Interferon Gamma and PSA-restricted Expression of FAS Ligand: A Novel Gene Therapy Strategy for Prostate Cancer

Abstract

Introduction: Fas is a transmembrane receptor which mediates apoptosis when transactivated by FasL. Earlier studies illustrated the ability of IFN-gamma to increase Fas expression on RM-l mouse prostate cancer cells. To kill the remaining Fas positive cells, the potential of combining adenovirus-mediated expression of FasL (Ad.FasL) with IFN-gamma in vifro and Ad.lL-12 to stimulate host production of lFN-gamma in vivo was addressed. Results: Alone Ad.FasL resulted in killing equal to the degree of transduction. The addition of IFN-gamma enhanced killing to maintain maximal cell kill with only 6% of cells expressing FasL. In vivo with a constant Ad.IL-12 dose and increasing doses of Ad.FasL, tumors were 25% smaller at lower doses tumors, increasing to 66% smaller at 1x10(9) pfu,. In a dose controlled experiment with equal doses of each vector (1x10(9) pfu), individually Ad.FasL and Ad.IL-12 resulted in 27+1-10% and 54+1-4% smaller tumors with combination therapy resulting tumors which were 72+1-6% smaller than controls. However, the combination of Ad.FasL and Ad.mIL- 12 resulted in a worse survival than for Ad.IL-12 alone. However, the injection of Ad.mIL-12 into the nonnal contralateral prostate combined with the injection of the tumor by Ad.FasL resulted in superior survival. Conclusions: These studies validate the concept of exploiting Fas upregulation for fasL transactivation. The ability to eradicate tumors is currently being addressed by sequenriual injection of Ad.FasL.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2001

Accession Number

ADA392423

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