Abstract
Thalidomide is considered to be a potent antiangiogenic and immunomodulatory drug for cancer therapy. Earlier clinical studies have found that patients responding to this drug often had high plasma levels of basic fibroblast growth factor (bFGF). This cytokine is a proangiogenic factor overexpressed in many tumors and is also a regulator of limb development; hence, it might be a target of thalidomide. Using U-87 MG cell lines, we found that thalidomide, especially when encapsulated in a liposome, down-regulated the transcription and translation of the FGF-2 gene by interacting with G-rich regions present in the promoter and the internal ribosome entry site of its transcript at concentrations much lower than therapeutic serum concentrations. Thalidomide treatment also dramatically suppressed the anchorage-independent growth of U-87 MG and other glioma cells by over a thousand fold without affecting its anchorage-dependent growth, which may be accomplished by knocking down endogenous bFGF expression in these cells. Accordingly, the addition of recombinant bFGF partially restored the anchorage-independent growth of these cells. Our data suggest that by targeting the G-rich regions of bFGF, thalidomide (at 0.1 microg/mL) can reduce cellular bFGF levels and affect tumor anchorage-independent growth, the hallmark of tumorigenicity. Our results are promising for future clinical investigations using low doses of thalidomide.
Highlights
Despite the very high risk of teratogenicity, thalidomide is emerging as a treatment for cancer and inflammatory diseases [1]
Positive responses to thalidomide treatment from some cancer patients have been shown to correlate with the changes in serum concentrations of angiogenic factors, such as vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF), and hepatocyte growth factor [4, 5, 22, 31]
We found that a low concentration of thalidomide was sufficient to down-regulate bFGF transcript levels in U-87 MG cells in a dose-dependent manner
Summary
Despite the very high risk of teratogenicity, thalidomide is emerging as a treatment for cancer and inflammatory diseases [1]. Thalidomide has been widely tested on various types of tumors, such as renal cell carcinoma, prostate cancer, glioma, and Kaposi’s sarcoma [3]. Clinical efficacy in some inflammatory conditions, including graft-versus-host disease after allogeneic bone marrow transplantation and renal transplantation, further supports the immunomodulatory properties of thalidomide [3]. Many clinical studies have searched for indicators for monitoring responses to thalidomide treatment in cancer patients. Some reports show a correlation between high pretreatment plasma basic fibroblast growth factor (bFGF) levels and a positive response to thalidomide treatment in glioma and multiple myeloma (4 – 6). The changes in serum bFGF levels during therapy imply that bFGF may be the target of thalidomide
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