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1.
Oncotarget ; 8(16): 26169-26184, 2017 Apr 18.
Article in English | MEDLINE | ID: mdl-28412732

ABSTRACT

Gallbladder cancer (GBC) is a lethal cancer with poor prognosis associated with high invasiveness and poor response to chemotherapy and radiotherapy. New therapeutic approaches are urgently needed in order to improve survival and response rates of GBC patients. We screened 130 small molecule inhibitors on a panel of seven GBC cell lines and identified the HSP90 inhibitor 17-AAG as one of the most potent inhibitory drugs across the different lines. We tested the antitumor efficacy of 17-AAG and geldanamycin (GA) in vitro and in a subcutaneous preclinical tumor model NOD-SCID mice. We also evaluated the expression of HSP90 by immunohistochemistry in human GBC tumors.In vitro assays showed that 17-AAG and GA significantly reduced the expression of HSP90 target proteins, including EGFR, AKT, phospho-AKT, Cyclin B1, phospho-ERK and Cyclin D1. These molecular changes were consistent with reduced cell viability and cell migration and promotion of G2/M cell cycle arrest and apoptosis observed in our in vitro studies.In vivo, 17-AAG showed efficacy in reducing subcutaneous tumors size, exhibiting a 69.6% reduction in tumor size in the treatment group compared to control mice (p < 0.05).The HSP90 immunohistochemical staining was seen in 182/209 cases of GBC (87%) and it was strongly expressed in 70 cases (33%), moderately in 58 cases (28%), and weakly in 54 cases (26%).Our pre-clinical observations strongly suggest that the inhibition of HSP90 function by HSP90 inhibitors is a promising therapeutic strategy for gallbladder cancer that may benefit from new HSP90 inhibitors currently in development.


Subject(s)
Antineoplastic Agents/pharmacology , Benzoquinones/pharmacology , Drug Discovery , Drug Screening Assays, Antitumor , HSP90 Heat-Shock Proteins/antagonists & inhibitors , Lactams, Macrocyclic/pharmacology , Animals , Apoptosis/drug effects , Cell Cycle Checkpoints/drug effects , Cell Line, Tumor , Cell Movement/drug effects , Cell Proliferation/drug effects , Cell Survival/drug effects , Disease Models, Animal , Drug Discovery/methods , Drug Screening Assays, Antitumor/methods , Gallbladder Neoplasms , High-Throughput Screening Assays , Humans , Mice , Small Molecule Libraries , Xenograft Model Antitumor Assays
2.
Oncotarget ; 6(31): 31877-88, 2015 Oct 13.
Article in English | MEDLINE | ID: mdl-26397134

ABSTRACT

Gallbladder cancer (GBC) is a highly malignant tumor characterized by a poor response to chemotherapy and radiotherapy. We evaluated the in vitro and in vivo antitumor efficacy of mTOR inhibitors, rapamycin and WYE-354. In vitro assays showed WYE-354 significantly reduced cell viability, migration and invasion and phospho-P70S6K expression in GBC cells. Mice harboring subcutaneous gallbladder tumors, treated with WYE-354 or rapamycin, exhibited a significant reduction in tumor mass. A short-term treatment with a higher dose of WYE-354 decreased the tumor size by 68.6% and 52.4%, in mice harboring G-415 or TGBC-2TKB tumors, respectively, compared to the control group. By contrast, treatment with a prolonged-low-dose regime of rapamycin almost abrogated tumor growth, exhibiting 92.7% and 97.1% reduction in tumor size, respectively, compared to control mice. These results were accompanied by a greater decrease in the phosphorylation status of P70S6K and a lower cell proliferation Ki67 index, compared to WYE-354 treated mice, suggesting a more effective mTOR pathway inhibition. These findings provide a proof of concept for the use of rapamycin or WYE-354 as potentially good candidates to be studied in clinical trials in GBC patients.


Subject(s)
Antibiotics, Antineoplastic/pharmacology , Gallbladder Neoplasms/drug therapy , Guanine/analogs & derivatives , Sirolimus/pharmacology , Animals , Apoptosis/drug effects , Blotting, Western , Cell Movement/drug effects , Cell Proliferation/drug effects , Drug Therapy, Combination , Gallbladder Neoplasms/pathology , Guanine/pharmacology , Humans , Immunoenzyme Techniques , Mice , Mice, Inbred NOD , Mice, SCID , Phosphorylation/drug effects , Signal Transduction/drug effects , Tumor Cells, Cultured , Xenograft Model Antitumor Assays
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