Ation was prolonged to 72 hours (data not shown). Consequently, 45 to 50 hours were considered as an appropriate incubation period for the treatment of MCF-7 cells with (anti)estrogens in all following experiments. In T-47-D breast cancer cells an upregulation of the Y1R after estrogen treatment occurred as well, but the expression was about 20-fold lower compared to MCF-7 (L) cells (data not shown). To facilitate the analysis of Y1R regulation, the specifically bound radioactivity at a radioligand concentration of 12 nM was compared, whereupon the expression levels are presented as percentage of the control (cells treated with 1 nM 17b-estradiol). At this radioligand concentration, the saturation curves reveal an approximation of the specifically bound radioactivity to the Bmax value (cf. Fig. 3A). The pH indicator phenol red was reported to bring along contaminants with weak estrogenic activity [35] and might therefore contribute to basal Y1R expression. However, the basal Y1R expression was not significantly different, when cells were maintained in phenol red-free DMEM and phenol red containing EMEM, respectively (Fig. S4).Figure 10. Y1R expression in MCF-7 xenografts is downregulated by antiestrogens in vivo. Effect of estradiol and tamoxifen on Y1 R expression by MCF-7 (L) xenografts in vivo determined by autoradiography using the selective Y1R antagonist [3H]-UR-MK114 (3 nM). Subcutaneously grown tumors from NMRI (nu/ nu) mice bearing subcutaneous 17b-estradiol depots. The control group (3 mice, C1 3) was treated with the vehicle (PEG400/1.8 NaCl, 1:1). Tamoxifen group (3 mice, T1 3): A cumulative dose of tamoxifen citrate (36 mg/kg, dissolved in PEG400/1.8 NaCl, 1:1, at a concentration of 2.4 mg/mL) was administered by injecting three times (on day 2, 6 and 10 after explantation of the estrogen depots) 12 mg/kg subcutaneously. doi:10.1371/journal.pone.0051032.gThe expression profile of NPY receptor subtypes in MCF-7 (L) cells was investigated by confocal laser scanning microscopy using fluorescent Cy5-pNPY [23], a universal ligand with comparable affinity (Ki # 6 nM) at the Y1R, Y2R and Y5R (Fig. 4A ). Cy5pNPY (10 nM) was totally displaced by the Y1R selective antagonist BIBP3226 (1 mM), but neither by the Y2R selective antagonist BIIE0246 [21] (1 mM) nor by 1317923 the Y5R selective antagonist CPG71683 [22] (1 mM). The displacement of Cy5pNPY from Y2R and Y5R by BIBP3226 (1 mM) can be excluded due to high Y1R selectivity (Ki values for Y2R and Y5R .40 mM [31?3]). Moreover, the sole expression of the Y1R was confirmed by the binding of the selective fluorescent Y1R antagonist URMK22 (Fig. 4E ).Y1R up- and Down-regulation by ER Agonists and AntagonistsFig. 8 shows concentration esponse curves for the Y1R upregulation by a selection of ER agonists. 17b-estradiol was HIF-2��-IN-1 site applied at picomolar to nanomolar concentrations, showing a sigmoidal concentration esponse relationship with an EC50 value of approximately 0.02 nM. Maximum Y1R up-regulation was achieved at a 17b-estradiol concentration of 0.5 nM (there was no further increase at concentrations of 10 and 50 nM; data not shown). PPT, an agonist with 400-fold selectivity for ERa over estrogen receptor b (ERb) [36], was applied to demonstrate the ERa subtype dependence of Y1R up-regulation. 24272870 The compound showed an EC50 value of 0.25 nM and 100 64849-39-4 site intrinsic activity compared to 17b-estradiol (Fig. 8). The non-selective, but ERb-preferring phytoestrogen genistein upregulated the Y1R protein to 70.Ation was prolonged to 72 hours (data not shown). Consequently, 45 to 50 hours were considered as an appropriate incubation period for the treatment of MCF-7 cells with (anti)estrogens in all following experiments. In T-47-D breast cancer cells an upregulation of the Y1R after estrogen treatment occurred as well, but the expression was about 20-fold lower compared to MCF-7 (L) cells (data not shown). To facilitate the analysis of Y1R regulation, the specifically bound radioactivity at a radioligand concentration of 12 nM was compared, whereupon the expression levels are presented as percentage of the control (cells treated with 1 nM 17b-estradiol). At this radioligand concentration, the saturation curves reveal an approximation of the specifically bound radioactivity to the Bmax value (cf. Fig. 3A). The pH indicator phenol red was reported to bring along contaminants with weak estrogenic activity [35] and might therefore contribute to basal Y1R expression. However, the basal Y1R expression was not significantly different, when cells were maintained in phenol red-free DMEM and phenol red containing EMEM, respectively (Fig. S4).Figure 10. Y1R expression in MCF-7 xenografts is downregulated by antiestrogens in vivo. Effect of estradiol and tamoxifen on Y1 R expression by MCF-7 (L) xenografts in vivo determined by autoradiography using the selective Y1R antagonist [3H]-UR-MK114 (3 nM). Subcutaneously grown tumors from NMRI (nu/ nu) mice bearing subcutaneous 17b-estradiol depots. The control group (3 mice, C1 3) was treated with the vehicle (PEG400/1.8 NaCl, 1:1). Tamoxifen group (3 mice, T1 3): A cumulative dose of tamoxifen citrate (36 mg/kg, dissolved in PEG400/1.8 NaCl, 1:1, at a concentration of 2.4 mg/mL) was administered by injecting three times (on day 2, 6 and 10 after explantation of the estrogen depots) 12 mg/kg subcutaneously. doi:10.1371/journal.pone.0051032.gThe expression profile of NPY receptor subtypes in MCF-7 (L) cells was investigated by confocal laser scanning microscopy using fluorescent Cy5-pNPY [23], a universal ligand with comparable affinity (Ki # 6 nM) at the Y1R, Y2R and Y5R (Fig. 4A ). Cy5pNPY (10 nM) was totally displaced by the Y1R selective antagonist BIBP3226 (1 mM), but neither by the Y2R selective antagonist BIIE0246 [21] (1 mM) nor by 1317923 the Y5R selective antagonist CPG71683 [22] (1 mM). The displacement of Cy5pNPY from Y2R and Y5R by BIBP3226 (1 mM) can be excluded due to high Y1R selectivity (Ki values for Y2R and Y5R .40 mM [31?3]). Moreover, the sole expression of the Y1R was confirmed by the binding of the selective fluorescent Y1R antagonist URMK22 (Fig. 4E ).Y1R up- and Down-regulation by ER Agonists and AntagonistsFig. 8 shows concentration esponse curves for the Y1R upregulation by a selection of ER agonists. 17b-estradiol was applied at picomolar to nanomolar concentrations, showing a sigmoidal concentration esponse relationship with an EC50 value of approximately 0.02 nM. Maximum Y1R up-regulation was achieved at a 17b-estradiol concentration of 0.5 nM (there was no further increase at concentrations of 10 and 50 nM; data not shown). PPT, an agonist with 400-fold selectivity for ERa over estrogen receptor b (ERb) [36], was applied to demonstrate the ERa subtype dependence of Y1R up-regulation. 24272870 The compound showed an EC50 value of 0.25 nM and 100 intrinsic activity compared to 17b-estradiol (Fig. 8). The non-selective, but ERb-preferring phytoestrogen genistein upregulated the Y1R protein to 70.