Abstract
We have previously identified actin filament-associated protein 1-like 1 (AFAP1L1) as a metastasis-predicting marker for spindle cell sarcomas by gene expression profiling, and demonstrated that AFAP1L1 is involved in the cell invasion process by in vitro analyses. However, its precise molecular function has not been fully elucidated, and it remains unknown whether AFAP1L1 could be a prognostic marker and/or therapeutic target of other malignancies. In this study, we found a marked elevation of AFAP1L1 gene expression in colorectal cancer (CRC) tissues as compared to the adjacent normal mucosa. Multivariate analysis revealed that AFAP1L1 was an independent and significant factor for the recurrence of rectal cancers. Moreover, the addition of the AFAP1L1 expression level to the lymph node metastasis status provided more predictive information regarding postoperative recurrence in rectal cancers. AFAP1L1-transduced CRC cells exhibited a rounded shape, increased cell motility on planar substrates, and resistance to anoikis in vitro. AFAP1L1 localized to the ringed structure of the invadopodia, together with vinculin, and AFAP1L1 was identified as a novel associating partner of vinculin by immunoprecipitation assay. AFAP1L1-transduced cells showed accelerated tumor growth in vivo, presumably reflecting the anoikis resistance of these AFAP1L1-expressing cells. Furthermore, the local administration of a siRNA against AFAP1L1 significantly suppressed the in vivo tumor growth of xenografts, suggesting that AFAP1L1 might be a candidate therapeutic target for CRCs. These results suggest that AFAP1L1 plays a role in the progression of CRCs by modulating cell shape and motility and by inhibiting anoikis, presumably through interactions with vinculin-including protein complexes.
Highlights
One of the most crucial steps in cancer progression is the acquisition of the ability for tumor cells to invade across the basement membrane and into the surrounding tissues, which leads to metastatic spread and eventual cancer-related death
We propose an intriguing framework wherein actin filament-associated protein 1-like 1 (AFAP1L1) plays a part in actin filament remodeling for cellular dynamics, including morphology and motility, partially through its interaction with vinculin
AFAP1L1 gene expression was upregulated in colorectal cancer (CRC) tissues
Summary
One of the most crucial steps in cancer progression is the acquisition of the ability for tumor cells to invade across the basement membrane and into the surrounding tissues, which leads to metastatic spread and eventual cancer-related death. During this process, tumor cells usually reorganize their preexisting actin cytoskeleton and change their cellular shapes [1]. Some motile cells adjust their shapes constantly to the surrounding microenvironment to optimize a migratory mode. There are at least two different modes: mesenchymal and amoeboid migra-.
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