Your search keyword '"Amsili, Shira"' showing total 2 results

1. Fn14•Trail Effectively Inhibits Hepatocellular Carcinoma Growth.

Author

Aronin, Alexandra, Amsili, Shira, Prigozhina, Tatyana B., Tzdaka, Kobi, Rachmilewitz, Jacob, Shani, Noam, Tykocinski, Mark L., and Dranitzki Elhalel, Michal

Subjects

*LIVER cancer, *TUMOR growth, *CANCER chemotherapy, *CELL proliferation, *CELLULAR signal transduction, *ANTINEOPLASTIC agents

Abstract

Background:New strategies for the treatment of hepatocellular carcinoma (HCC) are needed, given that currently available chemotherapeutics are inefficient. Since tumor growth reflects the net balance between pro-proliferative and death signaling, agents shifting the equilibrium toward the latter are of considerable interest. The TWEAK:Fn14 signaling axis promotes tumor cell proliferation and tumor angiogenesis, while TRAIL:TRAIL-receptor (TRAIL-R) interactions selectively induce apoptosis in malignant cells. Fn14•TRAIL, a fusion protein bridging these two pathways, has the potential to inhibit tumor growth, by interfering with TWEAK:Fn14 signaling, while at the same time enforcing TRAIL:TRAIL-R-mediated apoptosis. Consequently, Fn14•TRAIL's capacity to inhibit HCC growth was tested. Results:Fn14•TRAIL induced robust apoptosis of multiple HCC cell lines, while sparing non-malignant hepatocyte cell lines. Differential susceptibility to this agent did not correlate with expression levels of TRAIL, TRAIL-R, TWEAK and Fn14 by these lines. Fn14•TRAIL was more potent than soluble TRAIL, soluble Fn14, or a combination of the two. The requirement of both of Fn14•TRAIL's molecular domains for function was established using blocking antibodies directed against each of them. Subcutaneous injection of Fn14•TRAIL abrogated HCC growth in a xenograft model, and was well tolerated by the mice. Conclusions:In this study, Fn14•TRAIL, a multifunctional fusion protein originally designed to treat autoimmunity, was shown to inhibit the growth of HCC, both invitro and invivo. The demonstration of this fusion protein’s potent anti-tumor activity suggests that simultaneous targeting of two signaling axes by a single fusion can serve as a basis for highly effective anti-cancer therapies. [ABSTRACT FROM AUTHOR]

Published

2013

2. Fn14·TRAIL fusion protein is oligomerized by TWEAK into a superefficient TRAIL analog.

Author

Prigozhina, Tatyana B., Szafer, Fanny, Aronin, Alexandra, Tzdaka, Kobi, Amsili, Shira, Makdasi, Efi, Shani, Noam, and Dranitzki Elhalel, Michal

Subjects

*CHIMERIC proteins, *TUMOR necrosis factors, *LIGANDS (Biochemistry), *ANTINEOPLASTIC agents, *LIVER cancer, *APOPTOSIS, *OLIGOMERIZATION, *PROTEIN metabolism, *CARRIER proteins, *CELL physiology, *CELL receptors, *CELLULAR signal transduction, *COMPARATIVE studies, *DRUG resistance in cancer cells, *DOSE-effect relationship in pharmacology, *GENETIC techniques, *LYMPHOCYTIC leukemia, *RESEARCH methodology, *MEDICAL cooperation, *RECOMBINANT proteins, *RESEARCH, *TIME, *EVALUATION research, *PHARMACODYNAMICS

Abstract

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) demonstrates specific anti-cancer activity, but insufficient efficacy in patients. A fusion protein Fn14·TRAIL, that combines soluble TRAIL molecule with a specific TWEAK receptor Fn14, is a better apoptosis-inducer for hepatocellular carcinomas than soluble TRAIL. However, Fn14·TRAIL does not effectively induce apoptosis in tumors of the lymphoid origin. As malignant cell apoptosis is strongly enhanced by secondary oligomerization of TRAIL, we tested the hypothesis that soluble Fn14·TRAIL can be oligomerized and become more active by adding TWEAK, a cytokine secreted in the tumor environment. We revealed that TWEAK and Fn14·TRAIL spontaneously formed a stable complex that induced apoptosis of malignant lymphoblasts earlier and more efficiently than TRAIL. The TWEAK-modified Fn14·TRAIL oligomer bound to target cells and delivered apoptotic signaling via TRAIL receptors. The oligomer induced faster and stronger cleavage of procaspase-8, -9, and -3; BID; poly-ADP ribose polymerase; and RIP compared to TRAIL. The oligomer also reduced expression of the anti-apoptotic proteins c-FLIP short and cIAP-1. Our data indicate that Fn14·TRAIL can be converted into a highly effective TRAIL oligomer upon binding to TWEAK. [ABSTRACT FROM AUTHOR]

Published

2017