The MUC1 oncoprotein as a functional target: immunotoxin binding to alpha/beta junction mediates cell killing

MUC1, a heavily glycosylated mucin, has generated considerable interest as a target for tumor killing because of its overexpression in malignancies. Full-length MUC1 (MUC1/TM) is proteolytically cleaved after synthesis generating alpha and beta subunits, which specifically bind in a noncovalent interaction. Although the beta chain remains on the cell surface, the alpha chain binds in an on-and-off interaction. Most anti-MUC1 antibodies (Abs) described to date recognize epitopes within the highly immunogenic alpha-chain tandem repeat. Because the alpha-chain is shed, such Abs are sequestered and fail to reach MUC1-expressing cells. Immunizing with cDNA encoding MUC1/TM and the spliced MUC1/X isoform from which the tandem repeat has been deleted yielded antibodies to the MUC1 alpha/beta junction. Pseudomonas toxin PE38 linked to polyclonal anti-MUC1 alpha/beta junction Abs both bound and killed MUC1-positive malignant cells. Monoclonal DMC209 binds the MUC1 alpha/beta junction in both MUC1/X and MUC1/TM. When injected into SCID mice xenotransplanted with human breast cancer MDA-MB-231, monoclonal DMC209 showed significant in vivo tumor-suppressive activity. The MUC1/X alpha/beta junction presents a biologically-significant target in MUC1-expressing malignancies because (i) antibodies directed against cell-bound alpha/beta junction epitopes reach the intended cellular target, (ii) antibodies to junction epitope are internalized into cells, (iii) anti alpha/beta junction antibodies can effectively kill high MUC1-expressing cancer cells as antibody-toxin conjugates and (iv) antibodies targeting the MUC1 cell-bound alpha/beta junction results in tumor suppression in vivo. Our results indicate that cell-bound MUC1 alpha/beta junction, unlike shed alpha chain, represents a highly effective moiety for targeting and killing MUC1-expressing malignancies.     

Protection against MUC1 expressing mouse tumours by intra-muscular injection of MUC1 cDNA requires functional CD8+ and CD4+ T cells but does not require the MUC1 tandem repeat domain

Using a C57Bl/6 mouse model system, where intramuscular (i.m.) injection of full length (FL) MUC1 cDNA protects against subsequent challenge with MUC1-expressing syngeneic tumour cells, we have investigated the importance of the tandem repeat (TR) domain in the induction of T cell-dependent tumour rejection. A MUC1 construct engineered to remove the TR domain (MUC1 0TR) was found to be as effective as the full length MUC1 cDNA in inhibiting the growth of RMA MUC1 cells in C57Bl/6 mice. Protection by i.m. injection of either the FL-MUC1 cDNA or the MUC1 0TR construct depended on the presence of functional CD4+ and CD8+ T cells. Specific CD8+ T cell responses, however, could not be detected in vitro using mouse spleen cells taken after only cDNA injection, but only after challenge in vivo with MUC1-expressing tumour cells. To attempt to enhance the responses of CD4+ T cells, a cDNA construct was developed, where the extracellular domain of MUC1 was fused to the transmembrane and cytoplasmic domain of Lamp1 (MUC1/Lamp1). This construct was equally effective in inducing tumour rejection but did not induce MUC1-specific CTL in mice before challenge with MUC1-expressing tumour cells. Our results indicate that, in this model, T cell responses necessary for protection against MUC1-expressing tumours that are induced by IM injection of MUC1 cDNA are independent of the tandem repeat domain as well as the transmembrane and cytoplasmic domains. A low level of protection was seen with all constructs in BALB/c mice, which show a defect in Th1 responses. C57Bl/6xBALB/c hybrids were, however, well protected against both H2(d) and H2(b) expressing tumour challenge, emphasizing the importance of the host background.     

Novel breast-tumor-associated MUC1-derived peptides: characterization in Db-/- x beta2 microglobulin (beta2m) null mice transgenic for a chimeric HLA-A2.1/Db-beta2 microglobulin single chain

The MUC1 protein was found to be up-regulated in a spectrum of malignant tumors. T-cell responses to the MUC1 extracellular tandem repeat array (TRA) were observed in murine models as well as in breast-carcinoma patients. In the present study, we evaluated the anti-tumor potential of HLA-A2.1-motif-selected peptides from non-TRA domains of the molecule. Peptide immunogenicity was examined in the Db-/- x beta2 microglobulin (beta2m) null mice transgenic for a modified HLA-A2.1/Db-beta2 microglobulin single chain (HHD mice). Our results show the existence of 3 novel HLA-A2.1-restricted MUC1-derived cytotoxic T-lymphocyte (CTL) epitopes. These peptides are processed and presented by the HHD-transfected breast-tumor cell line MDA-MB-157. Moreover, CTL induced by these 3 peptides show higher lysis of target cells pulsed with breast-carcinoma-derived peptides than of targets pulsed with normal breast-tissue-derived peptides. These data suggest an important role for non-TRA MUC1-derived peptides as inducers of a MHC-restricted CTL reaction to a breast-carcinoma cell line and patient-derived tumor extracts.     

Identification of three non-VNTR MUC1-derived HLA-A*0201-restricted T-cell epitopes that induce protective anti-tumor immunity in HLA-A2/K(b)-transgenic mice

The human epithelial mucin MUC1 is over-expressed in more than 90% of carcinomas of the breast, ovary, and pancreas as well as in some other tumours, making it a potential target for tumour immunotherapy. We have identified several MUC1-derived peptides mapping outside the variable number tandem repeat region that comply with the peptide-binding motif for HLA-A*0201 and that become processed into stable major histocompatibility complex-peptide complexes as assessed by in vitro assays. In A2/K(b) transgenic mice, 3 peptides, namely MUC(79-87) (TLAPATEPA), MUC(167-175) (ALGSTAPPV) and MUC(264-272) (FLSFHISNL) elicit peptide-specific cytotoxic T lymphocyte (CTL) immunity, which protects these mice against a challenge with MUC1, A2/K(b)-expressing tumour cells. These peptides therefore represent naturally processed MUC1-derived CTL epitopes that could be used as components in peptide-based vaccines and for the analysis of anti-MUC1 CTL responses in A*0201-positive patients with MUC1-expressing tumours.     

Human MUC4 mucin induces ultra-structural changes and tumorigenicity in pancreatic cancer cells

MUC4 is a type-1 transmembrane glycoprotein and is overexpressed in many carcinomas. It is a heterodimeric protein of 930 kDa, composed of a mucin-type subunit, MUC4alpha, and a membrane-bound growth factor-like subunit, MUC4beta. MUC4 mRNA contains unique 5' and 3' coding sequences along with a large variable number of tandem repeat (VNTR) domain of 7-19 kb. A direct association of MUC4 overexpression has been established with the degree of invasiveness and poor prognosis of pancreatic cancer. To understand the precise role of MUC4 in pancreatic cancer, we engineered a MUC4 complementary DNA construct, mini-MUC4, whose deduced protein (320 kDa) is comparable with that of wild-type MUC4 (930 kDa) but represents only 10% of VNTR. Stable ectopic expression of mini-MUC4 in two human pancreatic cancer cell lines, Panc1 and MiaPaCa, showed that MUC4 minigene expression follows a biosynthesis and localisation pattern similar to the wild-type MUC4. Expression of MUC4 resulted in increased growth, motility, and invasiveness of the pancreatic cancer cells in vitro. Ultra-structural examination of MUC4-transfected cells showed the presence of increased number and size of mitochondria. The MUC4-expressing cells also demonstrated an enhanced tumorigenicity in an orthotopic xenograft nude mice model, further supporting a direct role of MUC4 in inducing the cancer properties. In conclusion, our results suggest that MUC4 promotes tumorigenicity and is directly involved in growth and survival of the cancer cells.     

MUC1 isoform specific monoclonal antibody 6E6/2 detects preferential expression of the novel MUC1/Y protein in breast and ovarian cancer.

The products of the MUC1 gene are known to be highly expressed in human breast cancer cells. The best characterized MUC1 protein is a polymorphic, type 1 transmembrane molecule containing a large extracellular domain composed primarily of a variable number of 20 amino acid tandem repeats. We have recently identified a novel protein product of the MUC1 gene, the MUC1/Y protein, that is also a transmembrane protein but is devoid of the tandem repeat array and its immediate flanking sequences. To analyze its expression in tumor cells we generated monoclonal antibodies directed against the MUC1/Y extracellular domain (anti-MUC1/Yex MAbs). Epitope mapping identified the MAb, 6E6, which recognized the MUC1/Y isoform with exquisite specificity- the repeat-array-containing MUC1 isoform could not compete out this immunoreactivity. A 30mer peptide which is unique for MUC1/Y and corresponds to the "join" region generated by the MUC1/Y specific splice, abrogated all 6E6 MAb immunoreactivity towards MUC1/Y. Immunoprecipitation of the MUC1/Y protein with 6E6 MAbs revealed that, in contrast with the proteolytic cleavage of the tandem-repeat-array-containing MUC1 isoform, MUC1/Y is not cleaved. Flow cytometry analyses using the 6E6 MAbs demonstrated that the MUC1/Y isoform is expressed on the cell surface of both MCF-7 breast cancer cells and malignant epithelial cells present in effusions obtained from breast and ovarian cancer patients. Our results unequivocally establish that the MUC1/Y protein is expressed on the surface of breast cancer cells and cells of other epithelial malignancies. The anti-MUC1/Y MAbs described here can target MUC1/Y expressing tumor cells in vivo and are likely to be important reagents both for epithelial tumor diagnosis and immunotherapy.     

Characterization of a new MUC1 monoclonal antibody (VU-2-G7) directed to the glycosylated PDTR sequence of MUC1.

A monoclonal antibody (MAb), VU-2-G7, was generated against a synthetic 60-mer MUC1 triple tandem repeat peptide with N-acetyl-galactosamine (GalNAc) O-linked to the threonine in the PDTR region of each repeat (3M GalNAc). VU-2-G7 and 8 MUC1 MAbs (VU-3-C6, VU-4-H5, 139H2, A76-A/C7, VU-12-E1, BCP9, MF11 and BW835) were tested against various glycosylated and nonglycosylated MUC1 tandem repeat peptides. VU-2-G7 showed strong reactivity with its immunogen, 3M GalNAc, and much lower reactivity with the nonglycosylated 60-mer MUC1 triple tandem repeat peptide. VU-2-G7 showed no reactivity with a 60-mer MUC1 triple tandem repeat peptide modified at the PDTR region or with a 60-mer MUC1 triple tandem repeat peptide with 3 GalNAc per repeat outside the PDTR region (9M GalNAc). In ELISA and flow cytometry, VU-2-G7 ubiquitously reacted with 4 MUC1-expressing breast cancer and 2 ovarian cancer cell lines and with a MUC1-gene-transfected Chinese hamster ovary cell line. The reactivity of VU-2-G7 was always higher than that of VU-4-H5, raised against a nonglycosylated 60-mer MUC1 triple tandem repeat peptide. Immunohistochemical staining of paraffin sections of breast and ovarian tumor tissues showed strong binding of VU-2-G7 predominantly at the cell membrane. The dominant epitope of VU-2-G7 is in the glycosylated PDTR motif of the MUC1 tandem repeat, and this epitope is abundantly present on the surface of tumor cell lines and breast and ovarian tumor tissues. Given the ubiquitously aberrant glycosylation of MUC1 in malignant cells, the production of MAbs against highly purified glycosylated MUC1 tandem repeat peptides may yield MAbs better suited for the immunotherapy of carcinomas than those available at the moment.     

Antibody-dependent cell-mediated cytotoxicity can be induced by MUC1 peptide vaccination of breast cancer patients

Human polymorphic epithelial mucin (PEM, MUC1) is a high molecular weight transmembrane glycoprotein expressed on the apical cell surface of glandular epithelium and is over-expressed and hypo-glycosylated in adenocarcinomas. The extracellular part of the molecule consists mainly of a variable number of 20 amino acid repeats that contain cryptic epitopes exposed in malignancy. The objective of our study was to determine whether humanized MUC1 MAbs and Abs induced by vaccination of breast cancer patients with MUC1 peptides can effect an antibody-dependent cell-mediated cytotoxicity (ADCC). An in vitro assay has been set up in which the breast tumor cell line ZR-75-1 is used as target and PBMC of healthy donors as effector cells. Different target and effector cells, as well as various MUC1 MAbs were tested to optimize the efficacy of the in vitro assay. The humanized MAb HuHMFG-1, which recognizes the PDTR sequence in the MUC1 tandem repeat, induced a strong cell-mediated cytotoxicity. Nine MUC1-expressing tumor cell lines, including 3 bone marrow-derived cell lines, as well as 2 MUC1-transfected cell lines were susceptible to different extent to MUC1 Ab-dependent killing. Large variations in the killing capacity of PBMC from healthy donors were found. The NK cells were the essential effector cells for the MUC1 Ab-dependent killing. Plasma samples with induced high levels of MUC1 Ab were obtained from breast cancer patients repeatedly immunized with a KLH-conjugated 33-mer or 106-mer MUC1 tandem repeat. Pre- and post-vaccinated plasma samples of these patients were compared in the ADCC assay and it could be clearly demonstrated that the induced MUC1 Abs can effect tumor cell killing. MUC1 Ab-dependent cell-mediated tumor cell killing may occur in vivo and the ADCC assay can be applied to monitor MUC1 vaccination trials.     

Contribution of the MUC1 tandem repeat and cytoplasmic tail to invasive and metastatic properties of a pancreatic cancer cell line

MUC1 is a polymorphic, highly glycosylated, type I transmembrane protein expressed by ductal epithelial cells of many organs including pancreas, breast, gastrointestinal tract, and airway. MUC1 is overexpressed and differentially glycosylated by adenocarcinomas that arise in these organs, and is believed to contribute to invasive and metastatic potential by contributing to cell surface adhesion properties [via the tandem repeat (TR) domain] and through morphogenetic signal transduction [via the cytoplasmic tail (CT)]. The large extracellular TR of MUC1 consists of a heavily glycosylated, 20 amino acid sequence that shows allelic variation with respect to number of repeats. This portion of MUC1 may directly mediate adhesive or antiadhesive interactions with other surface molecules on adjacent cells and through these interactions initiate signal transduction pathways that are transmitted through the CT. We investigated the contribution of the TR domain and the CT of MUC1 to the in vivo invasive and metastatic potential, and the gene expression profile of the human pancreatic tumor cell line S2-013. Results showed that S2-013 cells overexpressing full-length MUC1 displayed a less invasive and metastatic phenotype compared with control-transfected cells and cells expressing MUC1 lacking the TR domain or CT. Clonal populations were analyzed by cDNA array gene expression analysis, which showed differences in the gene expression profiles between the different cell lines. Among the genes differentially expressed were several that encode proteins believed to play a role in invasion and metastasis.     

Production of anti-breast cancer monoclonal antibodies using a glutathione-S-transferase-MUC1 bacterial fusion protein.

Two murine Mabs VA1(IgG1) and VA2(IgG1) were produced against a bacterial fusion protein comprising glutathione S-transferase and five tandem repeats of the MUC1 protein. Using the immunoperoxidase staining technique, VA1 detected 46/53 and VA2 detected 48/53 breast cancers and both also reacted with a range of other human epithelial carcinomas. In addition VA1 gave weak reactions with normal breast tissues whereas VA2 was non-reactive and could be a relatively tumour specific antibody for breast cancer. The antibodies were also tested by ELISA-VA1 reacted weakly with glycosylated HMFG but strongly with deglycosylated HMFG, whereas VA2 reacted strongly with both forms of HMFG. The reactivities of the two Mabs with synthetic peptides of the MUC1 tandem repeat were used to map the epitopes recognised by VA1 (amino acids RPAPGS) and VA2 (amino acids DTRPA). The use of fusion proteins provides another means of immunisation to produce anti-tumour antibodies.     

Phase I dose escalation pharmacokinetic assessment of intravenous humanized anti-MUC1 antibody AS1402 in patients with advanced breast cancer

Introduction  

MUC1 is a cell-surface glycoprotein that establishes a molecular barrier at the epithelial surface and engages in morphogenetic signal transduction. Alterations in MUC1 glycosylation accompany the development of cancer and influence cellular growth, differentiation, transformation, adhesion, invasion, and immune surveillance. A 20-amino-acid tandem repeat that forms the core protein of MUC1 is overexpressed and aberrantly glycosylated in the majority of epithelial tumors. AS1402 (formerly R1550) is a humanized IgG1k monoclonal antibody that binds to PDTR sequences within this tandem repeat that are not exposed in normal cells. AS1402 is a potent inducer of antibody-dependent cellular cytotoxicity (ADCC), specifically against MUC1-expressing tumor cells. The objective of this study was to determine the safety, tolerability, and pharmacokinetic (PK) characteristics of AS1402 monotherapy in patients with locally advanced or metastatic MUC1-positive breast cancer that had progressed after anthracyclines- and taxane-based therapy.     

Mouse mucin 1 (MUC1) defined by monoclonal antibodies

Mucins are highly expressed in many different human cancers and numerous murine monoclonal antibodies (MAbs) to human mucins, particularly Mucin 1 (MUC1), have been produced. However, no such antibodies to murine mucin 1 (muc1) have been described and we now describe 6 different antibodies produced to murine muc1 and to human MUC1 cytoplasmic tail, either by immunising rats, or muc1 o/o mice with synthetic peptides or a fusion protein composed of glutathione-s-transferase (GST) linked to the tandem repeat region of muc1. The antibodies to both the extracellular tandem repeat region and to the cytoplasmic tail were found to react with mucin-containing murine tissues such as breast, stomach, colon, ovary, kidney and pancreas, and the staining patterns were similar to those found in humans. The reagents reacted specifically with muc1 peptides and tissues; however, some cross reactivity with other mucin-derived peptides was noted, particularly those containing the amino acid sequence TSS. Three different epitopes (TSS, TAVLSGTS and LSGTSSP) of the M30, M70 and MFP25 MAbs were detected. Of interest was the finding that some of the antibodies reacted with murine lymphocytes; it was not clear whether these reactions were due to mucin 1 on mouse lymphocytes (MUC1 was considered to be absent from human lymphocyte), or due to cross reaction with a sialic adhesion molecule on lymphocytes. The antibodies should prove valuable reagents when studying differentiation and expression in murine glandular tissues and the ontogeny of mucin-secreting tumours. Int. J. Cancer 76:875–883, 1998.© 1998 Wiley-Liss, Inc.     

A novel monoclonal antibody, H9, directed against the core protein of MUC1 mucin

MUC1 mucin is a target protein for many monoclonal antibodies. Human MUC1 detected by a murine anti-KL-6 monoclonal antibody that recognizes a sialylated carbohydrate chain has been designated KL-6/MUC1. Given the heterogeneous antigenicity of KL-6/MUC1, we established a new murine monoclonal antibody, H9, that reacts with epitope DTRP (Asp-Thr-Arg-Pro) peptides within the immunodominant region of the tandem repeat of MUC1 mucin. The reactivity of the H9 antibody differs from that of other previously reported antibodies that recognize the tandem repeat region of MUC1. Immunohistochemical experiments indicate that the reactivity of the H9 antibody is similar to that of other antibodies directed against MUC1 core proteins. A new cancer-associated protein detected by a sandwich assay using the H9 antibody as a catcher and the KL-6 antibody as a tracer is designated HK9. Serum HK9 levels showed a high expression level in lung cancer: 51% (19/37 cases) for adenocarcinoma, 39% (11/28 cases) for squamous cell carcinoma, and 67% (10/15 cases) for small cell carcinoma. The HK9 expression in lung cancer increased with cancer progression. These findings suggest monoclonal antibody H9 to be a novel antibody that reacts with an epitope within the tandem repeat region of MUC1, and that the cancer-associated antigen HK9 may have useful tumor-associated properties.     

黏蛋白1多肽通过small-MUC1蛋白抑制肿瘤细胞生长

目的：探讨黏蛋白1（mucin 1,MUC1）串联重复序列多肽(简称黏蛋白1多肽,MUC1多肽)对肿瘤细胞生长抑制的作用机制。方法：MUC1多肽与多种肿瘤细胞Jurkat、Raji、U937、MCF7、SMMC7721及活化的T细胞、小鼠巨噬细胞RAW264.7共同培养,观察MUC1多肽对上述细胞生长的影响;建立BABL/c小鼠Jurkat细胞皮下移植瘤动物模型,应用MUC1多肽进行治疗;采用GST免疫沉降实验鉴定与MUC1多肽结合的肿瘤细胞表面蛋白。结果：MUC1多肽对Jurkat、Raji、U937、MCF7和SMMC7721细胞的生长均有抑制作用,对活化的T细胞和小鼠RAW264.7细胞生长无明显抑制作用。MUC1多肽对BABL/c小鼠皮下Jurkat细胞移植瘤的生长均有明显抑制作用（P<0.05）。GST免疫沉降实验显示,Jurkat 和MCF7细胞裂解上清中与MUC1多肽结合的蛋白可与两种抗MUC1串联重复序列抗体（GP1.4和HMPV）及抗胞内段抗体（Ab5）发生反应,相对分子质量大约115 000,提示可能是MUC1新的同种型,命名为small MUC1（sMUC1）。结论：MUC1多肽可通过与肿瘤细胞表面small MUC1蛋白的相互作用向细胞传导生长抑制信号     

MUC1: a target molecule for cancer therapy

MUC1 is a mucin family protein, overexpressed in more than 90% of breast cancers in an underglycosylated form, exposing the core peptides of the extracellular domain that act as a potential target for antibody-mediated therapy. The highly conserved repeats of 20 amino acids VNTR varies between 20 and 125 depending on the allele. Each tandem repeat contains five potential O-glycosylation sites that have been exploited in designing cancer therapeutics. The core peptides in the tandem repeated VNTR domain are masked in normal cells and become exposed in the cancer cells associated mucins. The characteristics of the MUCI epitopes constituted with the tandem repeats and the carbohydrates present on MUC1 induce immune responses that favor targeted immunotherapy. In addition, aberrant glycosylation also plays an important role in enhancing the internalization of MUC1 into the cytoplasm making MUC1 a very attractive cytoplasmic delivery system of drugs and other therapeutic agents. MUC1 being present on most of the cancers of glandular epithelial origin, appears as a potential target for therapeutic interventions in these cancers.     

Beta 1 integrin expression on human small cell lung cancer cells.

The integrins are a supergene family of cell surface glycoproteins that promote cellular adhesion. Each member of the family is an alpha/beta heterodimer composed of a distinct alpha subunit noncovalently linked to one of at least six common beta subunits. These include the six beta 1 integrins (alpha 1-6/beta 1) which represent receptors for extracellular matrix proteins and the three beta 2 integrins (alpha L, alpha M, alpha X/beta 2) that are expressed by leukocytes and which bind to C3bi and/or endothelial ligands. Recently, it was reported that certain human tumor cells express the beta 1 integrins and that small cell lung cancer (SCLC) cell lines express the beta 2 integrin Mo1 (alpha M/beta 2). To extend these initial observations, we examined SCLC cell lines for integrin expression at the glycoprotein and mRNA levels and assessed the potential function of these integrins in promoting SCLC adhesion. An indirect immunofluorescence analysis of five SCLC cell lines (NCI-H187, H345, H146, H209, and N417) using alpha and beta subunit-specific monoclonal antibodies demonstrated the uniform expression of beta 1 (beta 1 much greater than beta 2 greater than or equal to beta 3 congruent to beta 4). Among the beta 1-associated alpha subunits, alpha 3 was uniformly expressed at high surface density by all five cell lines (as confirmed in H345 cells by sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis of anti-beta 1 and anti-alpha 3 immunoprecipitates), while alpha 5 was not detected. The leukocyte (beta 2-associated) alpha M and alpha L subunits were also variably expressed by the five lines. Consistent with the surface expression of beta 1 integrin gene products, beta 1 (but not beta 2) mRNA was detected in SCLC cells by Northern blot analysis. That beta 1 integrin expression was involved in SCLC adhesion was suggested by the adherence of H345 cells to laminin, a known ligand for the alpha 3 beta 1 integrin. Moreover, an antibody specific for the beta 1 subunit inhibited this adhesion, indicating that the beta 1 subunit promotes adhesion to laminin. We conclude that beta 1 integrin molecules are expressed by human SCLC cells (with uniform expression of alpha 3/beta 1) and promote their adhesion to laminin.     

Inhibition of tumor growth by recombinant vaccinia virus expressing GA733/CO17-1A/EpCAM/KSA/KS1-4 antigen in mice

The human colorectal carcinoma (CRC)-associated GA733 antigen (Ag), also named CO17-1A/EpCAM/KSA/KS1-4, has been a useful target in passive immunotherapy of CRC patients with monoclonal antibody (mAb) and in active immunotherapy with anti-idiotypic antibodies or with recombinant protein. These approaches have targeted single epitopes (monoclonal anti-GA733 antibodies and anti-idiotypic antibodies) or extracellular domain epitopes (recombinant protein), primarily by B cells. To determine whether a reagent that induces immunity to a larger number of both B- and T-cell epitopes might represent a superior vaccine, we analyzed the capacity of full-length GA733 Ag expressing multiple potentially immunogenic epitopes and encoded by recombinant vaccinia virus (VV GA733-2) to induce humoral, cellular, and/or protective immunity in mice. VV GA733-2 induced Ag-specific antibodies that reacted predominantly to unknown epitopes on the Ag and lysed Ag-positive CRC targets in conjunction with murine peritoneal macrophages as effector cells. Immunized mice developed Ag-specific, proliferative and delayed-type hypersensitive lymphocytes. VV GA733-2 inhibited growth of ras-transformed syngeneic tumor cells expressing the human GA733 Ag in mice. These results suggest the potential of VV GA733-2 as a candidate vaccine for patients with CRC, possibly in combination with recombinant GA733-2-expressing adenovirus, which has been shown to induce cytolytic antibodies and T cells as well as tumor protective effects in mice. The combined vaccine approach may be superior to the use of either vaccine alone in patients who are pre-immune to both viruses.     

Overexpression of MUC1 reconfigures the binding properties of tumor cells.

Although it is known that adhesion and antiadhesion are essential to the metastatic spread of tumor cells, little is known about the molecules that regulate these processes. MUC1 is overexpressed and aberrantly glycosylated by a variety of tumor cells. Studies described here examined whether tumor-associated MUC1 conferred new binding properties on tumor cell lines. Flow cytometry analysis with soluble P-, E- and L-selectin/IgM chimeric proteins was performed on human pancreatic (S2-013 and Panc-1) and colon (Caco-2) tumor cells. S2-013 cells bound E- and P-selectin and Caco-2 cells bound P-selectin. Epitope-tagged MUC1 (MUC1F) expressed by S2-013, Panc-1 and Caco-2 tumor cells did not bind to P-, E- or L-selectin. Overexpression of MUC1F on the surface of S2-013 cells blocked the interactions of E-selectin to tumor-associated ligand(s) but did not affect accessibility of monoclonal antibodies to other cell surface glycoproteins (CD9, CD44). Cell aggregation assays revealed that MUC1F expressed by S2-013 cells was able to bind to intracellular adhesion molecule-1 expressed on B cells. Overexpression of MUC1F containing a targeted mutation (the tandem repeat domain entirely or partially deleted) did not block the binding of E-selectin to its S2-013-associated ligand. These results demonstrate for the first time that the heavily O-glycosylated tandem repeat domain of MUC1 can simultaneously mediate and block binding to adhesion molecules with some molecular specificity and further support the hypothesis that MUC1 plays a dual role in the metastatic spread of tumor cells.     

CA19-9 epitope a possible marker for MUC-1/Y protein

It has been reported that MUC-1 molecules devoid of the tandem repeat region (MUC-1/Y) are detected preferentially in carcinoma cells and are associated with their progression. However, its clinical significance is still unknown. We constructed a mouse colon adenocarcinoma cell line (MC-38) transduced with either MUC-1/Y cDNA defecting the tandem repeat region (Y-MC-38) or MUC-1/R cDNA containing ten tandem repeats (R-MC-38). RT-PCR of mRNAs derived from Y-MC-38 cells using the specific primers to MUC-1/Y mRNAs, proved the existence of 600 bp RT-PCR products generated only from MUC-1/Y mRNAs. DF3 and CA19-9 epitopes out of the MUC-1-related tumor-associated antigens, have been reported to be involved in the prognosis of cancer patients. We examined the expression of DF3 and CA19-9 epitopes on Y-MC-38 and R-MC-38 cells. Fluorescence-activated cell sorting (FACS) analysis of R-MC-38 and Y-MC-38 cells using two monoclonal antibodies against DF3 (mAb DF3) and CA19-9 (mAb CA19-9) epitopes revealed that R-MC-38 cells expressed DF3 but not CA19-9 [DF3(+)CA19-9(-)], while Y-MC-38 cells expressed CA19-9 but not DF3 [DF3(-)CA19-9(+)]. On Western blot, a 40 kDa protein product was recognized by mAb CA19-9 but not by mAb DF3 on cell lysates of Y-MC-38 cells, whereas a 70 kDa protein product was recognized by mAb DF3 but not by mAb CA19-9 on the cell lysates of R-MC-38. Further, we analyzed the expression of MUC-1/Y mRNAs by RT-PCR on various human cancer cell lines: the gastric cancer cell line AZ521, the pancreatic cancer cell lines PANC-1 and Capan-1, the gall bladder cell line GBK-1, the breast cancer cell line MCF-7, and the colon cancer cell lines HT-29 and Colo205. HT-29 and Capan-1 cells producing the 600 bp RT-PCR product, were positive for mAb CA19-9. These results demonstrate that CA19-9 epitope is produced only on MUC-1/Y core protein, suggesting that CA19-9 epitope may be a specific marker for MUC-1/Y protein.