Abstract
Lignin, the most abundant renewable aromatic polymer, has been shown to suppress the growth of mammalian tumor cells. Despite extensive studies on lignin structure and its engineering, there is little information on the biological activity of lignin in relation to its molecular structure or the molecular mechanisms by which lignin suppresses tumor cells in mammalian species. Here, we prepared microwave-assisted acid-catalyzed solvolysis lignin (MASL) from Japanese cedar and Eucalyptus globulus and assessed its effects on human and mouse tumor cells. SEC indicated that MASL consists of oligomeric aromatics from the woody plants. Our data showed that MASL significantly reduced the viability of tumor cells by modulating apoptotic pathways. MASL treatment upregulated TNF-α, Fas, and FasL expression levels, while suppressing anti-apoptotic NF-κB and mTOR pathways in tumor cells. In vivo experiments were also performed using tumor-bearing mice to confirm the anti-tumor effects of MASL. Repetitive administrations of a MASL (YM CL1T) significantly inhibited tumor growth in mice in association with elevation of caspase 3 expression. These findings strongly suggest the potential usefulness of low-molecular-weight lignin as an effective therapeutic against malignancies.
Published Version
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