Abstract
Disorders of cytoskeletal remodeling and signal transduction are frequently involved in cancer progression. In particular, apoptosis-associated speck-like protein containing a caspase-recruitment domain (ASC) has been reported a proapoptotic molecule that is epigenetically silenced in several human cancers. ASC is a well-characterized adaptor protein involved in the formation of multiprotein oligomers, called inflammasomes, and plays a crucial role in the activation and secretion of interleukin-1β and interleukin-18 in innate immune cells. However, the function of ASC in the regulation of tumor progression remains elusive. The present investigation examined the involvement of ASC in cancer progression and the acquisition of metastatic ability. To determine the effect of ASC depletion in in vitro and in vivo model systems, ASC was stably knocked down in B16 murine melanoma cell lines using retroviral transduction of shRNA. ASC suppression increased the motility of B16BL6 cells in scratch assays and augmented invasiveness as assessed by a Matrigel-coated transwell system. Invadopodia formation and Src phosphorylation level were markedly enhanced in ASC-knockdown cells as well. Since caspase-8 has been reported to enhance cellular migration by Tyr380 phosphorylation via Src, we examined Tyr380 phosphorylation of caspase-8 in ASC-knockdown cells and found it to be elevated in ASC-knockdown cells but attenuated by z-VAD-fmk or z-IETD-fmk. Moreover, ASC ablation increased pulmonary metastasis in mice after intravenous injection of B16BL6 cells. Our cumulative findings indicate that ASC suppresses cancer metastasis and progression via the modulation of cytoskeletal remodeling and the Src-caspase-8 signaling pathway.
This study proposes the novel concept of a contribution of ASC to cancer metastatic phenotype and progression in murine model systems. Although increasing evidence has linked epigenetic ASC suppression to a poor prognostic tendency in human cancers, this relationship remains poorly understood. We herein present multiple lines of evidence demonstrating how a reduction in ASC by RNA interference enhances cellular motility and invadopodia formation in a B16BL6 melanoma cell line via the Src signaling pathway.
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