Overexpression of CD44 accompanies acquired tamoxifen resistance in MCF7 cells and augments their sensitivity to the stromal factors, heregulin and hyaluronan

Background: Acquired resistance to endocrine therapy in breast cancer is a significant problem with relapse being associated with local and/or regional recurrence and frequent distant metastases. Breast cancer cell models reveal that endocrine resistance is accompanied by a gain in aggressive behaviour driven in part through altered growth factor receptor signalling, particularly involving erbB family receptors. Recently we identified that CD44, a transmembrane cell adhesion receptor known to interact with growth factor receptors, is upregulated in tamoxifen-resistant (TamR) MCF7 breast cancer cells. The purpose of this study was to explore the consequences of CD44 upregulation in an MCF7 cell model of acquired tamoxifen resistance, specifically with respect to the hypothesis that CD44 may influence erbB activity to promote an adverse phenotype. Methods: CD44 expression in MCF7 and TamR cells was assessed by RT-PCR, Western blotting and immunocytochemistry. Immunofluorescence and immunoprecipitation studies revealed CD44-erbB associations. TamR cells (± siRNA-mediated CD44 suppression) or MCF7 cells (± transfection with the CD44 gene) were treated with the CD44 ligand, hyaluronon (HA), or heregulin and their in vitro growth (MTT), migration (Boyden chamber and wound healing) and invasion (Matrigel transwell migration) determined. erbB signalling was assessed using Western blotting. The effect of HA on erbB family dimerisation in TamR cells was determined by immunoprecipitation in the presence or absence of CD44 siRNA. Results: TamR cells overexpressed CD44 where it was seen to associate with erbB2 at the cell surface. siRNA-mediated suppression of CD44 in TamR cells significantly attenuated their response to heregulin, inhibiting heregulin-induced cell migration and invasion. Furthermore, TamR cells exhibited enhanced sensitivity to HA, with HA treatment resulting in modulation of erbB dimerisation, ligand-independent activation of erbB2 and EGFR and induction of cell migration. Overexpression of CD44 in MCF7 cells, which lack endogenous CD44, generated an HA-sensitive phenotype, with HA-stimulation promoting erbB/EGFR activation and migration. Conclusions: These data suggest an important role for CD44 in the context of tamoxifen-resistance where it may augment cellular response to erbB ligands and HA, factors that are reported to be present within the tumour microenvironment in vivo. Thus CD44 may present an important determinant of breast cancer progression in the setting of endocrine resistance

Increased Ret signalling and impact of vandetanib in acquired tamoxifen resistant breast cancer

Deregulation of the tyrosine kinase Ret and its coreceptors (GFRα) has been implicated in neoplasia, and Ret is of interest as a therapeutic target in endocrine-treated breast cancer. This study evaluated in vitro impact of vandetanib, a tyrosine kinase inhibitor able to target Ret in addition to EGFR and VEGFR2, in ER+ breast cancer cells that have acquired resistance to tamoxifen treatment. Tamoxifen resistant TAMR and endocrine responsive MCF7 cells were grown in vitro for 7 days +/- vandetanib (0.5-5μM) +/- exogenous growth factors (10-50ng/ml), and also in continuous culture with vandetanib (1μM), to monitor growth impact and emergence of vandetanib resistance. For Western blotting or immunoprecipitation, log phase cells were transferred for 24hr to serum-free medium and pre-treated for 1hr +/- vandetanib followed by Ret ligands GDNF or artemin for 5mins. Immunohistochemistry for Ret activity was performed on an ER+ tamoxifen-treated clinical breast cancer TMA sample series using Y1062 Ret phospho-antibody with HScore staining assessment. Growth of TAMR cells was substantially inhibited by vandetanib (p<0.001, IC50 0.6μM) with complete cell loss by 17weeks, contrasting rapid emergence of resistance in endocrine responsive MCF7 cells. TAMR cells were more sensitive to vandetanib vs. gefitinib (p<0.001; 1μM each agent), indicating mitogenic signalling in addition to EGFR contributed to TAMR growth. TAMR cells had elevated basal Ret expression, activity and interaction with elevated GFRα3 coreceptor expression; mature VEGFR2 was not detected in TAMR cells. Exogenous GFRα3 ligands artemin or GDNF modestly stimulated TAMR cell growth and hyperactivated Ret, downstream kinases (including MAPK, AKT) and ER Ser167, confirming functional GFRα/Ret signalling and its cross-talk with ER. Increased phospho-Ret immunostaining was also associated with shortened DFI (p=0.036) and survival (p=0.011) in tamoxifen-treated clinical ER+ breast cancers. Vandetanib (0.5-1μM) depleted GFRα3/Ret activity and decreased phospho-EGFR in TAMR cells under basal and Ret ligand-stimulated conditions, inhibited MAPK, p70S6K and S6RP phosphorylation, and partially-reduced levels of phospho-AKT and phospho-ER. However, vandetanib failed to consistently impact on HER2, 3 or 4 activity; moreover, hyperactivation of all erbB receptors by exogenous heregulin B1 (10ng/ml) recovered AKT, MAPK, p70S6K and ER AF-1 phosphorylation in the presence of vandetanib and was able to overcome the basal growth-inhibitory impact of this agent in TAMR cells. These findings demonstrate a central importance for increased Ret signalling and its cross-talk with ER in tamoxifen resistant breast cancer that can be targeted in vitro by vandetanib. Further studies are required to determine optimal combination treatments with vandetanib to circumvent potential intrinsic resistance in clinical breast cancers that exhibit heregulin B1 enrichment

Fulvestrant-induced expression of ErbB3 and ErbB4 receptors sensitizes oestrogen receptor-positive breast cancer cells to heregulin β1

Introduction We have previously reported that induction of epidermal growth factor receptor and ErbB2 in response to antihormonal agents may provide an early mechanism to allow breast cancer cells to evade the growth-inhibitory action of such therapies and ultimately drive resistant cell growth. More recently, the other two members of the ErbB receptor family, ErbB3 and ErbB4, have been implicated in antihormone resistance in breast cancer. In the present study, we have investigated whether induction of ErbB3 and/or ErbB4 may provide an alternative resistance mechanism to antihormonal action in a panel of four oestrogen receptor (ER)-positive breast cancer cell lines. Methods MCF-7, T47D, BT474 and MDAMB361 cell lines were exposed to fulvestrant (100 nM) for seven days, and effects on ErbB3/4 expression and signalling, as well as on cell growth, were assessed. Effects of heregulin β1 (HRGβ1) were also examined in the absence and presence of fulvestrant to determine the impact of ER blockade on the capacity of this ErbB3/4 ligand to promote signalling and cell proliferation. Results Fulvestrant potently reduced ER expression and transcriptional activity and significantly inhibited growth in MCF-7, T47D, BT474 and MDAMB361 cells. However, alongside this inhibitory activity, fulvestrant also consistently induced protein expression and activity of ErbB3 in MCF-7 and T47D cells and ErbB4 in BT474 and MDAMB361 cell lines. Consequently, fulvestrant treatment sensitised all cell lines to the actions of the ErbB3/4 ligand HRGβ1 with enhanced ErbB3/4-driven signalling activity, reexpression of cyclin D1 and significant increases in cell proliferation being observed when compared to untreated cells. Indeed, in T47D and MDAMB361 HRGβ1 was converted from a ligand having negligible or suppressive growth activity into one that potently promoted cell proliferation. Consequently, fulvestrant-mediated growth inhibition was completely overridden by HRGβ1 in all four cell lines. Conclusions These findings suggest that although antihormones such as fulvestrant may have potent acute growth-inhibitory activity in ER-positive breast cancer cells, their ability to induce and sensitise cells to growth factors may serve to reduce and ultimately limit their inhibitory activity

Overexpression of CD44 accompanies acquired tamoxifen resistance in MCF7 cells and augments their sensitivity to the stromal factors, heregulin and hyaluronan

Background: Acquired resistance to endocrine therapy in breast cancer is a significant problem with relapse being associated with local and/or regional recurrence and frequent distant metastases. Breast cancer cell models reveal that endocrine resistance is accompanied by a gain in aggressive behaviour driven in part through altered growth factor receptor signalling, particularly involving erbB family receptors. Recently we identified that CD44, a transmembrane cell adhesion receptor known to interact with growth factor receptors, is upregulated in tamoxifen-resistant (TamR) MCF7 breast cancer cells. The purpose of this study was to explore the consequences of CD44 upregulation in an MCF7 cell model of acquired tamoxifen resistance, specifically with respect to the hypothesis that CD44 may influence erbB activity to promote an adverse phenotype. Methods: CD44 expression in MCF7 and TamR cells was assessed by RT-PCR, Western blotting and immunocytochemistry. Immunofluorescence and immunoprecipitation studies revealed CD44-erbB associations. TamR cells (± siRNA-mediated CD44 suppression) or MCF7 cells (± transfection with the CD44 gene) were treated with the CD44 ligand, hyaluronon (HA), or heregulin and their in vitro growth (MTT), migration (Boyden chamber and wound healing) and invasion (Matrigel transwell migration) determined. erbB signalling was assessed using Western blotting. The effect of HA on erbB family dimerisation in TamR cells was determined by immunoprecipitation in the presence or absence of CD44 siRNA. Results: TamR cells overexpressed CD44 where it was seen to associate with erbB2 at the cell surface. siRNA-mediated suppression of CD44 in TamR cells significantly attenuated their response to heregulin, inhibiting heregulin-induced cell migration and invasion. Furthermore, TamR cells exhibited enhanced sensitivity to HA, with HA treatment resulting in modulation of erbB dimerisation, ligand-independent activation of erbB2 and EGFR and induction of cell migration. Overexpression of CD44 in MCF7 cells, which lack endogenous CD44, generated an HA-sensitive phenotype, with HA-stimulation promoting erbB/EGFR activation and migration. Conclusions: These data suggest an important role for CD44 in the context of tamoxifen-resistance where it may augment cellular response to erbB ligands and HA, factors that are reported to be present within the tumour microenvironment in vivo. Thus CD44 may present an important determinant of breast cancer progression in the setting of endocrine resistance

Cell proliferation in prostatic carcinoma: comparative analysis of Ki-67, MIB-1 and PCNA

Antibodies to assess the proliferative index of tumours are being increasingly employed together with established markers for prognostic evaluation. This study set out to compare three cell proliferation markers, Ki-67, MIB-1 and PCNA, utilizing a semi-quantitative method of assessment, in 20 human prostatic carcinomas. The streptavidin-biotin immunostaining system was used for the monoclonal antibodies MIB-1 and PCNA and an indirect immunoperoxidase assay for the monoclonal antibody Ki-67. Significant correlations were found between the expression of Ki-67 in frozen tissues and MIB-1 in formal saline-fixed wax-embedded tissues (p = 0.0003); between Ki-67 and PCNA expression in Bouin's-fixed tissues (p < or = 0.0001); and MIB-1 (formalin-saline-fixed tissues) and PCNA (Bouin's-fixed tissues) (p < or = 0.0001). A more intense nuclear staining pattern with less heterogeneity was observed for MIB-1 compared with PCNA, suggesting the antibody of choice, on formal saline-fixed tissues, is MIB-1, which closely correlated with Ki-67, a marker we have previously shown to be of prognostic value in prostatic carcinoma

Effect of an EGF-R selective tyrosine kinase inhibitor and an anti-androgen on LNCaP cells: Identification of divergent growth regulatory pathways

BACKGROUND The effect of an EGF-R selective tyrosine kinase (EGF-RTK) quinazoline inhibitor ZM252868 was determined on the androgen-sensitive human prostatic tumour cell line LNCaP, which can also respond via the EGF-R-regulated growth pathway for cell proliferation. Potential interaction or ‘cross-talk’ between steroid and the growth factor mitogen-activated protein kinase (MAPK) signalling pathway was also investigated. METHODS The responses of LNCaP cells to various growth factors in the absence and presence of the EGF-RTK inhibitor and/or steroid and anti-androgen Casodex, was determined using cell population analysis. The effect of the inhibitor on the expression of androgen receptor, EGF-R and activated MAPK was assessed immunocytochemically and changes in the MAPK signalling cascade were also determined using Western blotting techniques. RESULTS The ZM252868 inhibitor had no effect on LNCaP basal growth. At 100 nM and 1 μM concentrations, the inhibitor reduced the marked EGF- and TGF-α-stimulated LNCaP cell growth by 60% and to basal levels, respectively. Both bFGF- and 5α-DHT-stimulated growth were unaffected in this concentration range. The inhibitor (1 μM) decreased the expression of immunoreactive EGF-R but had no effect on androgen receptor levels. Activation of MAPK by EGF was noted, being down-regulated by the inhibitor at a concentration of 1 μM. MAPK was not activated by 5α-DHT. The anti-androgen Casodex reduced 5α-DHT-stimulated cell growth but had no effect on EGF-R mediated LNCaP growth or EGF-stimulated activated MAPK activity. Treatment with EGF and 5α-DHT in combination produced an additive effect on cell proliferation, with the anti-androgen and the EGF-RTK inhibitor only reducing the 5α-DHT- or EGF-stimulated portion of growth, respectively. CONCLUSIONS The study demonstrated the efficacy and selectivity of the ZM252868 inhibitor in inhibiting EGF-R mediated LNCaP cell growth. Additionally, no interaction between androgen and EGF-R mediated growth pathways was determined. Prostate 49:38–47, 200

Adverse features of acquired antihormone resistance and their targeting

Endocrine therapy is the treatment of choice in hormone receptor-positive breast cancer. However, the effectiveness of these agents is limited by the development of drug resistance, ultimately leading to disease progression and patient mortality. Cell models of endocrine resistance have demonstrated a role for altered growth factor signalling in the development of an endocrine insensitive phenotype. Significantly, recent studies have revealed that the acquisition of endocrine resistance in breast cancer is also accompanied by the development of an adverse cellular phenotype, with resistant cells exhibiting altered adhesive interactions, enhanced migratory and invasive behaviour, and a capacity to induce angiogenic responses in endothelium. Since invasion and metastasis of cancer cells is a major cause of mortality in cancer patients, elucidation of molecular mechanisms underlying the adverse cellular features that accompany acquired endocrine resistance and their subsequent targeting may provide a means of limiting the progression of such tumours in vivo

Targeting focal adhesion kinase in ER+/HER2+ breast cancer improves trastuzumab response

The HER2 transmembrane receptor is a well-characterised predictive marker for trastuzumab benefit and may be associated with decreased benefit from endocrine therapy use. Despite the clinical effectiveness of anti-HER2 agents in such cases, resistance represents a significant limiting factor. Focal adhesion kinase (FAK) plays an important role in HER2 signalling, mediating downstream Akt activation in addition to HER2 cross talk with other growth factor receptors. In this study, we investigated the therapeutic potential of FAK in oestrogen receptor-positive (ERC)/HER2C breast cancer using the novel FAK-specific inhibitor PF4554878 (‘PF878’). The activation of the FAK/HER2 signalling pathway was assessed in ERC/HER2K(MCF7 and T47D) and ERC/HER2C(BT-474 and MDAMB361) breast cancer cells in the presence or absence of PF878 and PF878Gtrastuzumab. The effects of PF878 on cell growth as a monotherapy and in combination with trastuzumab were assessed using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide and Coulter counting with isobologram analysis to determine synergy/additive effects. FAK activation (at Y861 but not at Y397) was highest in ERC/HER2C cells, which also demonstrated the greatest sensitivity to PF878. As a monotherapy, PF878 prevented heregulin-induced MDA361 cell migration, but had no significant effect on cell growth. The treatment of ERC/HER2C cells with PF878 and trastuzumab in combination resulted in the synergistic inhibition of cell proliferation. Underlying this was an abrogation of Akt activity and increased poly(ADP-ribose) polymerase cleavage, effects that were greatest in trastuzumab-refractory MDA361 cells. Collectively, these data support a role for FAK in ERC/HER2C breast cancer, where its targeting has the potential to improve trastuzumab response. This is particularly important in the context of ERC/HER2C, trastuzumab-refractory disease, where FAK inhibition may present an important strategy to restore trastuzumab sensitivity

Overexpression of CD44 accompanies acquired tamoxifen resistance in MCF7 cells and augments their sensitivity to the stromal factors, heregulin and hyaluronan

Abstract Background Acquired resistance to endocrine therapy in breast cancer is a significant problem with relapse being associated with local and/or regional recurrence and frequent distant metastases. Breast cancer cell models reveal that endocrine resistance is accompanied by a gain in aggressive behaviour driven in part through altered growth factor receptor signalling, particularly involving erbB family receptors. Recently we identified that CD44, a transmembrane cell adhesion receptor known to interact with growth factor receptors, is upregulated in tamoxifen-resistant (TamR) MCF7 breast cancer cells. The purpose of this study was to explore the consequences of CD44 upregulation in an MCF7 cell model of acquired tamoxifen resistance, specifically with respect to the hypothesis that CD44 may influence erbB activity to promote an adverse phenotype. Methods CD44 expression in MCF7 and TamR cells was assessed by RT-PCR, Western blotting and immunocytochemistry. Immunofluorescence and immunoprecipitation studies revealed CD44-erbB associations. TamR cells (± siRNA-mediated CD44 suppression) or MCF7 cells (± transfection with the CD44 gene) were treated with the CD44 ligand, hyaluronon (HA), or heregulin and their in vitro growth (MTT), migration (Boyden chamber and wound healing) and invasion (Matrigel transwell migration) determined. erbB signalling was assessed using Western blotting. The effect of HA on erbB family dimerisation in TamR cells was determined by immunoprecipitation in the presence or absence of CD44 siRNA. Results TamR cells overexpressed CD44 where it was seen to associate with erbB2 at the cell surface. siRNA-mediated suppression of CD44 in TamR cells significantly attenuated their response to heregulin, inhibiting heregulin-induced cell migration and invasion. Furthermore, TamR cells exhibited enhanced sensitivity to HA, with HA treatment resulting in modulation of erbB dimerisation, ligand-independent activation of erbB2 and EGFR and induction of cell migration. Overexpression of CD44 in MCF7 cells, which lack endogenous CD44, generated an HA-sensitive phenotype, with HA-stimulation promoting erbB/EGFR activation and migration. Conclusions These data suggest an important role for CD44 in the context of tamoxifen-resistance where it may augment cellular response to erbB ligands and HA, factors that are reported to be present within the tumour microenvironment in vivo. Thus CD44 may present an important determinant of breast cancer progression in the setting of endocrine resistance.</p