Phosphatase inhibition and PTP1B knockdown increased levels of phosphotyrosine-Stat5 in response to prolactin stimulation. A: Pervanadate inhibition of Stat5 dephosphorylation. T47D cells treated with or without 120 μmol/L pervanadate were analyzed for prolactin-induced Stat5 phosphorylation at indicated times by immunoblotting. B: Expression levels of candidate phosphatases in whole cell lysates from a panel of five human breast cancer cell lines. C: Efficacy of two lentiviral-delivered shRNA constructs on knockdown of PTP1B and TC-PTP compared to lentiviral non-target control shRNA or uninfected control T47D cells. Batch-to-batch consistency between lentiviral productions of PTP1B shRNA no.1 was also verified. D: Effect of PTP1B or TC-PTP knockdown on phosphotyrosine-Stat5. T47D cells were infected with lentiviral-delivered shRNA against PTP1B, TC-PTP, or a non-target control, and Stat5 phosphorylation status was measured over time following a short pulse of prolactin stimulation. E: Densitometry of prolactin-induced Stat5 phosphorylation following shRNA knockdown of PTP1B or TC-PTP shRNA in four independent experiments. Vertical bars indicate SEM. *P = 0.03 by analysis of variance. F: Confirmation of prolonged Stat5 phosphorylation following PTP1B knockdown using a second shRNA construct. Prolactin-induced Stat5 tyrosine phosphorylation was measured following lentiviral infection with two independent PTP1B shRNA constructs. G: Effect of PTP1B overexpression on phosphotyrosine-Stat5. Prolactin receptor (PrlR), Stat5, and PTP1B were transfected into 293FT cells, and Stat5 phosphorylation was analyzed at indicated time points following prolactin pulse. Arrows indicate time when prolactin (Prl) was removed.

PTP1B knockdown, but not TC-PTP, SHP1, SHP2, or VHR, resulted in increased prolactin-induced phosphorylation of the upstream Stat5 tyrosine kinase, Jak2. A: Immunoblot analysis of prolactin-induced phosphotyrosine-Jak2 following knockdown of PTP1B or TC-PTP. T47D cells were infected with lentivirus expressing PTP1B or TC-PTP shRNA and stimulated for 20 minutes with 10 nmol/L prolactin, and phosphotyrosine Jak2 status was analyzed at indicated times following prolactin stimulation. B: Densitometry of Jak2 phosphorylation following knockdown of PTP1B or TC-PTP in three experiments. Vertical bars indicate SEM. *P = 0.02 by analysis of variance. C: Immunoblot analysis demonstrating specific phosphatase knockdown using lentiviral-delivered shRNA in T47D cells. D: Effect of additional phosphatases (SHP1, SHP2, and VHR) on prolactin-induced Jak2 phosphorylation. T47D cells were infected with SHP1 (D), SHP2 (D), or VHR (E) shRNA and analyzed by immunoblotting for prolactin-induced Jak2 phosphorylation at the indicated times following stimulation by prolactin. Arrows indicate time when prolactin (Prl) was removed.

PTP1B knockdown enhanced prolactin-induced phosphotyrosine-Stat5 in a second breast cancer cell line, MCF7. A: Immunoblot confirmation of specific and effective PTP1B knockdown in MCF7 cells. B: Efficient fractionation of cytoplasmic and nuclear compartments from representative cell lysates using the cytoplasmic endoplasmic reticulum transmembrane protein calnexin and the nuclear proteins lamin A and C. C and D: Analysis of prolactin-induced Stat5 phosphorylation in the cytoplasmic and nuclear fractions of MCF7 cells following shRNA knockdown of PTP1B. MCF7 cells were infected with lentiviral-delivered shRNA against PTP1B or a non-target control, and fractionated lysates were evaluated over a 1-hour time course following a short pulse of prolactin for changes in phosphotyrosine-Stat5 levels. Cytoplasmic fractions (C) and nuclear fractions (D) were immunoprecipitated with anti-Stat5, immunoblotted for phosphotyrosine-Stat5, stripped, and reprobed for total Stat5 levels. Arrows indicate time when prolactin (Prl) was removed.

Stat5-responsive luciferase promoter activity was enhanced by PTP1B knockdown. T47D cells stably transfected with a Stat5-responsive β-casein luciferase reporter were treated with PTP1B or non-target control shRNA and stimulated for 8 hours with 10 nmol/L prolactin. Luciferase activity was measured and graphed as the mean of three experiments (±SD). Inset: Representative immunoblot confirming PTP1B knockdown.

PTP1B knockdown resulted in hypersensitivity and hyperactivation of prolactin-induced phosphotyrosine-Stat5. T47D cells were infected with lentiviral-delivered shRNA against PTP1B or a non-target control, serum starved, and stimulated with different doses of prolactin. A: Whole cell lysates were collected 20 minutes following prolactin stimulation and analyzed by immunoblotting for phosphotyrosine-Stat5. B: Densitometry was performed from immunoblots from three experiments, and dose-response curves and EC₅₀ values were calculated.

Expression of phosphotyrosine-Stat5, PTP1B, and TC-PTP in clinical breast tissue specimens. Phosphotyrosine-Stat5, PTP1B, and TC-PTP expression were detected by immunohistochemistry in a tissue array containing nonmalignant and malignant tissues. Expression of nuclear phosphotyrosine-Stat5 was reduced in malignant tissue compared to nonmalignant tissue (A) while expression of cytoplasmic PTP1B (B) and nuclear TC-PTP (C) were higher in malignant tissue. Vertical bars represent 95% confidence intervals. **P = 0.001, ***P < 0.001 (t-test). D: Representative sections stained for phosphotyrosine-Stat5 and PTP1B of nonmalignant (example 1) and malignant (examples 2 and 3) breast.

PTP1B expression increases with histological grade and is inversely correlated with nuclear phosphotyrosine Stat5 expression. PTP1B and phosphotyrosine-Stat5 expression were analyzed by immunofluorescent staining and quantified by AQUA on a CEMA tissue array representing 100 invasive breast carcinoma specimens (grades 1–3). A: Validation of PTP1B immunofluorescent staining and detection by AQUA demonstrated a dynamic range of PTP1B protein expression levels in T47D cells treated with increasing amounts of PTP1B shRNA. B: Representative sections of the CEMA tissue microarray stained for phosphotyrosine-Stat5 and PTP1B. C: Scatter plot of phosphotyrosine-Stat5 intensity and PTP1B intensity in ER-negative invasive ductal carcinoma patients.