CA IX is an independent prognostic marker in premenopausal breast cancer patients with one to three positive lymph nodes and a putative marker of radiation resistance.

Purpose: Hypoxia in breast cancer is associated with poor prognosis and down-regulation of the estrogen receptor. Carbonic anhydrase IX (CA IX) is a hypoxia-inducible gene that has been associated with poor outcome in many epithelial cancers. Previous studies of CA IX in breast cancer have been carried out on mixed cohorts of premenopausal and postmenopausal patients with locally advanced disease and varying treatment regimens.

Hypoxia inducible factor-1alpha is a prognostic marker in premenopausal patients with intermediate to highly differentiated breast cancer but not a predictive marker for tamoxifen response.

Hypoxia is common in many solid tumours, including breast cancer. Hypoxia triggers the expression of hypoxia inducible factor-1alpha (HIF-1alpha), and HIF-1alpha has been associated with an impaired prognosis in breast cancer and down-regulation of the oestrogen receptor (ER), potentially affecting the treatment efficiency of antioestrogens. The role of HIF-1alpha regarding prognostic and treatment predictive information in breast cancer has not been established and we therefore analyzed HIF-1alpha using immunohistochemistry in a cohort of 377 premenopausal stage II breast cancers arranged in a tissue microarray.

Adverse effect of adjuvant tamoxifen in premenopausal breast cancer with cyclin D1 gene amplification.

Cyclins D1 and A2 are cell cycle regulators that also have the ability to interact with the estrogen receptor (ER) and consequently interfere with antiestrogen treatment in breast cancer. Experimental data support this concept, but the clinical relevance needs to be further established. In this study, we evaluated cyclin D1 and A2 protein expression by immunohistochemistry and cyclin D1 gene (CCND1) amplification by fluorescence in situ hybridization in 500 primary breast cancers arranged in tissue microarrays.

ERK1/2 inhibition increases antiestrogen treatment efficacy by interfering with hypoxia-induced downregulation of ERalpha: a combination therapy potentially targeting hypoxic and dormant tumor cells.

Tumor hypoxia is associated with cancer invasiveness, metastasis and treatment failure. Recent data suggest that the major target for endocrine treatment in breast cancer, ERalpha, is downregulated during hypoxia, but the mechanism behind this remains unknown. MAPK signaling as well as ERalpha regulation has earlier been independently linked to hypoxia and we now demonstrate HIF-1alpha and ERK1/2-activation in vivo towards the necrotic zone in DCIS of the breast, parallel with ERalpha downregulation.

Regional cyclin D1 overexpression or hypoxia correlate inversely with heterogeneous oestrogen receptor-alpha expression in human breast cancer.

The oestrogen receptor-alpha (ER alpha) differs in expression and regulation in breast cancer and, by studying the co-factor cyclin D1 as well as changes in the microenvironment, we here delineate two conditions that potentially cause regional down-regulation of the receptor. Heterogeneously expressed ER alpha was observed in 24 out of 134 of the studied breast cancer samples. In 6 out of 24 of the heterogeneous tumours, there was a clear inverse association between cyclin D1 protein/gene amplification and presence of ER alpha.

Hypoxia promotes a dedifferentiated phenotype in ductal breast carcinoma in situ.

In cultured neuroblastoma cells, hypoxia induces a dedifferentiated phenotype. We tested whether hypoxia-induced dedifferentiation also occurs in vivo in mammary ductal carcinoma in situ with its well-defined lesions and distinct areas of necrosis. Ductal carcinoma in situ cells surrounding the central necrosis have high hypoxia inducible factor-1alpha protein levels, down-regulated estrogen receptor-alpha, and increased expression of the epithelial breast stem cell marker cytokeratin 19; lose their polarization; and acquire an increased nucleus/cytoplasm ratio, hallmarks of poor architectural and cellular differentiation.