Title

Tolfenamic Acid Enhances Pancreatic Cancer Cell And Tumor Response To Radiation Therapy By Inhibiting Survivin Protein Expression

Abstract

Survivin is overexpressed in most human cancers, including pancreatic adenocarcinoma. Expression of survivin is regulated byspecificity protein (Sp) proteins and related to resistance to radiation therapy. Tolfenamic acid induces Sp protein degradation in several cancer cell lines. The purpose of this studyis to investigate whether tolfenamic acid inhibits survivin expression and sensitizes pancreatic cancer cells/tumor to radiotherapy. Panc1 and L3.6pl cells have been used to studythe effect of radiation on survivin expression and to investigate the efficacyof tolfenamic acid in enhancing the response to radiation therapy. In addition, an orthotopic model for human pancreatic cancer has been used to confirm the efficacyof tolfenamic acid to enhance tumor response to radiation in vivo. Pancreatic cancer cell lines express variable levels of survivin mRNA/protein, which correlate with their radiosensitivity. Radiation increased survivin promoter activityand protein expression in Panc1 and L3.6pl cells and tolfenamic acid inhibited both constitutive and radiation-induced survivin protein expression and enhanced the response of pancreatic cancer cells to radiation therapy. In vivo studies show that tolfenamic acid enhanced the radiation-induced apoptosis associated with decreased survivin expression in tumors and this correlates with the enhanced response of these tumors to the radiation. Thus, tolfenamic acid significantlyenhances pancreatic cancer cells/tumor response to radiation therapy. The underlying mechanism includes tolfenamic acid-induced degradation of Sp proteins, which in tumor decreases expression of the Sp-dependent antiapoptotic protein survivin. These preclinical data suggest that tolfenamic acid has the potential to increase the response of pancreatic adenocarcinoma to radiation therapy. Copyright © 2009 American Association for Cancer Research.

Publication Date

3-1-2009

Publication Title

Molecular Cancer Therapeutics

Volume

8

Issue

3

Number of Pages

533-542

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1158/1535-7163.MCT-08-0405

Socpus ID

66449110010 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/66449110010

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