Cell-to-cell heterogeneity in the expression of carbohydrate-based epitopes of a mucin-type glycoprotein on the surface of human mammary carcinoma cells

Glycoprotein A-80 in the human prostate: immunolocalization in prostatic intraepithelial neoplasia, carcinoma, radiation failure, and after neoadjuvant hormonal therapy

OBJECTIVES

To review the expression of A-80 in prostate cancer and prostatic intraepithelial neoplasia and compare it with that of normal and hyperplastic prostatic tissue. The ability to recognize cancer after androgen deprivation therapy and residual and/or recurrent cancer after radiotherapy using A-80 staining was also examined. A-80 is a glycoprotein linked to exocrine differentiation that shows little or no expression in normal exocrine cells, but is selectively overexpressed in dysplasias and adenocarcinomas.

METHODS

We studied 277 prostate samples with a monoclonal antibody (MAb) to A-80. We applied this MAb to paraffin sections of specimens of fetal (n = 12), benign prostatic hyperplasia (n = 26, from transurethral prostate resection specimens), atypical adenomatous hyperplasia (n = 11), prostate cancer (n = 103, from radical prostatectomy specimens), and autopsy (n = 7) tissue. In addition, 54 prostatectomy specimens after androgen-deprivation therapy and 64 specimens after radiotherapy were similarly studied.

RESULTS

MAb A-80 stained the epithelial component of all 12 prostate specimens from fetal tissue; no staining was seen in normal adult prostatic tissue (0 of 7). In benign prostatic hyperplasia, sporadic cells reacted in 13% of cases (4 of 30); the atypical adenomatous hyperplasia samples were all negative (0 of 11). In patients with prostate cancer, more than 99% (102 of 103) stained positive, regardless of the grade or stage of cancer. Low and high-grade prostatic intraepithelial neoplasia reacted in 73% (38 of 52) and 92% (77 of 84) of cases, respectively. All 64 (100%) salvage prostatectomy samples after external beam radiotherapy stained positive for A-80. Carcinoma subsequent to neoadjuvant hormonal therapy stained positive in 98% (53 of 54) of cases.

CONCLUSIONS

A-80 is useful in differentiating benign prostatic hyperplasia and atypical adenomatous hyperplasia from prostate cancer. Also, the strong A-80 reactions in most high-grade prostatic intraepithelial neoplasia provide strong molecular support to the precancerous nature of the lesion. In particular, A-80 staining of biopsies may be useful in detecting residual and/or recurrent prostate carcinoma after radiation or hormonal therapy.

Immunolocalization of glycoprotein A-80 in prostatic carcinoma and prostatic intraepithelial neoplasia

A-80 is a mucin-like glycoprotein associated with exocrine differentiation that shows little or no expression in normal exocrine cells and typical adenomas, but is upregulated in dysplasia and adenocarcinoma of certain organs. Its expression has not been systematically examined in prostatic adenocarcinoma and its putative precursor, prostatic intraepithelial neoplasia (PIN). The authors applied a mouse monoclonal antibody against A-80 in paraffin-embedded sections from 103 cases of prostatic carcinoma, 26 cases of nodular hyperplasia, 7 autopsy samples from normal young adult prostates, and 12 fetal prostates. All but one cancer reacted, although expression was heterogeneous; 75 of 103 stained extensively (> 3+ on a 0 to 5+ scale) and strongly. Staining extent and intensity were independent of tumor grade, and tended to be strong even when focal. Seventy-seven of 84 foci (92%) of high-grade PIN and 38 of 52 foci (73%) of low-grade PIN stained for A-80; reactions were most extensive and intense in high grade PIN. Only 5 of 26 cases (19%) of hyperplasia reacted, and this consisted of weak to moderate staining in sporadic cells; the remainder were negative. Normal adult prostatic epithelium did not express A-80 except for weak and inconsistent staining in foci of inflammation and infarction; atrophic glands were negative. Fetal prostate showed focally strong reactivity. These results indicate that A-80 is selectively expressed in most cases of intraepithelial neoplasia and prostate cancer, but is usually absent in benign and hyperplastic epithelium. The upregulation of glycoprotein A-80 in PIN and adenocarcinoma parallels observations in other organs, such as the breast and colon, suggesting that this is a significant oncodevelopmental molecule with potential clinical applications.

The epithelial mucin, MUC1, of milk, mammary gland and other tissues

MUC1 is a mucin-type glycoprotein that is integrally disposed in the apical plasma membrane of the lactating epithelial cell and protrudes from the cell surface into the alveolar lumen where milk is stored. Envelopment of milk fat globules by this membrane accomplishes their secretion and conveys MUC1 into milk. The human form of this mucin has been detected in many other organs, tissues and body fluids. It projects from the cell surface as long filaments. In the human and a number of other species, MUC1 is polymorphic due to variable numbers of a tandemly repeated segment 20 amino acids in length. The individual codominantly expresses two alleles for the mucin so that differences in its size among individuals and between the two forms of an individual are observed. The tandem repeats are rich in serines and threonines which serve as O-glycosylation sites. Carbohydrate content of MUC1, as isolated from milk of human, bovine and guinea pig, is approximately 50%. The oligosaccharides carry substantial sialic acid at their termini and this accounts for two putative functions of this mucin, i.e., to keep ducts and lumens open by creating a strong negative charge on the surface of epithelial cells which would repel opposite sides of a vessel, and to bind certain pathogenic microorganisms. MUC1 is protease resistant (trypsin, chymotrypsin and pepsin) and large fragments of it can be found in the feces of some but not all breast-fed infants. MUC1 has a highly varied structure because of its polymorphism, qualitative and quantitative variations in its glycosylation between tissues, individuals and species, and differences due to divergence in the nucleotide sequences among species. Sequencing of the MUC1 gene for various species is showing promise of revealing unique evolutionary relationships and has already indicated conserved aspects of the molecule that may be functionally important. Among these are positions of serine, threonine and proline in the tandem repeats and a high degree of homology in the transmembrane and cytoplasmic segments of the molecule.

Bone marrow activation by immobilized antibodies against tumor cells and immunocytes as a potential cancer immunotherapy

This study was aimed at combining the limited expression pattern of the type 1 mucin glycoproteins on tumors derived from glandular epithelia with the presence of integrin adhesion receptors on hematopoietic cells in order to develop an immunotherapy against certain types of carcinomas. To this end, monoclonal antibodies that recognize molecules on the surfaces of either tumor cells or immunocytes were immobilized on latex beads; proliferation of bone marrow cells, representing a source of preterminally differentiated immunocytes with potential antitumor activity, was measured and compared with that of mature lymphocytes in the presence of beads and irradiated tumor cells. It was found that only beads carrying antibodies against both mucins and leukocyte integrins were capable of inducing proliferation of bone marrow cells while none specifically stimulated mature lymphocytes. A proposal is put forth for the development of tumor-induced proliferation of bone marrow cells as a potential effective immunotherapy for some forms of cancer.

Immunocytochemical evaluation of neoplastic and non-neoplastic breast diseases with Mab A-80

Five hundred breast tissue samples from 404 cases were immunostained with A-80, a murine IgM Mab that recognizes a mucinous glycoprotein associated with exocrine differentiation. Samples included 196 primary breast carcinomas, 30 breast carcinoma metastases, 118 fibrocystic disease (FCD), and a further group of 84 samples of FCD from cases known to have breast carcinoma. These samples represented a broad spectrum of common and rare variants of carcinoma and FCD. Samples of fibroadenomas, lactating adenomas, cystosarcoma phylloides, gynecomastia, and normal breasts were similarly studied. The vast majority of carcinomas, 203/212 (95.7%) were immunoreactive; staining varied in extent and intensity, and was virtually unrelated to histologic type and to the presence or absence of recognizable glands. In samples including in-situ and infiltrating ductal or lobular carcinoma, reactivity was frequently stronger in the infiltrating components. No significant difference in reactivity between primary and metastatic carcinomas was noted. Of the group of 118 FCD, 27 were negative whereas 91 showed focal and weak staining. Seventy-two/84 FCD with associated carcinoma were immunostained; in 13 of those 72, staining was strong and extensive. Fibroadenomas, lactating adenomas, gynecomastia, and normal "resting" and lactating breast samples stained focally or not at all. Our findings indicate that Mab A-80 is an excellent immunohistochemical marker for the overwhelming majority of breast carcinomas whereas it marks weakly or not at all the majority of benign neoplasms and normal breast. Moreover, Mab A-80 recognizes a subset of FCD that includes proliferative variants associated with an increased incidence of carcinoma, and FCD in association with carcinoma. Questions regarding rare breast carcinomas that do not react with Mab A-80 remain unclear; yet, we believe that Mab A-80 is a highly promising marker of malignant and dysplastic breast epithelium.

Determination of apical membrane polarity in mammary epithelial cell cultures: the role of cell-cell, cell-substratum, and membrane-cytoskeleton interactions

The membrane glycoprotein, PAS-O, is a major differentiation antigen on mammary epithelial cells and is located exclusively in the apical domain of the plasma membrane. We have used 734B cultured human mammary carcinoma cells as a model system to study the role of tight junctions, cell-substratum contacts, and submembraneous cytoskeletal elements in restricting PAS-O to the apical membrane. Immunofluorescence and immunoelectronmicroscopy experiments demonstrated that while tight junctions demarcate PAS-O distribution in confluent cultures, apical polarity could be established at low culture densities when cells could not form tight junctions with neighboring cells. In such cultures the boundary between apical and basal domains was observed at the point of cell contact with the substratum. Immunocytochemical analysis of these cell-substratum contacts revealed the absence of a characteristic basement membrane containing laminin, collagen (IV), and heparan sulfate proteoglycan. However, serum-derived vitronectin was associated with the basal cell surface and the cells were shown to express the vitronectin receptor on their basolateral membranes. Additionally, treatment of cultures with antibodies against the vitronectin receptor caused cell detachment. We suggest, then, that interactions between vitronectin and its receptor, are responsible for establishment of membrane domains in the absence of tight junctions. The role of cytoskeletal elements in restricting PAS-O distribution was examined by treating cultures with cytochalasin D, colchicine, or acrylamide. Cytochalasin D led to a redistribution of PAS-O while colchicine and acrylamide did not. We hypothesize that PAS-O is restricted to the apical membrane by interactions with a microfilament network and that the cytoskeletal organization is dependent upon cell-cell and cell-substratum interactions.