Role of cyclin D1 as an estrogen receptor cofactor and the influence of hypoxia on estrogen receptor regulation, with focus on prognositic and treatment predictive features in breast cancer

Estrogen receptor (ER) status can define breast cancer patients who would benefit from adjuvant tamoxifen therapy. However, resistance to tamoxifen is often observed and possible mechanisms may be loss or reduction of ER, dysfunctional ER- signaling and ligand independent activation of the receptor. Hypoxia and hypoxia inducible factor-1? (HIF-1) expression has been correlated to loss of ER in breast tumors. Cyclin D1, initially described as a cell cycle regulator, might also function as a cofactor to ER inducing ligand independent activation of the receptor. We therefore determined the relation between ER, cyclin D1 and HIF-1 expression in primary breast tumors and cell lines. Further, the prognostic and treatment predictive value of cyclin D1 and HIF-1 was analyzed in breast cancer patients receiving two years of tamoxifen versus no adjuvant treatment. The results indicated that ER heterogeneity in primary breast tumors was associated with cyclin D1 and HIF-1 expression. Further, breast cancer patients with cyclin D1 high tumors did not benefit from tamoxifen treatment. The survival for untreated patients with cyclin D1 high tumors was nevertheless slightly better than for patients with cyclin D1 low tumors. Hypoxia was also strongly linked to ER downregulation in DCIS and invasive breast cancer and caused ER downregulation in breast cancer cell lines. Interestingly, hypoxic cells were less differentiated, showing changes in morphology, proliferation and cytokeratin 19 expression. The hypoxia induced ER reduction was due to both proteasomal degradation and decreased transcription and active extracellular regulated kinase (ERK1/2)was involved in the transcriptional regulation of ER. Consequently, tamoxifen treatment did not affect proliferation as efficiently in hypoxia as in normoxia, but ERK1/2 inhibitors efficiently increased the tamoxifen effect in hypoxia. Unexpectedly, tumor specific HIF-1 expression was not a predictive marker for tamoxifen response in premenopausal breast cancer patients but associated with a worse recurrence free survival. These results suggest that cyclin D1 is a predictive marker for tamoxifen resistance and HIF 1 a marker of poor prognosis in breast cancer. Targeting cyclin D1 and/or ERK1/2 in conjunction with tamoxifen represent new treatment strategies for improving the tamoxifen response

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, ER alpha, is downregulated during hypoxia, but the mechanism behind this remains unknown. MAPK signaling as well as ER alpha regulation has earlier been independently linked to hypoxia and we now demonstrate HIF-1 alpha and ERK1/2-activation in vivo towards the necrotic zone in DCIS of the breast, parallel with ER alpha downregulation. Hypoxia further caused transcriptional downregulation of ER alpha via activation of ERK1/2 in cell lines and, importantly, MEK1/2 inhibitors (U0126 or PD184352) or ERK1/2 suppression by siRNA partially restored the ERa expression. U0126 combined with tamoxifen accordingly produced an increased efficacy of the anti-estrogens during hypoxia. Base don these findings, we suggest a promising novel therapy for ER alpha-positive breast cancer where a combination of endocrine treatment and ERK1/2 inhibitors may increase treatment response by improved targeting of dormant hypoxic tumor cells

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. We examined the potential prognostic and predictive role of CA IX in premenopausal breast cancer patients. Experimental Design: Using tissue microarrays, we analyzed CA IX expression in 400 stage 11 breast cancers from premenopausal women. The patients had previously participated in a randomized control trial comparing 2 years of tamoxifen to no systemic adjuvant treatment. Median follow-up was 13.9 years. Results: CA IX expression correlated positively with tumor size, grade, hypoxia-inducible factor 1 alpha Ki-67, cyclin E, and cyclin A2 expression. CA IX expression correlated negatively with cyclin D1, estrogen receptor, and progesterone receptor. CA IX expression was associated with a reduced relapse-free survival (P = 0.032), overall survival (P = 0.022), and breast cancer specific survival (P = 0.005). Multivariate analysis revealed that CA IX was an independent prognostic marker in untreated patients with one to three positive lymph nodes (hazard ratio, 3.2; 95% confidence interval, 1.15-9.13; P = 0.027). Conclusion: CA IX is marker of poor prognosis in premenopausal breast cancer patients and it is an independent predictor of survival in patients with one to three positive lymph nodes. As all these patients received locoregional radiation therapy, CA IX may be associated with resistance to radiotherapy