Accelerated disease progression in prostate cancer and bone metastases with platelet-derived growth factor receptor inhibition: observations with tandutinib.

BACKGROUND: Activated platelet-derived growth factor receptor (p-PDGFR) is frequently expressed in bone metastases of castration-resistant prostate cancer (CRPC). Phase II study of tandutinib was conducted to assess the effects of a continuously administered highly potent PDGFR inhibitor in this disease state. METHODS: Men with progressive CRPC, bone metastases, and prior taxane chemotherapy were treated with oral tandutinib 500 mg twice daily until disease progression under a two-stage design with the 8-week freedom-from-progression (FFP) rate as the primary endpoint. The trial was designed to have 87% power to reject a null FFP rate of 10% when the true rate was 33% (type I error rate = 0.02). Secondary endpoints included tumor expression of p-PDGFR, bone marker (urine N-telopeptide, serum bone-specific alkaline phosphatase) kinetics, in vivo monitoring of PDGFR inhibition in peripheral blood leukocytes, and correlation with survival. RESULTS: Among 18 patients registered (aged 47-81, median 66 years), 15 were evaluable for efficacy. Five of 6 evaluable tumors were p-PDGFR positive. Mean urine N-telopeptide declined from 123.7 (baseline) to 41.0 (Cycle 2 Day 1) nmol/mmol Cr (P = 0.012). Probability of decrease in peripheral blood leukocyte p-PDGFR >0.5 versus <0.5 was associated with progression-free survival of 6 versus 8 weeks (P = 0.03, log-rank) and overall survival, 26.6 versus 42.9 weeks, respectively (P = 0.09, log-rank). CONCLUSIONS: In vivo PDGFR inhibition with tandutinib correlated with accelerated disease progression. This observation raises the hypothesis that PDGF contributes to the homeostasis of bone metastases from prostate cancer.

Number of metastatic sites is a strong predictor of survival in patients with nonsmall cell lung cancer with or without brain metastases.

BACKGROUND: The staging system for non-small cell lung cancer (NSCLC) does not consider tumor burden or number of metastatic sites, although oligometastases are more favorable. METHODS: Using log-rank testing, the authors analyzed overall survival (OS) in 1284 patients newly presenting with metastatic NSCLC by number of metastatic organ sites and the presence of brain metastases. RESULTS: OS for patients without brain metastases was found to be correlated with the number of metastatic sites (P = .0009). Brain metastases conferred an inferior OS (median of 7 months vs 9 months; 95% confidence interval, 7-8 months vs 8-10 months [P = .00,002]). To evaluate the influence of tumor burden on OS, the authors considered subsets of patients in whom the brain (n = 135) or lung (n = 137) was the solitary metastatic organ site. In patients with brain metastases, OS was found to be correlated inversely with the volume of all metastases or the largest lesion (hazards ratio, 1.04 or 1.03, respectively; P = .01). For patients with lung metastases, OS was better for those with a maximum tumor size below the median of 40 mm (P = .0004). CONCLUSIONS: Staging of NSCLC and clinical trial patient stratification should include quantitation of tumor burden. The prognostic impact of brain metastases is small and partly dependent on tumor volume, which indicates the need for aggressive therapy for patients with NSCLC brain metastasis and their inclusion in clinical trials.

Antivascular therapy of human follicular thyroid cancer experimental bone metastasis by blockade of epidermal growth factor receptor and vascular growth factor receptor phosphorylation.

Patients suffering from bone metastases of follicular thyroid carcinoma (FTC) have a poor prognosis because of the lack of effective treatment strategies. The overexpression of epidermal growth factor receptor (EGFR) associated with increased vascularity has been implicated in the pathogenesis of FTC and subsequent bone metastases. We hypothesized that inhibiting the phosphorylation of the EGFR and vascular endothelial growth factor receptor (VEGFR) by AEE788, a dual tyrosine kinase inhibitor of EGFR and VEGFR, in combination with paclitaxel would inhibit experimental FTC bone lesions and preserve bone structure. We tested this hypothesis using the human WRO FTC cell line. In culture, AEE788 inhibited the EGF-mediated phosphorylation of EGFR, VEGFR2, mitogen-activated protein kinase, and Akt in culture. AEE788, alone and in combination with paclitaxel, inhibited cell growth and induced apoptosis. When WRO cells were injected into the tibia of nude mice, tumor and endothelial cells within the lesions expressed phosphorylated EGFR, VEGFR, Akt, and mitogen-activated protein kinase that were inhibited by the oral administration of AEE788. Therapy consisting of orally given AEE788 and i.p. injected paclitaxel induced a high level of apoptosis in tumor-associated endothelial cells and tumor cells with the inhibition of tumor growth in the bone and the preservation of bone structure. Collectively, these data show that blocking the phosphorylation of EGFR and VEGFR with AEE788 combined with paclitaxel can significantly inhibit experimental human FTC in the bone of nude mice.

Comparison of molecular abnormalities in bronchial brushings and tumor touch preparations.

BACKGROUND: Preneoplastic lung lesions and early-stage lung carcinomas are associated with molecular abnormalities. The authors performed a pilot study to evaluate the use of DNA fluorescence in situ hybridization (FISH) probes to ascertain whether these biomarkers can predict nonsmall cell lung carcinoma (NSCLC). METHODS: Fourteen bronchial brushings ipsilateral to the tumor (BB/Ts), tumor touch imprints, and touch imprints of the bronchus adjacent to the tumor obtained from 15 patients with early-stage NSCLC were analyzed. The LAVysion multicolor probe set consisting of probes to 5p15, 6, 7p12, and 8q2 and the in-house probes 3p22.1 and 10q22 was used. Using the LAVysion multicolor probe set, 25 epithelial cells were counted and considered positive if > 5 cells were abnormal. Using 3p22.1 and 10q22, > or = 100 nuclei per slide were scored. The results were tabulated as the percentage of cells with deletions compared with the centromeric probes 3 and 10. Greater than 2% of the deletions were positive for 3p22.1 and 10q22. Bronchial washings from patients without lung tumors were used as controls. RESULTS: The BB/Ts were negative for malignant cells by cytologic evaluation and the LAVysion probe set; however, the combined in-house probes for 3p22.1 and 10q22 tested on BB/Ts predicted cancer in 100% of cancer patients. FISH positivity in the lung cancers was 100% for 3p22.1 deletions, 79% for 10q22 deletions, and 57% for LAVysion probes. When compared with the bronchial epithelium, tumor cells showed a 3.7-fold excess of 3p22.1 deletions, a 2-fold excess of 10q22 deletions, and a 12.6-fold excess of abnormal cells. CONCLUSIONS: The current study indicated that detection of molecular abnormalities in bronchial epithelial cells via FISH was very useful in identifying patients at high risk for developing lung carcinoma. The molecular abnormalities identified in the BB/Ts were detected at elevated levels in the tumor specimens.

Mesenchymal stem cells: potential precursors for tumor stroma and targeted-delivery vehicles for anticancer agents.

BACKGROUND: High concentrations of interferon beta (IFN-beta) inhibit malignant cell growth in vitro. However, the therapeutic utility of IFN-beta in vivo is limited by its excessive toxicity when administered systemically at high doses. Mesenchymal stem cells (MSC) can be used to target delivery of agents to tumor cells. We tested whether MSC can deliver IFN-beta to tumors, reducing toxicity. METHODS: Human MSC were transduced with an adenoviral expression vector carrying the human IFN-beta gene (MSC-IFN-beta cells). Flow cytometry was used to measure tumor cell proliferation among in vitro co-cultures of MSC-IFN-beta cells and human MDA 231 breast carcinoma cells or A375SM melanoma cells. We used a severe combined immunodeficiency mouse xenograft model (4-10 mice per group) to examine the effects of injected MSC-IFN-beta cells and human recombinant IFN-beta on the growth of MDA 231- and A375SM-derived pulmonary metastases in vivo and on survival. All statistical tests were two-sided. RESULTS: Co-culture of MSC-IFN-beta cells with A375SM cells or MDA 231 cells inhibited tumor cell growth as compared with growth of the tumor cells cultured alone (differences in mean percentage of control cell growth: -94.0% [95% confidence interval [CI] = -81.2% to -106.8%; P<.001] and -104.8% [95% CI = -82.1% to -127.5%; P<.001], respectively). Intravenous injection of MSC-IFN-beta cells into mice with established MDA 231 or A375SM pulmonary metastases led to incorporation of MSC in the tumor architecture and, compared with untreated control mice, to prolonged mouse survival (median survival for MDA 231-injected mice: 60 and 37 days for MSC-injected and control mice, respectively [difference = 23.0 days (95% CI = 14.5 to 34.0 days; P<.001]; median survival for A375SM-injected mice: 73.5 and 30.0 days for MSC-injected and control mice, respectively [difference = 43.5 days (95% CI = 37.0 to 57.5 days; P<.001]). By contrast, intravenous injection of recombinant IFN-beta did not prolong survival in the same models (median survival for MDA 231-injected mice: 41.0 and 37.0 days for IFN-beta-injected and control mice, respectively [difference = 4 days, 95% CI = -5 to 10 days; P = .308]; median survival for A375SM-injected mice: 32.0 and 30.0 days for IFN-beta-injected and control mice, respectively [difference = 2 days, 95% CI = 0 to 4.5 days; P = .059]). CONCLUSIONS: Injected MSC-IFN-beta cells suppressed the growth of pulmonary metastases, presumably through the local production of IFN-beta in the tumor microenvironment. MSC may be an effective platform for the targeted delivery of therapeutic proteins to cancer sites.