mitogen-induced proliferation of T4 cells before IFN-gamma-induced Ia expression. This accessory cell function was not enhanced by IFN-gamma treatment. Monocytes syngeneic to the responding T4 cells but not interleukin 1 (IL 1) permitted IFN-gamma-treated FB but not control FB to stimulate allogeneic T4 cell DNA synthesis, but they remained markedly less effective stimulators than monocytes. Moreover, IFN-gamma-treated FB were effective stimulators of alloprimed T4 cells, in contrast to their inability to stimulate fresh T4 cells. Furthermore, monocytes and IFN-gamma-treated FB were comparably effective stimulators of alloreactive T cell lines. These data suggest that accessory cells perform functions unrelated to Ia and IL 1 that are necessary for mitogen-, alloantigen-, and antigen-induced proliferation of freshly isolated T cells. Monocytes and EC effectively perform this function, but FB do not. This accessory cell function does not seem to be as important for the activation of primed T cells.     

Shedding of ICAM-1 from human melanoma cell lines induced by IFN-gamma and tumor necrosis factor-alpha. Functional consequences on cell-mediated cytotoxicity.

ICAM-1-mediated cell-cell adhesion is essential for various immunologic functions, including non-MHC-restricted cytotoxicity. The present study was designed to establish whether shedding of ICAM-1 from melanoma cells occurred and to characterize the effects of soluble ICAM-1 on some cell adhesion-dependent functions. The shed soluble ICAM-1 molecule was detected and quantified by a specific ELISA. Shedding of ICAM-1 could be induced by IFN-gamma and TNF-alpha alone, or more effectively, by a combination of the two cytokines together. The use of purified soluble ICAM-1 enabled us to test for the functional significance of the ICAM-1 shedding from tumor cells. Conjugate formation between the cloned NK cell line CNK6 and the erythromyeloid cell line K562, as well as between lymphokine-activated killer cells and the melanoma cell line M26, could be inhibited by purified soluble ICAM-1 and cell-free supernatants from melanoma cell cultures containing shed ICAM-1. Furthermore, the non-MHC-restricted cytotoxicity mediated by NK and lymphokine-activated killer cells could be abrogated either by purified soluble ICAM-1 or by melanoma cell culture supernatants containing shed ICAM-1. Thus, shedding of ICAM-1 may be one of the mechanisms by which neoplastic cells escape immunosurveillance.     

Polymorphonuclear leukocyte function triggered through the high affinity Fc receptor for monomeric IgG

While it is extensively documented that gamma-interferon (IFN-gamma) is a potent stimulator of cells of the monocyte lineage, relatively little is known about its effects on granulocytes. We and others have found that immunoglobulin G (IgG) antibody-dependent cell cytotoxicity (ADCC) by polymorphonuclear cells (PMN) is significantly enhanced in a dose-dependent fashion by 16 hours incubation with recombinant IFN-gamma, resulting in 2- to 16-fold increases in ADCC. Incubation of PMN with lipopolysaccharide for 16 hours did not augment ADCC. Since IFN-gamma enhancement of ADCC is accompanied by increased expression of Fc receptors, we used monoclonal antibodies to compare control and IFN-gamma treated PMN for expression of the high affinity Fc receptor for monomeric IgG1 (FcgRI) and the PMN receptor for polymeric IgG (FcgR1o). Freshly isolated PMN or PMN cultured without IFN-gamma expressed FcgR1o but not detectable quantities of FcgRI. However, while FcgR1o were not increased on IFN-gamma-treated PMN, these cells expressed moderate amounts of FcgRI. To determine whether FcgRI contributed to PMN function, heteroantibodies consisting of Fab 3G8 or Fab 32 linked to Fab anti-target antibody were produced. ADCC of untreated PMN was promoted only by Fab 3G8 heteroantibody, whereas IFN-gamma-treated PMN killed through both FAB 3G8 and Fab 32 heteroantibodies. Thus, FcgRI can be induced on PMN by IFN-gamma, can mediate cytotoxicity by these cells, and probably accounts for the IFN-gamma stimulation of ADCC.     

Accessory cell function of human melanoma cells in mitogen-induced T cell proliferation

Six out of eight human melanoma cell lines were found to be able to function as accessory cells in PHA-induced proliferation of autologous and allogeneic T cells. The accessory cell function of the melanoma cell lines appears to be similar to that of monocytes, requires the presence of viable cells, and does not correlate with the cell surface binding sites for PHA and with the level of expression of HMW-MAA and of HLA Class I antigens. HLA Class II antigens do not appear to play a major role in these phenomena, since there is no relationship between level of expression of HLA Class II antigens and accessory cell function of melanoma cells. Furthermore, addition of anti-HLA Class II monoclonal antibodies does not affect proliferation of T cells stimulated with PHA in the presence of melanoma cells with accessory cell function. Although melanoma cells exert accessory cell function, functional and immunological assays did not detect IL-1 in the spent medium of the melanoma cell lines. Furthermore, Northern blotting analysis with IL-1 alpha and IL-1 beta probes did not detect IL-1-specific mRNA in melanoma cell lines. These results suggest that PHA-induced proliferation of T cells in the presence of melanoma cells can bypass the requirement for IL-1 or utilizes factors other than IL-1.     

In vitro differentiation and antigenic changes in human melanoma cell lines

Summary Malignant transformation of melanocytes may be associated with changes in the expression of HLA antigens and melanoma-associated antigens (MAA). To determine whether these changes reflect the differential expression of HLA antigens and MAA by melanocytes at different stages of differentiation, we have studied the effect of the reversible induction of differentiation by fibroblast interferon (interferon ) and/or 12-O-tetradecanoyl-phorbol 13-acetate (TPA) on the expression of HLA antigens and MAA by the melanoma cell lines DU-2, FO-1 and HO-1. The three melanoma cell lines differed in their sensitivity to the differentiating and antiproliferative activity of these two compounds and displayed an increased growth suppression and induction of differentiation, when incubated with the combination of TPA and interferon . Incubation of the three melanoma cell lines with interferon , TPA or their combination resulted in a differential modulation of the expression of membrane-bound high-molecular-mass melanoma-associated antigen, 115-kDa MAA, 100-kDa MAA, intercellular adhesion molecule 1, HLA class I antigens and gene products of the HLA-D region. Each melanoma cell line displayed a unique pattern of antigenic modulation when exposed to the two differentiating agents alone or in combination. No direct relationship was found between the effects of interferon and/or TPA on the growth and differentiation of the three melanoma cell lines and the expression of HLA antigens or the MAA evaluated in the present study. These findings argue against a direct role of any of the antigens tested in the reversible induction of human melanoma cell differentiation in the in vitro system.     

High-molecular-weight melanoma-associated antigen mimotope immunizations induce antibodies recognizing melanoma cells

Size and posttranslational modifications are obstacles in the recombinant expression of high-molecular-weight melanoma-associated antigen (HMW-MAA). Creating a tumor antigen mimic via the phage display technology may be a means to overcome this problem for vaccine design. In this study, we aimed to generate an immunogenic epitope mimic of HMW-MAA. Therefore we screened a linear 9mer phage display peptide library, using the anti-HMW-MAA monoclonal antibody (mAb) 225.28S. This antibody mediates antibody-dependent cellular cytotoxicity (ADCC) and has already been used for anti-idiotype therapy trials. Fifteen peptides were selected by mAb 225.28S in the biopanning procedure. They share a consensus sequence, but show only partial homology to the amino acid sequence of the HMW-MAA core protein, indicating mimicry with a conformational epitope. One mimotope was chosen to be fused to albumin binding protein (ABP) as an immunogenic carrier. Immunoassays with 225.28S indicated that the mimotope fusion protein was folded correctly. Subsequently, the fusion protein was tested for immunogenicity in BALB/c mice. The induced anti-mimotope antibodies recognized HMW-MAA of 518A2 human melanoma cells, whereas sera of mice immunized with the carrier ABP alone showed no reactivity. These anti-mimotope antibodies were capable of inducing specific lysis of 518A2 melanoma cells in ADCC assays with murine effector cells. In conclusion, the presented data indicate that mimotopes fused to an immunogenic carrier are suitable tools to elicit epitope-specific anti-melanoma immune responses.     

Efficient killing of tumor cells by CAR-T cells requires greater number of engaged CARs than TCRs

Although CAR-T cells are widely used to treat cancer, efficiency of CAR-T cell cytolytic responses has not been carefully examined. We engineered CAR specific for HMW-MAA (high-molecular-weight melanoma-associated antigen) and evaluated potency of CD8+ CAR-T cells to release cytolytic granules and to kill tissue-derived melanoma cells, which express different levels of HMW-MAA. CAR-T cells efficiently killed melanoma cells expressing high level of HMW-MAA, but not melanoma cells with lower levels of HMW-MAA. The same melanoma cells presenting significantly lower level of stimulatory peptide-MHC ligand were readily lysed by T cells transduced with genes encoding α,β-TCR specific for the peptide-MHC ligand. The data suggest that higher level of targeted molecules is required to engage a larger number of CARs than TCRs to induce efficient cytolytic granule release and destruction of melanoma cells. Understanding the difference in molecular mechanisms controlling activation thresholds of CAR- versus TCR-mediated responses will contribute to improving efficiency of CAR T cells required to eliminate solid tumors presenting low levels of targeted molecules.     

Targeting melanoma cells with human high molecular weight-melanoma associated antigen-specific antibodies elicited by a peptide mimotope: functional effects

Human high molecular weight-melanoma associated Ag (HMW-MAA) mimics have been shown to elicit HMW-MAA-specific humoral immune responses that appear to be clinically beneficial. This finding has stimulated interest in characterizing the mechanism(s) underlying the ability of the elicited Abs to exert an anti-tumor effect. To address this question, in the present study, we have generated HMW-MAA-specific Abs by sequentially immunizing rabbits with the peptide P763.74, which mimics the HMW-MAA determinant recognized by mAb 763.74, and with HMW-MAA(+) melanoma cells. HMW-MAA-specific Abs isolated from immunized rabbits mediated cell-dependent cytotoxicity but did not mediate complement-dependent cytotoxicity of HMW-MAA(+) melanoma cells. These Abs also effectively inhibited spreading, migration and Matrigel invasion of HMW-MAA(+) melanoma cells. Besides contributing to our understanding of the role of HMW-MAA in the biology of melanoma cells, these results suggest that both immunological and nonimmunological mechanisms underlie the beneficial clinical effects associated with the induction of HMW-MAA-specific Abs in melanoma patients immunized with a HMW-MAA mimic.     

Kinetics of cellular trafficking and cytotoxicity of 9.2.27-gelonin immunotoxins targeted against the high-molecular-weight melanoma-associated antigen

The high-molecular-weight melanoma-associated antigen (HMW-MAA) is expressed on a large majority of melanoma tissues but not on most normal or other neoplastic tissues. Monoclonal antibody 9.2.27 binds with high affinity and specificity to the HMW-MAA, making it an attractive choice as an agent for targeting toxins or chemotherapeutic agents specifically towards melanomas. To characterize the interactions between 9.2.27 and melanoma cells more carefully, data on the kinetics of binding, internalization, and degradation of 9.2.27 by SK-MEL-2 cells were collected. Binding of 9.2.27 to SK-MEL-2 cells was rapid, and followed by slow loss of surface-bound antibody, probably because of loss of surface antigen caused by degradation and/or shedding. A small fraction (approx. 5%) of surface-bound 9.2.27 was internalized and degraded. A mathematical model describing these interactions was developed, and equilibrium and kinetic constants were fitted to the data. To evaluate the utility of 9.2.27 as a toxin-targeting agent, 9.2.27-gelonin immunotoxins were constructed and tested in protein synthesis inhibition assays. The dependence of the toxicity data for 9.2.27-gelonin on time and concentration was quantitatively related to the accumulated intracellular exposure to 9.2.27-gelonin by a relatively simple equation. This equation had been previously validated for immunotoxins targeted against the transferrin receptor, for which the trafficking kinetics are quite dissimilar from those of the HMW-MAA. The success of the approach here suggests that this method may be widely applicable for analysis of immunotoxin efficacy. Received: 30 July 1998 / Accepted: 7 October 1998