Analysis of potential markers for detection of submicroscopic lymph node metastases in breast cancer

We have developed sensitive assays for cytokeratin (K) 8, 16, 19, stromelysin 3 (ST3), MUC1 and maspin mRNAs using reverse transcription polymerase chain reaction (RT-PCR) and used these to assess lymph node status in patients undergoing surgery for breast cancer. In addition the RT-PCR assays were tested against lymph nodes from non-cancer patients to determine their specificity. Despite high sensitivity RT-PCR assays for K8, K16, K19, ST3 and maspin were not found to be useful as markers of submicroscopic disease as transcripts of these genes were detected in the great majority of control lymph nodes tested. Expression of MUC1 was also not found to be useful as it was both insensitive and non-specific. The importance of assessing potential markers against an adequately sized control population is demonstrated, as failure to do so can lead to erroneous conclusions.

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.

MUC1 upregulation by ethanol

MUC1 is a glycoprotein and its expression is altered in breast cancer. Mucin protects epithelia from the external hostile environment. The expression of mucin changes when epithelia come in contact with toxic agents such as ethanol. Previously, we characterized the expression and regulation of tracheo-bronchial mucin (TBM) gene. In the present study, we studied the effect of ethanol on the gene encoding mammary gland mucin MUC1 and observed that ethanol regulates MUC1 expression at the transcription level. Ethanol enhanced the expression of MUC1 mRNA in a dose- and time-dependent manner in MCF-7 cells. At 100 mM concentration (a concentration reported to be present in alcoholics), ethanol induced a three to five-fold increase in mucin transcription as determined by nuclear run on analysis. This concentration of ethanol does not affect the half-life of MUC1 mRNA.

Proteins expressed by pancreatic duct cells and their relatives

Significant progress has been made in the characterization of the structure and function of pancreatic ductal cells. Our understanding at this point in time extends to knowledge of specific molecules that provide for the structural composition of the ductal cells, their interactions with the local environment, and the regulation of their growth and properties of differentiation. Knowledge of the molecular composition and structure of the secretory products of epithelial cells in the pancreas also has increased so that we now understand the individual contributions of several secretory products to the overall function of pancreatic juice. Further study of these parameters will give us important insight into the normal function of the ductal cells and into how these processes are altered during the development and progression of diseases of the pancreas such as pancreatitis and cancer.

MUC1 expression in hematopoietic tissues

The MUC1 gene encodes the core protein of episialin, which is recognized by several antibodies. Reverse transcription-polymerase chain reaction (RT-PCR) detection of MUC1 transcripts has been proposed for the detection of micrometastases from breast cancers. MUC1 expression in hematopoietic tissues has been reported but not confirmed. Our preliminary RT-PCR studies confirmed MUC1 expression by MDA-231 breast cancer cells. Western blots of MDA-231 proteins stained with anti-MUC1 core gave one 68-kd (core protein) band, with an additional high molecular weight (HMW) band in blots stained with anti-epithelial membrane antigen (EMA). MUC1 expression was detectable by RT-PCR in 4 samples each of peripheral blood, bone marrow, and lymph node. MUC1 expression was detectable by Western blot analysis using anti-MUC1 core and anti-EMA in 2 peripheral blood samples and all bone marrow samples. Western blots from all lymph node samples stained positively with anti-EMA for the HMW product, but the 68-kd product was less prominent. Separated peripheral blood lymphocytes and granulocytes showed similar levels of MUC1 expression. RT-PCR studies demonstrated MUC1 expression in various hematopoietic cell lines. Western blots showed the 68-kd and HMW products in a granulopoietic line, with only the 68-kd product in 3 lymphoblastoid lines. MUC1 is expressed ubiquitously in hematopoietic tissues and is unsuitable for use as a marker for epithelial micrometastases.

Bacterial conjunctivitis in Muc1 null mice

PURPOSE

In contrast to wild-type mice, genetically engineered Mucin1 (Muc1) null animals display a marked propensity for development of blepharitis and conjunctivitis. Molecular approaches confirmed the presence of Muc1 mRNA and protein in the conjunctival tissue of wild-type mice and identified the bacterial species in Muc1 null symptomatic mice.

METHODS

Muc1 null animals housed in a conventional facility were examined for visually apparent inflammation of the eye and surrounding tissue. Blood taken from overtly affected animals was assayed for antibodies to common murine viral agents. Swabs of infected eyes and whole eye preparations were used to detect and speciate bacterial pathogens. Frozen sections of whole eye, lid margin, and Harderian gland were immunostained with antibodies to Muc1 and cytokeratin 14, both epithelial cell markers. Northern blot analysis and reverse transcription-polymerase chain reaction (RT-PCR) were performed on RNA isolated from conjunctiva and Harderian gland of wild-type mice to compare relative levels of transcript.

RESULTS

Student's unpaired t-test performed on the eye inflammation frequency of Muc1 null mice confirmed a statistical significance (P < 0.01) when compared to wild-type background animals housed in the same room. Analysis of blood samples from affected Muc1 null animals detected no common murine viral pathogens. Bacterial analysis of conjunctival swabs and whole eye preparations demonstrated the presence of coagulase-negative Staphylococcus, Streptococcus type alpha, and Corynebacterium group G2. Muc1 antibody staining of wild-type sections revealed the presence of Muc1 on conjunctival goblet and non-goblet cells and on the epithelium of the Harderian gland. Serial sections stained with cytokeratin 14 antibody confirmed the epithelial nature of cells expressing the Muc1 protein. RNA from conjunctiva and Harderian gland subjected to RT-PCR and northern blot analysis showed an abundance of Muc1 transcript in these tissues.

CONCLUSIONS

Muc1 mRNA and protein are present in murine conjunctival and Harderian gland epithelia. Animals lacking Muc1 mRNA and protein are predisposed to developing eye inflammation when compared to wild-type animals with an intact Muc1 gene. Muc1 appears to play a critical protective role at the ocular surface, presumably by acting as a barrier to infection by certain bacterial strains.

MUC1 gene polymorphism does not explain the different incidence of gastric cancer in Portugal and Denmark

MUC1 is a highly polymorphic mucin type glycoprotein expressed on the surface of many epithelia, including gastric mucosa, and is present in several body fluids and mucous secretions. A genetic polymorphism due to variation in length of a 60 bp tandemly repeated sequence domain constitutes more than half of the coding region of the glycoprotein. We demonstrated previously in a Portuguese population sample that the frequency of small MUC1 alleles is increased in patients with gastric carcinoma, suggesting that the possession of small MUC1 alleles confers increased risk for gastric carcinoma development. This finding raised the possibility that the very high prevalence of gastric carcinoma in Portugal could be partly due to a high frequency of small MUC1 alleles in the Portuguese population. In the present study we compared the MUC1 allele distribution in a population of Danish blood donors with the distribution in a population of Portuguese blood donors. The frequency of small MUC1 alleles was significantly higher in the Danish than in the Portuguese sample, thus failing to lend support to the hypothesis that a relatively higher frequency of the small MUC1 alleles might account for the high prevalence of gastric carcinoma in Portugal when compared to Denmark.

Expression of MUC1 and MUC2 mucin core proteins and their messenger RNA in gall bladder carcinoma: an immunohistochemical and in situ hybridization study

Expression of mucin core protein MUC1 and MUC2 was examined at the protein and mRNA level in 55 cases of carcinoma and 20 of dysplasia, and in 15 non-dysplastic epithelia of the gall bladder. In non-dysplastic epithelium, MUC1 protein was not expressed, while in dysplasia, MUC1 was focally expressed in ten cases, particularly in those associated with carcinoma. In carcinoma, MUC1 was expressed heterogeneously, and the frequency and extent of MUC1 expression increased with histological dedifferentiation. MUC1 was found on the apical cell surface and also in the cytoplasm in well- and moderately-differentiated carcinoma, and on the cell border in poorly-differentiated cases. In infiltrative regions, MUC1 expression was more predominant and MUC1 frequently leaked outside the foci of carcinoma. By contrast, MUC2 was focally expressed in non-dysplastic as well as in dysplastic epithelia and more frequently in well-differentiated adenocarcinoma. MUC2-positive cells resembled goblet cells, whether in non-dysplastic epithelium, dysplasia or carcinoma. Cell proliferative activity was higher in MUC1-positive than in MUC1-negative carcinoma cells. Distributions of MUC1 and MUC2 mRNA signals and of MUC1 and MUC2 proteins were similar in carcinoma and dysplasia. These results suggest that MUC1 expression by gall bladder carcinoma may reflect histological dedifferentiation, increased proliferative activity, and invasiveness, while MUC2 expression is related to lower proliferative activity and reflects some differentiation towards goblet cells; and that MUC1 expression in gall bladder dysplasia reflects malignant transformation.

Differential expression of mucins and trefoil peptides in native epithelium, Barrett's metaplasia and squamous cell carcinoma of the oesophagus

BACKGROUND AND AIMS

In humans, trefoil peptides (TFF peptides) and some mucins have been reported to be expressed in a cell-specific manner at mucosal surfaces of normal gastrointestinal tissues. Neoplastic conditions cause characteristic changes of these expression patterns. To study such patterns in Barrett's metaplasia and squamous cell carcinoma of the oesophagus (SCC), the distribution of MUC1, MUC2, MUC5AC and the three TFF peptides (TFF1, TFF2 and TFF3) was investigated.

METHODS

In 40 archival samples of SCC and in 21 samples of Barret's metaplasia, expression of the three mucins and two TFF peptides (TFF1 and TFF2) was assessed by specific antibodies. Reverse transcriptase/polymerase chain reaction amplification (RT-PCR) was performed on frozen tissue samples from the 11 biopsies of SCC for the three TFF peptides.

RESULTS

Immunohistochemical tests for MUC2 and TFF2 were negative both in samples of Barret's metaplasia and in SCC. MUC1 expression was detected in 57.5% of the tumour samples, while TFF1 and MUC5AC were found in 10% and 7.5% of the cases respectively. In Barrett's metaplasia MUC1 was detected in 90.5% of the cases and TFF1 and MUC5AC in all of them. RT-PCR analysis revealed a more complex pattern: TFF1 and TFF3 expressed the corresponding mRNA in all samples investigated; the third member, TFF2, was active in 45.5% of the carcinoma biopsies and not in the corresponding native tissue.

CONCLUSIONS

This finding in oesophageal carcinoma contrasts with the situation found in normal and neoplastic stomach epithelium where TFF1 and TFF2 are found co-expressed and TFF3 remains silent. Interestingly, MUC1 is expressed in a significant proportion of SCC. Both in Barett's metaplasia and in SCC the expression of MUC5AC mirrors the TFF1 synthesis in intensity and spatial distribution.

Therapeutic aspects of polymorphic epithelial mucin in adenocarcinoma

The gene MUC1 encodes a large membrane-associated glycoprotein, previously termed polymorphic epithelial mucin and now known as MUC1. The majority of the extracellular domain is made up of tandem repeats of 20 amino acids. In some epithelial malignancies, MUC1 is up-regulated, and as a result of changes in glycosyl and sialytransferases, the complex carbohydrate side chains are truncated, leading to exposure of novel peptide and carbohydrate epitopes. Cellular and humoral immune responses to MUC1 have been documented in malignant disease, and T-cell responses to MUC1 may not depend on presentation by the major histocompatibility complex. Several immunogens based on MUC1 are being investigated. These include cell lines expressing MUC1 given alone or fused with professional antigen-presenting cells and peptide epitopes, given either with conventional immunological adjuvants or coupled to mannan, which may target uptake into antigen-presenting cells. Cellular and humoral immune responses to these agents have been recorded in patients with advanced malignancy. Targeting of peptide epitopes may also be achieved using antibodies to MUC1 through induction of idiotypes and retrospective analyses in ovarian cancer have suggested a survival benefit for patients. The use of cDNA in coding MUC1 may allow endogenous processing of antigen. Phase I studies using vaccinia as a vector have been completed. Studies using carbohydrate antigens suggest that the ability to generate specific immune responses may influence survival of patients with metastatic epithelial malignancies. While examining the potential role of immunogens based on MUC1, it is also necessary to understand the nature of immunosuppression in patients with advanced malignancy in order to develop strategies to enhance the immunogenicity of potential cancer vaccines.

Production and characterization of an anti-(MUC1 mucin) recombinant diabody

A recombinant diabody fragment based on the anti-MUC1 monoclonal antibody, C595 has been produced in a bacterial expression system. Substitution of a 7-amino-acid linker sequence (Gly6Ser) for the original single-chain (sc)Fv 15-amino-acid linker (Gly4-Ser)3, using polymerase-chain-reaction-based strategies, forces variable heavy (V(H)) and light (V(L)) domains to pair with complementary domains on neighbouring scFv molecules, forming a scFv dimer (diabody). This recombinant protein shows similar binding characteristics to the parental C595 monoclonal antibody. The ability to bind to MUC1 mucin on carcinoma cell surfaces will allow its potential as a diagnostic and therapeutic reagent of clinical utility to be investigated.

The breast cancer-associated MUC1 gene generates both a receptor and its cognate binding protein

MUC1 proteins, some of which contain a mucin-like domain and others lacking this region, can be generated from the human breast cancer-associated MUC1 gene by alternative splicing. The MUC1/Y isoform is devoid of the mucin domain and is a cell membrane protein that undergoes transphosphorylation on both serine and tyrosine residues. We have identified cognate binding proteins that specifically interact with the extracellular domain of MUC1/Y. Coimmunoprecipitation analyses clearly revealed the presence of complexes composed of MUC1/Y and its cognate binding proteins in primary breast tumor tissue. MUC1/Y-expressing mammary tumor cells can be specifically targeted, in vivo, with the labeled cognate binding protein. The k(D) of MUC1/Y for its binding proteins was estimated as 1.2 nM. The MUC1/Y binding proteins are also derived from the MUC1 gene and represent the secreted mucin-like polymorphic MUC1 proteins MUC1/SEC and MUC1/REP, which contain a tandem repeat array. Whereas nonposttranslationally modified MUC1/Y bound efficiently to MUC1/SEC, the latter mucin-like protein had to be posttranslationally modified in a cell-type specific manner to bind MUC1/Y. The interaction of MUC1/Y with MUC1/SEC has important biological functional correlates: (a) it induces MUC1/Y phosphorylation; and (b) it has a pronounced effect on cell morphology. These findings suggest that MUC1/Y and MUC1/SEC form an active receptor/ cognate binding protein complex that can elicit cellular responses. The proteins comprising this complex are, thus, generated by alternative splicing from one and the same gene, namely the MUC1 gene.

CFTR expression does not influence glycosylation of an epitope-tagged MUC1 mucin in colon carcinoma cell lines

The cause of the mucus clearance problems associated with cystic fibrosis remains poorly understood though it has been suggested that mucin hypersecretion, dehydration of mucins, and biochemical abnormalities in the glycosylation of mucins may be responsible. Since the biochemical and biophysical properties of a mucin are dependent on O-glycosylation, our aim was to evaluate the O-glycosylation of a single mucin gene product in matched pairs of cells that differed with respect to CFTR expression. An epitope-tagged MUC1 mucin cDNA (MUC1F) was used to detect variation in mucin glycosylation in stably transfected colon carcinoma cell lines HT29 and Caco2. The glycosylation of MUC1F mucin was evaluated in matched pairs of Caco2 cell lines that either express wild-type CFTR or have spontaneously lost CFTR expression. The general glycosylation pattern of MUC1F was evaluated by determining its reactivity with a series of monoclonal antibodies against known blood group and tumor-associated carbohydrate antigens. Metabolic labeling experiments were used to estimate the gross levels of glycosylation and sulfation of MUC1F mucin in these matched pairs of cell lines. Expression of CFTR in this experimental system did not affect the gross levels of glycosylation or sulfation of the MUC1F mucin nor the types of carbohydrates structures attached to the MUC1F protein.

Intestinal metaplasia of human stomach displays distinct patterns of mucin (MUC1, MUC2, MUC5AC, and MUC6) expression

Intestinal metaplasia is a well-established premalignant condition of the stomach that is characterized by mucin carbohydrate modifications defined by histochemical methods. The purpose of the present study was to see whether the expression of mucin core proteins was modified in the different types of intestinal metaplasia and to evaluate the putative usefulness of mucins as "molecular markers" in this setting. We used a panel of monoclonal antibodies with well-defined specificities to MUC1, MUC2, MUC5AC, and MUC6 to characterize the expression pattern of mucins. In contrast to normal gastric mucosa, the complete form or type I intestinal metaplasia (n = 20) displayed little or no expression of MUC1, MUC5AC, or MUC6 in the metaplastic cells and strong expression of the intestinal mucin MUC2 in the goblet cells of all cases. The incomplete forms of intestinal metaplasia, type II (n = 25) and type III (n = 16), expressed MUC1 and MUC5AC in every case, both in goblet and in columnar cells. MUC6 was also expressed in 16 cases of type II intestinal metaplasia and in 11 cases of type III intestinal metaplasia. The intestinal mucin MUC2 was expressed in every case of incomplete intestinal metaplasia, mostly in goblet cells. The mucin expression profile in the different types of intestinal metaplasia allows the identification of two patterns: one defined by decreased levels of expression of "gastric" mucins (MUC1, MUC5AC, and MUC6) and expression of MUC2 intestinal mucin, which corresponds to type I intestinal metaplasia, and the other defined by coexpression of "gastric mucins" (MUC1, MUC5AC, and MUC6) together with the MUC2 mucin, encompassing types II and III intestinal metaplasia. Our results challenge the classical sequential pathway of intestinal metaplasia (from type I to type III via a type II intermediate step).

MUC1 mucin mRNA expression in stage I lung adenocarcinoma and its association with early recurrence

BACKGROUND

MUC1 is a membrane-bound mucin with an extensively O-glycosylated core protein and is developmentally regulated and aberrantly expressed by carcinomas. A high level of MUC1 mucin expression and secretion is associated with high metastatic potential and a poor prognosis. We studied the expression of MUC1 messenger ribonucleic acid (mRNA) in stage I lung adenocarcinoma by reverse transcriptase-polymerase chain reaction and examined its correlation with early recurrence.

METHODS

The expression of MUC1 mRNA, in surgical specimens from 33 patients with stage I lung adenocarcinoma was determined by reverse transcriptase-polymerase chain reaction. The MUC1 and beta-actin sequences were subsequently coamplified to analyze the semiquantitative determination by polymerase chain reaction. The ratio of MUC1 to beta-actin product was used for further analysis.

RESULTS

An analysis of the disease-free survival (median follow-up, 33.4 months) revealed that a high expression of MUC1 was associated with early recurrence (p = 0.0191). Six of the 33 patients had recurrence within 2 years after operation. The recurrence sites suggested hematogenic metastasis.

CONCLUSIONS

Our results indicate that MUC1 mRNA level may be useful as a marker of early recurrence in stage I lung adenocarcinoma.

Expression of mucin (MUC-1) from a mini-Epstein-Barr virus in immortalized B-cells to generate tumor antigen specific cytotoxic T cells

BACKGROUND

EBV immortalized B-cells can be used as antigen presenting cells (APC) to stimulate specific T-cell responses. Mini-Epstein-Barr virus (mini-EBV) plasmids contain all functional elements of Epstein-Barr virus (EBV) necessary to immortalize B-cells in vitro. These immortalized B-cells are incapable of releasing infectious virus in contrast to cells immortalized by wildtype EBV. In addition, mini-EBVs can be modified in E. coli to alter their genetic composition or adopt new genes.

METHODS

We constructed a mini-EBV plasmid carrying an expression cassette for the human tumor antigen mucin encoded by the gene MUC-1. Primary human B-cells were infected with the MUC-1 carrying mini-EBV plasmid packaged into an EBV coat and immortalized B-cell clones were expanded in vitro. These B-cells were analyzed by FACS analyses for the expression of mucin and co-stimulatory molecules and were subsequently used as antigen presenting cells (APC) to stimulate peripheral blood mononuclear cells from healthy donors.

RESULTS

Several B-cell lines were established that were shown to be free of helper virus or wildtype EBV. These B-cells expressed the relevant tumor-specific epitopes of mucin and the co-stimulatory ligands B7.1 and B7.2 necessary for efficient T-cell activation. Using the mucin expressing B-cells as antigen presenting cells (APC) mucin-epitope specific cytotoxic T-cells were established.

CONCLUSIONS

Virus-free B-cell lines expressing tumor-associated epitopes such as mucin or other antigens of interest provide an unlimited and safe source of APC to generate antigen specific T-cells which could be used for clinical trials in adoptive immune therapy or cancer vaccines.

MUC1 and breast cancer

The development of an effective immunotherapeutic approach to cancer is now a major focus of research, and despite impressive progress over the last 10 years there are still many hurdles to overcome to elicit an effective immune response which will totally eradicate the cancer. Mucins (MUC1) have attracted interest as potential targets for immunotherapy of cancers of breast, pancreas, ovary and others, and we have demonstrated that mannan, a polymannose carbohydrate is an effective carrier for MUC1 in eliciting a cellular immune response. Several clinical trials are in progress to evaluate the immunogenicity of MUC1 and its suitability as to use for immunotherapy/vaccine for breast cancer.

Design and expression of a synthetic mucin gene fragment in Escherichia coli

Adenocarcinomas of glandular tissues produce a hypoglycosylated form of a normal glycoprotein (mucin) that elicits an immune response. A tumor-specific epitope of mucin occurs in a 20-amino-acid, tandemly repeated domain of human MUC1 mucin. A synthetic gene encoding five tandem repeats of the tumor-specific epitope of human mucin (m5tr) was designed for efficient cloning and expression in Escherichia coli for subsequent use in preparing reagent quantities of the mucin 5 tandem repeat (mtr5) polypeptide. The synthetic gene was cloned in the correct reading frame into the maltose-binding protein (MBP) fusion expression vector pMAL-p2. Bacterial clones containing the mucin synthetic gene (m5tr) were shown to produce the intended recombinant fusion protein, MBP-mtr5. The fusion protein represents a significant fraction of the cell protein, 50% or more of which is secreted into the periplasm. The MBP-mtr5 protein is largely intact and easily prepared in sufficient quantity and purity for preliminary structure-function studies.

Adenovirus vector-based purging of multiple myeloma cells

Adenoviruses are efficient gene delivery agents for a variety of neoplasms. In the present study, we have investigated the use of adenoviruses for the delivery of the thymidine kinase (tk) gene into multiple myeloma (MM) cells. We first demonstrated that MM cell lines and MM patient cells express both adenovirus receptors as well as the DF3/MUC1 protein, thus providing a rationale for using adenoviruses to selectively deliver genes under the control of the DF3 promoter. By using an adenoviral construct containing beta-galactosidase (beta-gal) gene driven by the DF3 promoter (Ad. DF3-betagal), we demonstrate greater than 80% transduction efficiency in OCI-My5 and RPMI 8226 MM cell lines at a multiplicity of infection of 1 to 100. Importantly, transduction with the tk gene driven by the DF3 promoter (Ad.DF3-tk) followed by treatment with 50 micromol/L ganciclovir (GCV) purged >/=6 log of contaminating OCI-My5 and RPMI 8226 MM cells within bone marrow mononuclear cells. In contrast, normal human hematopoietic progenitor cell number was unaffected under these conditions. Selectivity of DF3/MUC1 promoter was further confirmed, because Ad.DF3-betagal or Ad.DF3-tk did not transduce MUC1-negative HeLa cervical carcinoma cells. In addition, GCV treatment of Ad.DF3-tk-transduced RPMI 8226 MM cells did not induce a significant bystander effect. These findings demonstrate that transduction with Ad vectors using a tumor-selective promoter provides a highly efficient and selective approach for the ex vivo purging of MM cells.

Cystic fibrosis mice lacking Muc1 have reduced amounts of intestinal mucus

Normally a thin layer of mucus covers the surface of the gastrointestinal tract protecting the epithelial cells from their environment. In cystic fibrosis (CF), mucus accumulation is abnormally high, resulting in severe intestinal obstruction. The major structural components of mucus are large mucin glycoproteins. We determined specific mucin RNA and protein expression in the gastrointestinal tract of inbred CF transmembrane conductance regulator (CFTR) knockout (CF) mice and correlated expression with histological analyses of tissues. Mucins were detected histochemically using general carbohydrate stains and specific mucin antibodies. Mucin RNA levels were determined by reverse transcription-PCR. Comparisons were made between CF mice and control siblings, all maintained on a liquid diet after weaning. Analyses of the mucins Muc2, Muc3, and Muc5ac showed lower levels of RNA expression in the CF mice and similar levels of protein. Significantly, there was a sixfold increase in Muc1 RNA expression in the colon of the CF mouse and a moderate increase in Muc1 protein. Further, CF mice lacking Muc1 exhibited greatly diminished intestinal mucus obstruction when compared with Muc1- expressing CF mice and had better survival on solid food. We suggest that Muc1 plays an important role in the mucus obstructions observed in the gastrointestinal tract of the CFTR knockout mouse.

CD4+ lymphocytes provide MUC1-specific tumor immunity in vivo that is undetectable in vitro and is absent in MUC1 transgenic mice

A C57BL/6 mouse transgenic for human MUC1 (MUC1.Tg) was developed to evaluate MUC1-specific tumor immunity in an animal that expresses MUC1 as a normal self protein. Previous studies showed that MUC1.Tg mice, challenged with syngeneic tumors expressing MUC1 (B16.MUC1), developed progressively growing MUC1-positive tumors, whereas wild-type C57BL/6 (wt) mice developed MUC1-negative tumors at a significantly slower rate. The results of a limiting dilution CTL frequency assay were not informative, in that similar numbers of MUC1-specific CTL precursors (CTL) were detected in MUC1.Tg and wt mice. Tumor immunity in vivo was characterized by an adoptive transfer method to evaluate the degree of MUC1 or non-MUC1 tumor immunity in wt or MUC1.Tg mice. The results revealed that wt mice developed protective tumor immunity mediated by MUC1-specific CD4+ lymphocytes, while MUC1.Tg mice were functionally tolerant to MUC1 in vivo. The potential of adoptive immunotherapy to provide immunity to tumors expressing MUC1 and to produce undesirable autoimmunity in recipient MUC1.Tg mice expressing MUC1 as a self Ag was evaluated. Adoptive transfer of immune cells from wt mice primed in vivo with B16.MUC1 tumor cells into MUC1.Tg recipients resulted in significant increases in the survival of MUC1.Tg recipients compared with unmanipulated control MUC .Tg mice challenged with B16.MUC1 tumor cells. This response was specific for MUC1 since control tumors developed at equivalent rates in recipient or control MUC1.Tg mice. No gross or histologic evidence of autoimmunity was observed in recipient MUC1.Tg mice, indicating that tumor immune responses mediated by MUC1-specific CD4+ lymphocytes spare nontransformed epithelia-expressing MUC1.

Mucin expression and function in the female reproductive tract

Reproductive tract epithelia are characterized by the presence of a thick, apical glycocalyx. This glycoprotein coat is drastically reduced in the uterus of many species during the time of embryo implantation. Recent studies indicate that mucin glycoproteins constitute a large proportion of the apical glycocalyx. One of these mucins, Muc-1, has particularly important functions at the luminal surface of the uterus and other female reproductive tract tissues. Muc-1 appears to play a dominant role in maintaining a functionally non-receptive uterine surface with regard to blastocyst attachment. Conversion to a receptive uterine state is brought about by the concerted actions of ovarian steroid hormones that in several species also strongly modulate Muc-1 protein and mRNA expression. Muc-1 also appears to serve a general function in protecting reproductive tract mucosa since Muc-1 null mice are particularly prone to bacterial infection. Collectively, these studies indicate that mucins, including Muc-1, play important barrier roles in reproductive processes and protection from bacterial pathogenesis in the female reproductive tract.

Purification of nuclear proteins that potentially regulate transcription of the MUC1 mucin gene induced by a soluble factor

Transcriptional regulation of the MUC1 mucin gene in KM12C human colon carcinoma cells, which is induced by a soluble stimulatory factor derived from normal colonic connective tissues, was investigated. The minimum responsive element that was sufficient for this upregulation by the soluble factor is the upstream sequence of the MUC1 mucin gene from -531 to -488. Several factors in nuclear extracts of KM12C cells bound to this sequence in gel retardation assays. Neither the quantities nor the mobilities of the retarded bands changed on treatment with the soluble factor. Mutagenesis within the region from ACAGGGAGCGGTTAGAAGGGTGGGGCTATTCCGGGAAGTGGTGG to ACAGGGAGCGGTTAGAA[TTT]TGGGGCTATTCCGGGAAGTGGTGG (bracketed letters were mutated) substantially decreased the induction of the MUC1 mucin gene by the soluble factor. Two retarded bands were observed when the unmutated sequence was used as a probe; the bands disappeared when the mutated sequence was used as a probe. These results indicate that factors corresponding to each band were responsible for the upregulation of the MUC1 mucin gene, although the quantities of these proteins and their affinity to the nucleotide sequence did not change during the induction. Purification of the protein components comprising each band by a combination of column chromatographies indicated that one band contained four proteins (111, 106, 101, and 95 kDa) and the other consisted of two proteins (66 and 64 kDa).

Mucin gene expression (MUC1, MUC2, and MUC5/5AC) in nasal epithelial cells of cystic fibrosis, allergic rhinitis, and normal individuals

The early pathogenic events in cystic fibrosis (CF) include colonization of Pseudomonas in the lung, airway inflammation, and mucus hypersecretion with airway obstruction. The primary mechanisms leading to chronic infection and inflammation are not well understood. One possible explanation for this cascade of events is increased or altered expression of one or more mucin (MUC) genes by CF cells in the respiratory tract. We compared expression levels of three mucin genes, MUC1, MUC2, and MUC5/5AC, known to be expressed in the respiratory tract of CF, allergic rhinitis, and normal individuals. Mucin transcript levels in nasal epithelial cells free from inflammation were quantitated by an MUC mRNA slot-blot method. This study revealed three major findings: (1) MUC5/5AC mRNA was expressed at five- to tenfold greater levels than MUC2 or MUC1 for all subjects. (2) MUC2 mRNA levels were similar among all subject groups. (3) In CF subjects, there was a trend toward reduced MUC5/5AC expression. When normalized to the levels of MUC2 expression in individual specimens, MUC5/5AC expression was reduced significantly in CF cells compared with normal cells. These data suggest that mucin gene expression is altered in noninflamed CF nasal cells.

Molecular characterization of a novel amplicon at 1q21-q22 frequently observed in human sarcomas

In a recent comparative genomic hybridization (CGH) study of a panel of sarcomas, we detected recurrent amplification of 1q21-q22 in soft tissue and bone tumours. Amplification of this region had not previously been associated with sarcoma development, but occasional amplification of CACY/S100A6 and MUC1 in 1q21 had been reported for melanoma and breast carcinoma respectively. Initial screening by Southern blot analysis showed amplification of S100A6, FLG and SPRR3 in several sarcomas and, in a first attempt to characterize the 1q21-q22 amplicon in more detail, we have now investigated the amplification status of these and 11 other markers in the region in 35 sarcoma samples. FLG was the most frequently amplified gene, and the markers located in the same 4.5-Mb region as FLG showed a higher incidence of amplification than the more distal ones. However, for most of the 14 markers, amplification levels were low, and only APOA2 and the anonymous marker D1S3620 showed high-level amplifications (> tenfold increases) in one sample each. We used fluorescence in situ hybridization (FISH) to determine the amplification patterns of two overlapping yeast artificial chromosomes (YACs) covering the region between D1S3620 and FLG (789f2 and 764a1), as well as two more distally located YACs in nine selected samples. Six samples had amplification of the YAC containing D1S3620 and, in three, 764a1 was also included. Five of these tumours showed normal copies of the more distal YACs; thus, it seems likely that an important gene may be located within 789f2, or very close. Two samples had high copy numbers of the most distal YACs. Taken together, FISH and molecular analyses indicate complex amplification patterns in 1q21-q22 with at least two amplicons: one located near D1S3620/789f2 and one more distal.

Retroviral expression of MUC-1 human tumor antigen with intact repeat structure and capacity to elicit immunity in vivo

MUC-1 mucin is an epithelial cell antigen whose aberrant expression plays a role in autoimmunity and tumor immunity and is thus an attractive candidate for immunotherapy of gene therapy. Because the MUC-1 cDNA is composed almost entirely of 60-bp tandem repeats and is susceptible to homologous recombination, it presents a special challenge to cloning and expression in viral vectors. Nevertheless, we have been successful in constructing a retroviral vector (MFG-MUC-1) with a 22-tandem repeat MUC-1 cDNA. Both stable and transient packaging cell lines are capable of producing high-titer retroviruses that can transfer the expression of MUC-1 to murine 3T3 cells. Transduced cells express uniformly high levels of MUC-1 on their surface, and western blot analysis reveals that the molecule expressed is of full length and extensively glycosylated. We have used the MFG-MUC-1 vector to stably transduce an immortalized murine dendritic cell line and show that immunization of mice with transduced cells elicits specific immune responses to mucin. The ability of this vector to transfer expression of the MUC-1 tumor antigen to potent antigen-presenting cells is expected to be of use in the immunotherapy of epithelial cancers.

Detection of occult micrometastases in non-small cell lung carcinoma by reverse transcriptase-polymerase chain reaction

BACKGROUND

The 5-year survival rate following surgical resection of Stage I or Stage II non-small cell lung carcinoma (NSCLC) is 30% to 50%, probably because of undetected occult micrometastases (OMs) at the time of surgery. Other investigators have detected OMs in bone marrow and histologically negative lymph nodes from patients with NSCLC using immunohistochemical staining to cytokeratins and cell surface glycoproteins.

STUDY OBJECTIVE

To develop and evaluate an assay based on the reverse transcriptase-polymerase chain reaction (RT-PCR) for the detection of OMs in NSCLC.

PATIENTS

Twenty-eight patients with benign or malignant thoracic pathology. Samples of primary tumors and lymph nodes were collected at the time of surgical resection or mediastinoscopic lymph-node biopsy.

RESULTS

Using RT-PCR to detect messenger RNA (mRNA) transcripts for MUC1 (a cell surface glycoprotein present in lung tissue but absent from normal lymph nodes), OMs were identified in 33 of 88 lymph nodes determined to be free of tumor by hematoxylin and eosin staining. Eleven of 11 control mediastinal lymph nodes from patients without malignancy failed to express detectable MUC1 transcripts. Dilutional experiments demonstrate that the assay can detect one MUC1-positive NSCLC cell in 1x10(7) MUC1-negative cells. A comparison of our RT-PCR assay to immunohistochemistry specific for the MUC1 glycoprotein suggests that RT-PCR may be more sensitive than immunohistochemistry for the detection of NSCLC OMs.

CONCLUSIONS

This study demonstrates that RT-PCR for MUC1 mRNA can detect the presence of MUC1 mRNA in histologically negative lymph nodes from patients with NSCLC. The prognostic significance of these findings is currently unknown.

Reduction of mucin-1 expression during the receptive phase in the rat uterus

Mucin-1 (Muc1), an integral membrane mucin, is expressed on the apical surface of uterine epithelial cells (UE) of various species. Loss of Muc1 is believed to be necessary for embryo attachment. Muc1 expression is markedly reduced in luminal epithelia during the receptive phase in mice, baboons, and pigs. In the present study, we examined Muc1 expression during the rat estrous cycle and at Day 5 of pregnancy, the time of embryo attachment. In contrast to findings in the mouse, indirect immunofluorescence revealed that uterine Muc1 protein expression was unaltered during the estrous cycle. However, similar to what is observed in the mouse and other species, Muc1 protein decreased at Day 5 of pregnancy in luminal UE. The decrease in Muc1 expression was specific to luminal UE and did not occur in glandular UE. A partial cDNA corresponding to the cytoplasmic tail region of rat Muc1 was generated by a reverse transcription-polymerase chain reaction (RT-PCR) strategy. This cDNA sequence is 89% and 91% identical to the corresponding region of mouse Muc1 at the nucleotide and amino acid levels, respectively. The predicted sequence of rat Muc1 protein has 70-90% identity to the Muc1 protein sequence obtained in other species. Semiquantitative RT-PCR experiments indicated that the mRNA encoding rat Muc1 decreased 57% at Day 5 as compared with the levels found at estrus. This value included mRNA from both luminal and glandular UE and so may underestimate the relative decrease in mRNA in the luminal compartment. In conclusion, we have determined that the levels of rat Muc1 protein and mRNA decrease in the luminal UE at the time of implantation, a pattern similar to that seen in the mouse, baboon, and pig. This supports the general theory that reduction of Muc1 expression is necessary for embryo implantation.

Reversal of tolerance to human MUC1 antigen in MUC1 transgenic mice immunized with fusions of dendritic and carcinoma cells

Immunological unresponsiveness established by the elimination or anergy of self-reactive lymphocyte clones is of importance to immunization against tumor-associated antigens. In this study, we have investigated induction of immunity against the human MUC1 carcinoma-associated antigen in MUC1 transgenic mice unresponsive to MUC1 antigen. Immunization of adult MUC1 transgenic mice with irradiated MUC1-positive tumor cells was unsuccessful in reversing unresponsiveness to MUC1. By contrast, fusions of dendritic cells with MUC1-positive tumor cells induced cellular and humoral immunity against MUC1. Immunization with the dendritic cell fusions that express MUC1 resulted in the rejection of established metastases and no apparent autoimmunity against normal tissues. These findings demonstrate that unresponsiveness to the MUC1 tumor-associated antigen is reversible by immunization with heterokaryons of dendritic cells and MUC1-positive carcinoma cells.

Increased invasiveness of MUC1 and cDNA-transfected human gastric cancer MKN74 cells

MUC1 mucin is an anti-adhesion molecule expressed in a wide variety of tumors. To examine whether MUC1 mucin is involved in tumor invasion, we have prepared MUC1 transfectants using the human gastric cancer cell line MKN74 and performed an in vivo tumor assay by transplanting these into nude mice. Tumor weight at 71 days after s.c. injection of transfectants was measured, showing that the in vivo growth of MUC1 transfectants was increased compared to that of mock transfectants. Furthermore, MUC1-transfectant tumors invaded into the muscle layer, whereas mock-transfectant tumors did not. In vitro invasion, adhesion to extracellular matrix components and phagokinetic track motility were then evaluated to analyze the mechanisms for the in vivo invasiveness of the transfectants. MUC1 transfectants exhibited an increased in vitro invasiveness, decreased binding to laminin, fibronectin, type I collogen and type IV collagen and increased motility. These effects of MUC1 mucin over-expression in MKN74 cells were abolished by the treatment of transfectants with an inhibitor of O-glycan biosynthesis, benzyl-alpha-GalNAc. Our data suggest that MUC1 mucin could be related to the increased invasive ability of MKN74 cells, whereas O-glycan might play an essential role.

Decreased MUC1 expression induces E-cadherin-mediated cell adhesion of breast cancer cell lines

Two breast cancer cell lines, YMB-S and ZR-75-1S, were established in our laboratory. They proliferated in suspension culture without aggregation in a complete liquid medium. We found that sodium butyrate (NaB) arrested the cells in the G0-G1 phase of the cell cycle, inhibited their proliferation, and induced cell-cell and cell-surface adhesion. In this study, we explored the mechanism of this adhesion. Adhesion was inhibited by an anti-E-cadherin antibody, suggesting a role for E-cadherin. However, there were no changes in the expression of E-cadherin, alpha-catenin, and beta-catenin. Northern blot analysis and cytofluorometry revealed that NaB-treated cells showed a lower expression of MUC1 than did untreated cells. To examine the possibility that the adhesion of these cells might be induced by decreased MUC1 expression, the level of MUCI expression was directly reduced using an antisense oligonucleotide. The MUC1 antisense oligonucleotide induced cell-cell and cell-surface adhesion of these breast cancer cells, just as NaB did. Our observations indicate that E-cadherin can be functionally suppressed by overexpression of MUC1 but resumes its activity after suppression of MUC1 expression. Thus, regulation of MUC1 might be a new strategy for cancer therapy.

Quantitative analysis of mRNA encoding MUC1, MUC2, and MUC5AC genes: a correlation between specific mucin gene expression and sialomucin expression in non-small cell lung cancer

The expression of mucins is important for tumor invasiveness and metastasis. In our previous report (Am. J. Respir. Crit. Care Med. 1997; 155:1419-1427), non-small cell lung cancers bearing sialomucin expression tended to relapse earlier than those without sialomucin. However, it remained unclear whether the expression of sialomucin in lung cancer is caused by an abnormal glycosylation process or by the expression of a specific mucin gene product. To address this problem, we established a modified quantitative competitive polymerase chain reaction (QC-PCR) analysis. RNA internal standards of MUC1, MUC2, and MUC5AC non-tandem repeat sequences were constructed, and known copy numbers of mucin RNA internal standards were introduced into reverse transcription-polymerase chain reactions (RT-PCR) for each mucin gene in order to compete with native mucin gene RNA during the reaction. The RNA of Gbeta-like gene (a housekeeping gene) was used as internal control for the RNA analysis. Twenty-five lung cancer tissues (13 adenocarcinomas and 12 squamous cell carcinomas) were used for analysis. Mann-Whitney rank sum test was applied to compare the expression amounts of different mucin genes in tissues. The results revealed that adenocarcinoma expressed higher amounts of MUC5AC gene than did squamous cell carcinoma (P = 0.03). The expression amount of MUC5AC correlated positively with the expression status of sialomucin (P = 0.012). Further studies are anticipated to elucidate the underlying mechanism contributing to this phenomenon.

Molecular cloning and characterization of P47, a novel boar sperm-associated zona pellucida-binding protein homologous to a family of mammalian secretory proteins

P47, a peripherally associated 47-kDa protein of porcine spermatozoa, was identified by affinity chromatography in the fraction of solubilized plasma membrane proteins bound to immobilized porcine zona pellucida glycoproteins. N-terminal and internal amino acid sequences revealed structural similarity between P47 and rat O-acetyl ganglioside synthase, bovine mammary gland protein (MGP)57/53 and mouse milk fat globule protein E8-polypeptides of unknown function secreted by mammary gland epithelial cells in both species. A polyclonal antibody directed against bovine MGP57/53 displayed cross-reactivity with P47. Indirect immunofluorescence analysis located porcine P47 on the acrosomal cap of testicular sperm and on sperm recovered along different sections of the ductus epididymidis, as well as on swim-up and in vitro-capacitated sperm. Porcine P47 was demonstrated on sperm bound to the zona pellucida of a homologous oocyte. Western blot analysis identified P47 (or MGP57/53) homologous proteins in porcine and human milk. Like the sperm-associated protein, porcine milk P47 possesses affinity for isolated, biotinylated sow oocyte zona pellucida glycoproteins. Reverse transcription-polymerase chain reaction was used to isolate P47 homologous cDNAs from porcine testis and mammary gland tissues as well as from bovine, mouse, and human testis. P47 proteins deduced from these cDNA sequences showed 60-100% amino acid sequence identity. These proteins display a mosaic structure organized into two N-terminal, tandemly arranged epidermal growth factor (EGF)-like domains followed by a region with similarity to C1 and C2 domains found in blood clotting factors V and VII. The second EGF-like domain contains an arginine-glycine-aspartic acid sequence, a motif often found in integrin receptor ligands. P47-like proteins are not expressed solely in testicular and mammary gland tissues. Northern blot analysis showed that P47 mRNA is transcribed in several porcine and bovine tissues. These data indicate a potential role for boar sperm-associated P47 in membrane remodeling and/or as a zona pellucida binding protein.

Putative markers for the detection of breast carcinoma cells in blood

The aim of this study was to investigate certain genes for their suitability as molecular markers for detection of breast carcinoma cells using the reverse transcriptase-polymerase chain reaction (RT-PCR). RNA was prepared from MCF-7 breast carcinoma cells and peripheral blood leucocytes of healthy female volunteers. This RNA was screened for mRNA of MUC1, cytokeratin 19 (CK19) and CD44 (exons 8-11) by RT-PCR and the results validated by Southern blots. Variable degrees of expression of MUC1 and CD44 (exons 8-11) were detected in normal peripheral blood, rendering these genes non-specific for epithelial cells and therefore unsuitable for use as markers to detect breast carcinoma cells. Although CK19 mRNA was apparently specific, it was deemed unsuitable for use as a marker of breast cancer cells in light of its limited sensitivity. Furthermore, an attempt at using nested primers to increase sensitivity resulted in CK19 mRNA being detected after two amplification rounds in blood from healthy volunteers.

Enhancement of reactivity of anti-MUC1 core protein antibody and killing activity of anti-MUC1 cytotoxic T cells by deglycosylation of target tissues or cells

MUC1 mucin core protein contains an important tumor-associated peptide antigen that can induce cytotoxic T cells (CTLs) in vivo, although this antigen is generally masked by mucin-type glycans. To reveal the precise expression pattern of MUC1 protein in normal and neoplastic gastric tissues, we performed immunohistochemical staining of periodic acid-treated tissue sections with an anti-MUC1 core protein monoclonal antibody (mAb), MUSE11. In non-cancerous tissues, the deep portion of fundic glands and the luminal surface were predominantly immunostained in normal and metaplastic glands, respectively. In cancerous tissues, the incidence of positivity for MUC1 protein varied from 67% to 88%, depending on histological type. This frequent expression of MUC1 protein in cancer tissues after periodic acid treatment suggested that deglycosylation may be of use for exposing the target antigen of anti-MUC1 CTLs. Accordingly, we then examined the effect of benzyl-alpha-GalNAc, an inhibitor of O-glycan biosynthesis, on the expression of MUC1 protein and sensitivity to an anti-MUC1 CTL line, designated TS, in gastric cancer JRST cells. After incubation with benzyl-alpha-GalNAc, the reactivity of mAb MUSE11 with JRST cells and their sensitivity of TS were clearly increased. These findings suggest that deglycosylation may offer an important strategy for enhancing anti-tumor immunity in patients with gastric cancer.

A large number of tandem repeats in the polymorphic epithelial mucin gene is associated with severe acne

Polymorphic epithelial mucin (PEM) or MUC1 is a glycoprotein secreted from various epithelial gland tissues. In skin, PEM is detected in sweat glands and sebaceous glands by the DF3 monoclonal antibody. The gene of PEM includes an allele exhibiting length polymorphism due to a variable number of tandem repeats (VNTR); this is expressed co-dominantly, which may influence the microenvironment of the skin. The allelic size variation of the PEM gene was investigated in Japanese acne patients, atopic dermatitis patients, and healthy controls. The frequency of longer length alleles was significantly higher in severe acne patients.

Coregulation of starch degradation and dimorphism in the yeast Saccharomyces cerevisiae

Saccharomyces cerevisiae, the exemplar unicellular eukaryote, can only survive and proliferate in its natural habitats through constant adaptation within the constraints of a dynamic ecosystem. In every cell cycle of S. cerevisiae, there is a short period in the G1 phase of the cell cycle where "sensing" transpires; if a sufficient amount of fermentable sugars is available, the cells will initiate another round of vegetative cell division. When fermentable sugars become limiting, the yeast can execute the diauxic shift, where it reprograms its metabolism to utilize nonfermentable carbon sources. S. cerevisiae can also initiate the developmental program of pseudohyphal formation and invasive growth response, when essential nutrients become limiting. S. cerevisiae shares this growth form-switching ability with important pathogens such as the human pathogen, Candida albicans, and the corn smut pathogen Ustilago maydis. The pseudohyphal growth response of S. cerevisiae has mainly been implicated as a means for the yeast to search for nutrients. An important observation made was that starch-degrading S. cerevisiae strains have the added ability to form pseudohyphae and grow invasively into a starch-containing medium. More significantly, it was also shown that the STA1-3 genes encoding three glucoamylase isozymes responsible for starch hydrolysis in S. cerevisiae are coregulated with a gene, MUC1, essential for pseudohyphal and invasive growth. At least two putative transcriptional activators, Mss10p and Mss11p, are involved in this regulation. The Muc1p is a putative integral membrane-bound protein similar to mammalian mucin-like proteins that have been implicated in the ability of cancer cells to invade other tissues. This provided us with an excellent example of integrative control between nutrient sensing, signaling, and differential development.

A microsatellite within the MUC1 locus at 1q21 is altered in the neoplastic cells of breast cancer patients

Paired DNA samples from the neoplastic and nonneoplastic cells of 118 patients with the sporadic, nonfamilial form of breast cancer were analyzed for evidence of genetic alteration at a polymorphic microsatellite mapped to intron 6 within the MUC1 gene at 1q21. Two other microsatellite loci, D1S104 and APO-A2, which also map to 1q21, were analyzed as well. The frequency of alteration at the microsatellite within the MUC1 locus was significantly higher than D1S104 or APO-A2 (P < 0.001). Analysis by Southern blotting of the VNTR region of the MUC1 gene revealed an amplification of one allele in 34 of 54 informative cases (63%). There was no significant association between these alterations and alterations of the microsatellite within the same locus, suggesting independent mechanisms were responsible for the genetic changes. Microsatellite loci D17S579 at 17q21, the site of the BRCA1 gene, and D18S34 at 18q21-qter, the deleted in colorectal cancer locus, were also analyzed by PCR. Alterations at D17S579 and D18S34 were detected in 18.8% and 6.2% of patients, respectively (P < 0.001, and P < 0.1 relative to the frequency of alteration at D1S104 or APO-A2). A previously described polymorphism of hMSH2 was altered in 16.4% of cases.

Progesterone and implanting blastocysts regulate Muc1 expression in rabbit uterine epithelium

Mammalian uteri are unreceptive to blastocyst implantation except during a relatively brief period. The transmembrane, cell surface mucin, Muc1, is present on epithelial cells of nonreceptive uteri in various species and has been demonstrated to have antiadhesive properties. These activities of Muc1 may prevent interaction of the embryonic trophoblast cells with the uterine epithelium. A previous study indicated that Muc1 expression in the rabbit, as in primates, is up-regulated by progesterone. This response would be expected to create a nonadhesive uterine surface during the progesterone-dominated receptive phase. In the current study, Northern blot analysis was used to evaluate Muc1 messenger RNA expression in the endometrium of estrous and progesterone-treated estrous rabbits and in endometrium from different stages of pregnancy or pseudopregnancy. Steady state levels of Muc1 messenger RNA were increased 10-fold when estrous animals were treated with progesterone for 5 days. Muc1 message was elevated 2- to 6-fold over estrous levels in endometrium of pseudopregnant females and 30-fold in preimplantation stage (6.75 days postcoitum) uteri. During implantation (7.25 day postcoitum), the high level of Muc1 expression continued in nonimplantation regions, but was dramatically reduced in endometrium from implantation sites. Using immunofluorescence localization, Muc1 protein was present on the apical surface of epithelial cells of estrous, pseudopregnant (4 and 6.75 days), preimplantation (6.75 days), and implantation (7.25 day) stage uteri. At the latter stage, luminal epithelium apposed to blastocysts had a marked reduction or absence of Muc1 immunostaining. Muc1-immunoreactive cells included luminal and cryptal epithelium in pregnant/pseudopregnant uteri, whereas the glandular cells stained weakly. Short term coculture of uterine epithelial cells with trophoblastic vesicles derived from 6.75-day blastocysts also resulted in a local reduction in apical epithelial Muc1 staining. These findings demonstrate that Muc1 expression is up-regulated by progesterone in the rabbit uterine epithelium and increases incrementally during pre- and periimplantation stages. Removal of Muc1 from the epithelial surface at implantation sites is accomplished locally via signals apparently produced by the blastocyst.

Recombinant epithelial cell mucin (MUC-1) expressed in baculovirus resembles antigenically tumor associated mucin, target for cancer immunotherapy

Epithelial cell mucin encoded by the gene MUC-1, is expressed on several human adenocarcinomas in an aberrantly glycosylated form, and as such it has been identified as the target of human cellular as well as humoral responses. In order to harness this immunity to combat mucin-expressing tumors, various forms of this molecule, synthetic or highly purified, are being tested as possible cancer vaccines. We have expressed MUC-1 in baculovirus, and we report that the recombinant product has important similarities with the MUC-1 expressed on tumors, especially in regard to its aberrant glycosylation.

Use of transcriptional regulatory elements of the MUC1 and ERBB2 genes to drive tumour-selective expression of a prodrug activating enzyme

In order to exploit differences in gene expression between normal and malignant cells for genetic prodrug-activation therapy, we have generated recombinant retroviruses containing the herpes simplex virus thymidine kinase coding region cloned downstream of sequences derived from the 5'-flanking regions of the MUC1 and ERBB2 genes. Transduction with retroviruses containing MUC1 promoters resulted in an increase in GCV sensitivity in MUC1 positive cells. A further increase in GCV sensitivity was achieved when MUC1-positive cells were transduced with retroviruses containing chimeric-MUC1/ERBB2 promoters. No significant sensitization to GCV was observed when MUC1-negative cells were transduced with these recombinant retroviruses. These results suggest that one may be able to develop a tumour-selective therapy by utilizing the transcriptional regulatory regions of the MUC1 and ERBB2 genes to drive the expression of suicide genes.

A gene dosage effect is responsible for high overexpression of the MUC1 gene observed in human breast tumors

Alterations of the entire long arm of chromosome 1 are the most consistent cytogenetic abnormalities found in human breast carcinoma. Overexpression of a large number of genes, because of acquisition of additional copies of one arm or a whole chromosome, is one possible cause of the imbalance in cell metabolism. To investigate the existence of such a gene dosage effect in breast cancer, we chose to study the MUC1 mucin gene located at 1q21-q24. This gene is highly expressed in breast tumors, but the genetic mechanism for its ectopic overexpression is not clearly known. Thirty-two human primary breast tumors were examined, by Southern blot DNA and northern blot RNA analyses, for allelic dosage and expression of the MUC1 gene. A correlation was found between acquisition of additional copies of MUC1 gene and high mRNA levels (p < 0.0001). These results identify a genetic mechanism responsible for MUC1 gene overexpression and support the hypothesis that a gene dosage effect of the long arm of chromosome 1 may be involved in the pathogenesis of breast cancer.

MUC1 mucin gene, transcripts, and protein in adenomas and papillary carcinomas of the thyroid

MUC1 mucin is found in a variety of epithelial tissues and is overexpressed in several epithelial cancers. This molecule could modulate cellular adhesion and thereby influence tumor invasion and metastasis. Little is known of MUC1 gene expression in thyroid tissues. We investigated whether MUC1 mucin gene alteration and/or expression correlated with thyroid tumor progression by studying 21 fresh thyroid tissue specimens comprising 10 macrofollicular adenomas and 11 papillary carcinomas. Normal adjacent tissue from the same patients was also studied. To determine the integrity and expression of the MUC1 mucin gene, a complementary DNA (cDNA) probe was used for Southern blot analysis of DNA and Northern blot analysis of RNA. A detailed immunohistochemical analysis of MUC1 protein expression was performed with DF3 monoclonal antibody, and was compared with other tumor characteristics and clinical manifestations at diagnosis. Of the 14 tumors informative (heterozygous) with the pMUC10 polymorphic probe, 2 (14%) showed loss of heterozygosity (1 adenoma and 1 carcinoma). Overexpression of MUC1 RNA, compared with normal thyroid tissue, was observed in 6 of the 11 papillary carcinomas and in none of the 10 adenomas. Immunostaining of the corresponding formalin-fixed paraffin-embedded tissue sections detected MUC1 mucin protein at the apical domain of follicular cells. Most of the lining was thin in normal tissue and follicular adenomas, but the protein was more irregularly and less strongly expressed in adenomas. In carcinomas the epithelial mucin produced by the MUC1 gene was present irregularly as a thin and/or thick lining at the apical domain of tumor cells. In addition, 5 of the 6 samples with MUC1 mRNA overexpression showed intracytoplasmic staining. Moreover, intracytoplasmic MUC1 mucin staining was found in 75% of "high-risk" papillary thyroid carcinoma (PTC) (PTC with extrathyroid extension at initial diagnosis and/or lymph node involvement), and in only 28.5% of "low-risk" PTC (purely intrathyroidal carcinomas).

MUC1 and other sialoglycoconjugates inhibit adenovirus-mediated gene transfer to epithelial cells

Recombinant adenoviruses are currently being evaluated as gene transfer vectors for the treatment of airway diseases. Recent evidence indicates that gene transfer to differentiated airway epithelial cells is inefficient. We hypothesized that apical membrane glycoconjugates, such as the transmembrane mucin MUC1, reduce the efficiency of adenovirus-mediated gene transfer. To address this, studies were performed in primary bronchial epithelial and Madin Darby canine kidney (MDCK) cells transduced to express human MUC1. Colocalization of MUC1 and an adenoviral lacZ transgene in the bronchial epithelial cells revealed that at several multiplicities of infection, the percentage of cells expressing lacZ was five-fold less in MUC1-expressing cells. Moreover, lacZ expression was three- to eight-fold lower in MUC1-expressing than in control MDCK cells, demonstrating that MUC1 interferes with gene transfer and is not merely a phenotypic marker of a cell that is refractory to adenovirus infection. Neuraminidase pretreatment of cells to remove sialic acid residues prior to viral adsorption increased the efficiency of gene transfer two- to five-fold in human airway and MDCK cells, and in a xenograft model of human airway. This effect was also observed in cultured cells that do not express MUC1, suggesting that other sialylated glycoconjugates impact on the efficiency of gene transfer. An inhibitory effect of negatively charged glycoconjugates on adenovirus binding was further supported by the finding that adsorption of adenovirus with a polycation significantly increased gene transfer efficiency. These data demonstrate for the first time that sialoglycoconjugates on epithelial cells reduce the efficiency of adenovirus-mediated gene transfer.

Oligosaccharides expressed on MUC1 produced by pancreatic and colon tumor cell lines

MUC1 is expressed at the apical surface of ductal epithelia of tissues, including breast, pancreas, airway, and the gastrointestinal tract, where its functions include lubrication and protection of the epithelia. In addition, roles for MUC1 have been suggested in both adhesive and antiadhesive properties of tumor cells, and extensive O-glycosylation of the MUC1 tandem repeat domain may contribute to these functions. Little information is available on the specific O-glycosylation of MUC1. One problem in identifying different MUC1 glycoforms has been that monoclonal antibodies raised against the MUC1 core protein recognize epitopes in the tandem repeat domain, which is often glycosylated to an extent that obscures these epitopes. We developed an epitope-tagged form of MUC1 that allowed the detection of multiple MUC1 glycoforms and established the presence of a number of important blood group and tumor-associated carbohydrate antigens on MUC1 expressed by two pancreatic tumor cell lines (Panc-1 and S2-013) and two colon tumor cell lines (Caco-2 and HT-29). Antigens detected include sialyl-Lewisa, sialyl-Lewisc, sialyl-Lewisx, and sialyl-Tn.

Molecular cloning and hormone-dependent expression of rabbit Muc1 in the cervix and uterus

The microenvironment of the endocervix is regulated by secretory (> 10-15 x 10(6) Da) and cell-surface (< or = 1 x 10(6) Da) mucins. A survey with antisense and sense (control) oligonucleotides for eight epithelial mucin genes revealed that only MUC1, an anti-adhesive protein believed to modulate immune function and the only transmembrane mucin for which molecular probes exist, is expressed in the rabbit cervix. pMUC7, a 500-base pair cDNA probe to the tandem repeat domain of human MUC1, was used to clone the cDNA for the rabbit homologue. Although the GC-rich tandem repeat of rabbit Muc1 had only 40% sequence identity with its human counterpart, its transmembrane domain and cytoplasmic tail maintained 93% sequence identity with the same regions of human MUC1. Detection of restriction length polymorphisms confirmed the Lagomorpha Muc1 gene, like the human, is polymorphic. Temporal expression of Muc1 transcripts (2.4 kilobases) correlated closely with epithelial differentiation in the cervix. However, compared with the adult cervix, uterine endometrium expressed the highest levels of Muc1. In the endometrium, Muc1 was increased (p < 0.0004) by progesterone and returned to estrous levels by treatment with estrogen. Muc1 levels in the cervix were unaffected by ovarian steroids, confirming tissue-specific regulation of Muc1 in the lower reproductive tract.