Rachel J. Quin

Phosphorylation of the cytoplasmic domain of the MUC1 mucin correlates with changes in cell‐cell adhesion

The MUC1 epithelial mucin is expressed by glandular epithelial cells and is often highly expressed and associated with poor prognosis in adenocarcinomas. Tyrosine phosphorylation of the highly conserved cytoplasmic tail of MUC1 (MUC1‐CT) has been demonstrated in MUC1 transfected cells and in one breast cancer cell line. In addition, associations between MUC1 and secondary signalling molecules have been demonstrated in breast cancer cell lines. MUC1 clearly plays a role in intracellular signalling, since we were able to demonstrate tyrosine phosphorylation of the MUC1‐CT in breast and ovarian cancer cell lines and in primary cultures of serous ovarian cancers. We were unable to modulate MUC1‐CT phosphorylation using conditioned media from cell lines showing the highest levels of signalling. However, in several breast and ovarian cancer cell lines, we clearly showed the highest levels of MUC1‐CT tyrosine phosphorylation occurred during recolonisation of culture dishes or in low‐density adherent cultures. We now hypothesise that phosphorylation changes may reflect either involvement of MUC1 in cell motility or a redistribution of MUC1 in the membrane during the course of cell‐cell adhesion. Int. J. Cancer 87:499–506, 2000.

Antibodies reactive with the protein core of MUC1 mucin are present in ovarian cancer patients and healthy women.

Abstract Antibodies reactive with peptide epitopes on the core protein of MUC1 epithelial mucin have been demonstrated in some patients with adenocarcinomas. Because these epitopes can be exposed on MUC1 in the serum of healthy women, we measured concentrations of MUC1-reactive antibodies in the serum of healthy pregnant and non-pregnant women, and in patients with benign and malignant ovarian tumours. Antibodies were measured in an enzyme-linked immunosorbent assay utilising a synthetic peptide corresponding to a 105-amino-acid segment of the MUC1 tandem repeat region (5.25 repeats). MUC1-reactive antibodies were always of an IgM isotype and concentrations were highest in young healthy women and declined progressively with age (P = 0.0006) concomitantly with increasing serum MUC1 levels (P = 0.003). Regardless of age, antibody levels were lower in cancer patients than in healthy women (P<0.0001), but MUC1 levels were much higher in cancer patients (P<0.0001). Although high antibody levels were associated with greater survival in ovarian cancer (P = 0.015), multivariate regression analysis showed that this was not a significant independent prognostic indicator after consideration of the International Federation of Gynaecology and Obstetrics (FIGO) stage, histological type, serum MUC1 levels and age. Serial measurement of MUC1 and MUC1 antibodies during treatment in 18 patients with ovarian cancer and throughout pregnancy in 10 women showed a negative correlation between alterations in MUC1 and MUC1 antibodies. These results show that MUC1-peptide-reactive antibodies are present in the serum of healthy women and women with cancer and that they probably form immune complexes with MUC1, but provide no evidence for an augmentation of the humoral immune response to MUC1 in ovarian cancer

CA15-3, CASA, MSA, AND TPS AS DIAGNOSTIC SERUM MARKERS IN BREAST-CANCER

SummaryThis is the first comparison of the three mucin based tests CA15-3, CASA, and MSA, and the cytokeratin-related TPS assay in breast cancer. The mucin markers were superior to TPS in receiver-operator analysis, though no marker was of use in the diagnosis of malignancy due to low sensitivity. Using cutpoints that gave 95% specificity in benign disease (n = 83), corresponding sensitivities in pre-treatment breast cancer (n = 123: 13in situ, 54 stage I, 45 stage II, 4 stage III, 7 stage IV) were 17% (CA15-3), 16% (CASA), 13% (MSA), and 8% (TPS), with a strong relationship between marker levels and disease stage. These assays did not always detect the same patients, and the use of CA15-3 combined with CASA gave the highest sensitivity (23%), though this was not significantly better than the use of CA15-3 alone. Despite detecting similar antigens, these assays can show markedly different responses in some patients, indicating that one mucin-based test cannot be sub-stituted for another.

Serum Markers CASA and CA15-3 in Ovarian Cancer: All MUC1 Assays Are Not the Same

The serum MUC1 markers CASA and CA 15-3 were compared with CA 125 in the serum of patients with ovarian cancer and in pregnant women. Used individually, CASA and CA 15-3 gave sensitivities of 54 and 56% in pre-operative ovarian carcinoma (n = 50), though these were lower than with CA 125 (84%). CASA levels were elevated in 3 women with a negative CA 125, while CA 15-3 was elevated in 2 of these women. The combined use of CA 125 with CASA or CA 15-3 led to the preclinical detection of recurrence in 4/5 patients, with mean lead times of 3.6 and 4.3 months, respectively. Of particular interest was the marked difference in reactivity observed with CASA and CA 15-3 in some patients, despite both assays utilising monoclonal antibodies (MAbs) that react with the MUC1 mucin. CA 15-3 and CASA showed a lower than expected correlation in patients with ovarian cancer (r = 0.70), with some patients having high concentrations of one mucin marker and low concentrations of another. Furthermore, different marker profiles were observed when monitoring the progress of patients with these markers. Marked differences between CA 15-3 and CASA were also observed in the serum of pregnant women (n = 10), where CASA showed marked elevation (mean 33.6 times cutpoint) and CA 15-3 did not (mean 0.88 times cutpoint). These data suggest that the specificities of the MAbs used in these assays affect the glycoform of MUC1 detected, and that it should not be assumed that all MUC1 assays will behave in the same manner.

Monoclonal antibodies recognising sialyl-Tn: production and application to immunochemistry

In order to develop reagents that can detect the exposed sialyl-Tn antigen (NeuAc alpha 2,6GalNAc alpha 1-O-Ser/Thr) on tumour-associated mucins, we have prepared monoclonal antibodies (mabs 3C2 and 3D1, both IgM) against ovine submaxillary mucin (OSM; > 98% of glycans as sialyl-Tn). These mabs showed strong reactivity with OSM and bovine submaxillary mucin (BSM; 50% of glycans as sialyl-Tn) but did not react with desialylated OSM or BSM. Sialic acid at 1 mg/ml did not significantly inhibit mab binding to OSM, suggesting that the linkage to GalNAc may be important for mab binding. 3C2 and 3D1 also showed similar reactivity to sialyl-Tn reactive mab B72.3, and detected B72.3 captured OSM in a sandwich ELISA. In Western blotting of mucus from a patient with a mucinous ovarian tumour, the mabs reacted with high molecular weight (> 200 kDa) species. In immunohistochemistry, these mabs showed strong reactivity with most cancers of the colon, lung, and stomach, and also some tumours of the ovary and breast. There was only limited reactivity in normal tissue from these sites. The antibodies should be useful reagents for the detection of the sialyl-Tn antigen in human cancers.

Peritoneal fluid from ovarian cancer patients stimulates MUC1 epithelial mucin expression in ovarian cancer cell lines

The MUC1 epithelial mucin is a transmembrane glycoprotein that is frequently but variably over‐expressed by adenocarcinomas. It is used as a diagnostic serum tumour marker and is a candidate target for tumour immunotherapy. Peritoneal fluid (PF) samples from ovarian cancer patients were investigated for their ability to modulate MUC1 expression in 6 ovarian cancer cell lines which showed a range from very low to high endogenous MUC1 expression. Cell lines were cultured in 20% PF for 4 days, fixed in situ and MUC1 assayed by ELISA. MUC1 expression was stimulated by some PF samples in 5 of 6 lines tested. MUC1 expression in the PE04 cell line (very low endogenous expression) was increased by 35 of 36 PFs tested (p < 0.05); stimulation varied between PFs but was greater than with 100 IU/mL hu‐r‐γ‐interferon. Western blotting confirmed the stimulation of MUC1 in PE04 cells and FACS showed an increase in the proportion of cells expressing MUC1. The active factor was partially purified by gel filtration and was shown to stimulate PE04 cells in a dose‐dependent manner. Concentrations of IL1β, IL4, IL6, IL8, IL10, TNF‐α, TGF‐β and GM‐CSF were often very high in PF and varied substantially between different PF samples but did not correlate with the degree of MUC1 stimulatory activity. Int. J. Cancer 76:393–398, 1998.© 1998 Wiley‐Liss, Inc.

Serum Mucin Antigen (CASA) as a Marker of Amiodarone-Induced Pulmonary Toxicity

Amiodarone is used to treat life-threatening cardiac arrhythmias. Amiodarone-induced pulmonary toxicity (APT) can be difficult to diagnose. APT may result in increased mucus production and mucin expression. Thus, serum mucin-1 was evaluated as a marker for amiodarone-induced pulmonary toxicity. Concentrations of mucin-1 in peripheral blood were determined using cancer-associated serum antigen (CASA) assay in patients taking amiodarone. Eight of ten patients who developed major amiodarone toxicity had high serum CASA levels. Patients with toxicity had a significantly higher mean rank CASA concentration compared with those without major toxicity. CASA shows potential as a marker for amiodarone-induced toxicity, particularly pulmonary toxicity.

Prostate-specific antigen (PSA) and cancer-associated serum antigen (CASA) in distinguishing benign and malignant prostate disease

The Prostate-Specific Antigen (PSA) and the Cancer-Associated Serum Antigen (CASA) assay for the MUC1 mucin were compared in the serum of 303 patients with malignant or benign prostatic disease. Using cutpoints of 4, 10, and 20 μg/l, PSA was elevated in 93%, 81%, and 64% of patients with prostate cancer (n = 113), with corresponding specificities of 55%, 84%, and 96% in benign prostate disease (prostatic hyperplasia or prostatitis, n = 190). Using the recommended cutpoint of 4 Units/ml, CASA was elevated in 38% of patients with prostate cancer, with a specificity of 91% in benign disease. PSA and CASA showed a poor correlation in prostate cancer (r = 0.367) and benign disease (r = 0.158), and CASA was elevated in some PSA negative samples. Used together, PSA ≥20 μg/l and CASA ≥4 kU/l gave perfect specificity in benign disease, with a corresponding sensitivity of 29% (positive and negative predictive values of 100% and 70%, respectively). However, this combination gave no improvement over the use of PSA alone, with sensitivity 47% when the cutpoint was raised to give perfect specificity. These data suggest that CASA is of little use as an adjunct to PSA in the differentiation of benign and malignant prostate disease.

Monoclonal antibody recognizing a core epitope on mucin.

Monoclonal antibody TH1 (IgM) was prepared by immunizing mice with deglycosylated (TFMSA-treated) cystic fibrosis mucin. TH1 reacted strongly with TFMSA treated cystic fibrosis mucin but not with the fully glycosylated mucin, indicating reactivity with a core mucin epitope. TH1 showed no reactivity with ovine mucin (98% of glycans as sialyl-Tn) but reacted strongly with desialylated ovine mucin, indicating the epitope for this mab was the Tn-antigen (O-linked GalNAc). However, TH1 showed no reactivity with Tn-positive red blood cells, and the binding of TH1 was not inhibited by GalNAc at 2.5 mg/ml, illustrating the importance of the peptide sequence to which the GalNAc is attached. TH1 stained the majority of cancers of the colon, lung, stomach, ovary, breast, and cervix, and the cellular distribution of this antigen in normal tissue suggested reactivity with immature mucin. This antibody appears to be a useful reagent for the detection of immature mucin.