Functional correlates of mutation of the Asp32 and Gly34 residues of beta-catenin.

Beta-catenin is a multifunctional protein involved in both cadherin-mediated adhesion and the wnt signaling cascade. Mutations in exon 3 of beta-catenin have been identified in many cancers. In addition to disruption of key serine and threonine residues, mutations are frequently reported in other residues in exon 3 that are not kinase substrates. The most frequently mutated nonserine/threonine residues are D32 and G34. Since D32 and G34 are part of the ubiquitination destruction motif, DSGPhiXS, we hypothesize that this motif may contribute to disruption of beta-catenin homeostasis and lead to cellular transformation. We demonstrate that the mutants D32A and G34A exhibit no change in phosphorylation by GSK3beta, but display reduced ubiquitination compared to wild-type and S33A mutant beta-catenin. To assess the functional implications of these mutations, we created stable MDCK cell lines expressing these constructs. We found that stable cell lines harboring D32A-mutated beta-catenin were highly transformed, while S33A and G34 demonstrated only weak transforming properties in our assays. Despite altered ubiquitination status and increased transformation, the D32A mutant cell line does not display transcriptional activation of standard target genes. Therefore, D32A mutation may mediate transformation by an alternative beta-catenin-mediated signaling pathway.

Functional correlates of mutations in beta-catenin exon 3 phosphorylation sites.

beta-Catenin-mediated signaling can be constitutively activated by truncation or mutation of serine and threonine residues in exon 3. Mutations in this region are observed in many human tumors. Examination of the locations of these mutations reveals interesting patterns; specifically, Ser45 and Thr41 appear more frequently in malignant tumors, and Ser37 and Ser33 are more common in benign entities. To test whether these patterns represent functional differences in beta-catenin signaling mechanisms, we generated mutations of each of these residues. Stable transformation of Madin-Darby canine kidney cells showed a transformed phenotype with each of the four mutations, as assessed by growth in soft agar and collagen. Functional assays including proliferation assays, cell shedding assays, and wounding assays demonstrated two groups. Ser45 and Thr41 represent a more transformed phenotype, whereas Ser37 and Ser33 behaved similarly to the vector in these assays. Assessment of downstream genes demonstrated increased activation of the beta-catenin target gene cyclin D1 by Ser45. Finally, we examined the kinase activity of I kappa B kinase-alpha and found that this kinase, unlike glycogen synthase kinase-3 beta, appears to preferentially phosphorylate Ser45 and Thr41, independent of priming by casein kinase-1. We conclude that these sites may represent an alternative (non-wnt) signaling pathway, which may be inappropriately activated in tumors with mutations of these residues.

Detection of chromosomal instability in paired breast surgery and ductal lavage specimens by interphase fluorescence in situ hybridization.

PURPOSE: Ductal lavage is a new modality for collecting exfoliated breast cells with the goal of detecting early neoplasia. The purpose of our study was to evaluate the correlation between cancer-associated abnormalities in breast lesions and exfoliated breast cells collected by ductal lavage. EXPERIMENTAL DESIGN: We performed histopathologic, cytologic, and molecular cytogenetic analyses on 39 paired cases of surgically excised breast lesions and ductal lavage specimens collected immediately before surgery. RESULTS: Abnormal cytology was detected in 7 of 15 (47%) of the evaluable lavages collected from malignant cases, versus 4 of 19 (21%) of the evaluable lavages harvested from benign cases for a sensitivity and specificity of 47 and 79%, respectively. Interphase fluorescence in situ hybridization analysis of all evaluable lavages revealed numeric changes on chromosomes 1, 8, 11, and/or 17 in 10 of 14 (71%) specimens from malignant cases versus 2 of 18 (11%) from benign cases for a sensitivity and specificity of 71 and 89%, respectively. CONCLUSIONS: Our study demonstrates that cytologic and genetic abnormalities associated with breast cancer progression can be detected in ductal lavage cells collected from women with in situ and invasive breast cancer and suggests that fluorescence in situ hybridization may have superior sensitivity and specificity compared with conventional cytology.

Tissue microarray-based studies of patients with lymph node negative breast carcinoma show that met expression is associated with worse outcome but is not correlated with epidermal growth factor family receptors.

BACKGROUND: It has been shown that receptor tyrosine kinases (RTKs) predict outcome in patients with breast carcinoma. Although RTKs are a large family, HER-2, epidermal growth factor receptor (EGFR), Met (hepatocyte growth factor receptor), and others all have shown the ability to predict outcome. However, it remains unclear whether these markers are defining the same subpopulation of patients with breast carcinoma. In this study, the authors attempted to determine the correlation between RTKs on the basis of their ability to stratify a population according to outcome. METHODS: The authors used tissue microarray technology to study 324 patients with lymph node negative breast carcinoma who had 20-40 years of follow-up. Expression was assessed using immunohistochemical stains for Met, EFGR, fibroblast growth factor receptor (FGFR), and HER-2. Expression levels were assessed by two observers, and correlations were analyzed. Standard pathology information, including tumor size, nuclear grade, Ki-67 receptor status, and estrogen and progesterone receptor expression levels, also was collected. RESULTS: RTK expression in the study cohort revealed two strong correlations. Specifically, HER-2 and EGFR showed similar expression patterns (P < 0.0001), and Met cytoplasmic domain and FGFR cytoplasmic staining showed similar expression patterns (P < 0.0001), but no correlation was found between the two groups. Of these RTKs, only high levels of Met cytoplasmic domain showed significance as a prognostic marker defining a shortened survival compared with the rest of the population (P = 0.0035; relative risk, 2.04). In the same group of patients, HER-2, hormone receptor status, and other RTK family receptors were not correlated with outcome. In multivariate analysis, only Met cytoplasmic domain and tumor size showed independent predictive value. CONCLUSIONS: The current results indicate that the cytoplasmic domain of Met shows a unique staining pattern and defines a set of patients unique from the set of patients defined by overexpression of HER-2, EGFR, or hormone receptors. Furthermore, this group of patients is associated tightly and independently with worse outcome.

Tissue microarray-based analysis shows phospho-beta-catenin expression in malignant melanoma is associated with poor outcome.

Beyond depth of invasion, there are very few prognostic markers to predict outcome in melanoma. It has been shown recently that the beta-catenin oncogene is mutated or shows altered subcellular localization suggesting that activation of beta-catenin mediated signaling plays a role in oncogenesis. We hypothesize that assessment of activated beta-catenin, as detected by a phospho-specific antibody, may be useful to predict outcome in melanoma. We use immuno-histochemical analysis of beta-catenin and phospho-beta-catenin, first to verify the specificity of the phospho-beta-catenin antibody and then to assay expression in a tissue microarray-based study. The subcellular localization of beta-catenin is membranous in some cases and cytoplasmic and nuclear in others. We validate the specificity of a ser33/37/thr41 phospho-beta-catenin antibody in transfected cells and show that the expression is almost exclusively localized to the nucleus in both cultured cells and human tissue. Evaluation of both total and phospho-beta-catenin antibodies showed that cytoplasmic/nuclear staining was more common in primary lesions, whereas nuclear phospho-beta-catenin was more common in metastatic lesions. High levels of nuclear phospho-beta-catenin are associated with significantly worse overall survival (51% vs. 25% overall survival at 5 years, p = 0.046). These results suggest that phospho-specific antibodies to beta-catenin define a unique subset of cases and that monitoring of phospho-beta-catenin expression may be useful for assessing prognosis in malignant melanoma.