Abstract
Metastasis is the main cause of failure of cancer treatment. Metastatic colonization is regarded the most rate-limiting step of metastasis and is subjected to regulation by a plethora of biological factors and processes. On one hand, regulation of metastatic colonization by autophagy appears to be stage- and context-dependent, whereas mechanistic characterization remains elusive. On the other hand, interactions between the tumor cells and their microenvironment in metastasis have long been appreciated, whether the secretome of tumor cells can effectively reshape the tumor microenvironment has not been elucidated mechanistically. In the present study, we have identified “SEC23A-S1008-BECLIN1-autophagy axis” in the autophagic regulation of metastatic colonization step, a mechanism that tumor cells can exploit autophagy to exert self-restrain for clonogenic proliferation before the favorable tumor microenvironment is established. Specifically, we employed a paired lung-derived oligometastatic cell line (OL) and the homologous polymetastatic cell line (POL) from human melanoma cell line M14 that differ in colonization efficiency. We show that S100A8 transported by SEC23A inhibits metastatic colonization via autocrine activation of autophagy. Furthermore, we verified the clinical relevance of our experimental findings by bioinformatics analysis of the expression of Sec23a and S100A8 and the clinical-pathological associations. We demonstrate that higher Sec23a and Atg5 expression levels appear to be protective factors and favorable diagnostic (TNM staging) and prognostic (overall survival) markers for skin cutaneous melanoma (SKCM) and colon adenocarcinoma (COAD) patients. And we confirm the bioinformatics analysis results with SKCM biopsy samples.
Highlights
Metastasis is the main cause of failure of cancer treatment[1,2,3]
Sec23a inhibits the metastasis of melanma cells in vitro and in vivo In our previous study, a set of paired lung-derived oligometastatic cell model (OL) and the homologous polymetastatic cell model (POL) from human melanoma cancer cell line M14 were established and characterized[42]
The results showed that colony formation in vitro was enhanced in oligometastatic cell line (OL)-shSec23a cells while inhibited in polymetastatic cell line (POL)-Sec23a-OE cells (Fig. 1f, g)
Summary
Metastasis is the main cause of failure of cancer treatment[1,2,3]. It is characterized by discrete multi-steps: acquisition of the invasive phenotype, local invasion into surrounding stroma and hematogenous circulation, survival in the circulation, extravasation and invasion into distant organs, survival at the secondary site, and colonization to form micro- and macro-metastases[2,4,5,6]. Interactions between the tumor cells and their microenvironment play a vital role in the entire metastatic cascade, especially in the colonization at the distant site[6,7,8]. Mechanistic understanding of the interactions between the tumor cells and their microenvironment at the site of metastasis has been largely focused on how tumor cells will overcome the restrains of the foreign microenvironment to develop into micro- and macrometastatic lesions, little is known about whether tumor cells exert self-restrains upon extravasation.
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