Background: Constitutive activation of signal transducer and activator of transcription 3 (STAT3) has been linked with proliferation, survival, invasion and angiogenesis of a variety of human cancer cells, including hepatocellular carcinoma (HCC). Thus, novel agents that can suppress STAT3 activation have potential for both prevention and treatment of HCC. Here we report, garcinol, a polyisoprenylated benzophenone, could suppress STAT3 activation in HCC cell lines and in xenografted tumor of HCC in nude mice model.
Experimental Design: Different HCC cell lines have been treated with garcinol and the inhibition of STAT3 activation, dimerization and acetylation have been checked by immunoblotting, immuno-fluorescence, and DNA binding assays. Xenografted tumor model has been generated in nude mice using HCC cell line and effect of garcinol in the inhibition of tumor growth has been investigated.
Results: Garcinol could inhibit both constitutive and interleukin (IL-6) inducible STAT3 activation in HCC cells. Computational modeling showed that garcinol could bind to the SH2 domain of STAT3 and suppress its dimerization in vitro. Being an acetyltransferase inhibitor, garcinol also inhibits STAT3 acetylation and thus impairs its DNA binding ability. The inhibition of STAT3 activation by garcinol led to the suppression of expression of various genes involved in proliferation, survival, and angiogenesis. It also suppressed proliferation and induced substantial apoptosis in HCC cells. Remarkably, garcinol inhibited the growth of human HCC xenograft tumors in athymic nu/nu mice, through the inhibition of STAT3 activation.
Conclusion: Overall, our results suggest that garcinol exerts its anti-proliferative and pro-apoptotic effects through suppression of STAT3 signaling in HCC both in vitro and in vivo.
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http://dx.doi.org/10.1186/1476-4598-13-66 | DOI Listing |
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Department of Analytical Chemistry and Instrumental Analysis, "Iuliu Hațieganu" University of Medicine and Pharmacy, Cluj-Napoca, Romania. Electronic address:
Glioblastoma (GBM) is a notoriously aggressive primary brain tumor characterized by elevated recurrence rates and poor overall survival despite multimodal treatment. Local treatment strategies for GBM are safer and more effective alternatives to systemic chemotherapy, directly tackling residual cancer cells in the resection cavity by circumventing the blood-brain barrier. Molecularly imprinted polymers (MIPs) are promising drug delivery systems due to their high-affinity binding cavities that enable tailored release kinetics.
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