Generation of a FasL-based proapoptotic fusion protein devoid of systemic toxicity due to cell-surface antigen-restricted Activation.

We describe the construction of a FasL fusion protein devoid of systemic toxicity, inducing apoptosis only on cell-surface antigen-positive cells. The fusion protein consists carboxyl-terminally of the extracellular domain of FasL and amino-terminally of a fibroblast activation protein (FAP)-specific single chain antibody fragment (sc40-FasL). The latter allows immobilization-dependent conversion of the inactive soluble FasL fusion protein into an entity with membrane FasL-like activity. Thus, sc40-FasL efficiently induced apoptosis only in FAP-expressing cells. In accordance with a strict target-selective activity of sc40-FasL, the intravenous application of this reagent in mice revealed no signs of systemic toxicity and prevented growth of xenotransplanted FAP-positive (but not FAP-negative) tumor cells. The principle described here for the first time, in which cell-surface antigen-mediated activation of Fas permits local activation of Fas in vivo, opens novel avenues for the use of Fas signaling in cancer therapy.