Type-2 11β-hydroxysteroid dehydrogenase (HSD11B2) is a key enzyme which converts cortisol to inactive cortisone and is involved in tumor progression and metastasis. Several studies have shown that the promotion of tumor progression and metastasis by HSD11B2 resulted from its physiological function of inactivating glucocorticoids (GC). However, the underlying molecular mechanisms by which HSD11B2 drives metastasis, in addition to inactivating GC, are still unclear. In our study, a series of in vivo and in vitro assays were performed to determine the function of HSD11B2 and the possible mechanisms underlying its role in CRC metastasis. mRNA transcriptome array analysis was used to identify the possible downstream targets of HSD11B2. We found that the ectopic expression of HSD11B2 significantly promoted the migration, invasion and metastasis of colorectal cancer (CRC) cells both in vitro and in vivo, while it did not affect their proliferation in either case. Mechanically, HSD11B2 appeared to enhance cell migration and invasion by upregulating the expression of fibroblast growth factor binding protein 1 (Fgfbp1), and subsequently increasing the phosphorylation of AKT. Furthermore, AKT activation partially mediated the increased expression of Fgfbp1 induced by HSD11B2. HSD11B2 expression was positively correlated with Fgfbp1 and p-AKT expression in clinical samples of CRC. Additionally, knockdown of either Fgfbp1 or AKT impaired the migration and invasion capability of CRC cells with HSD11B2 overexpression, suggesting that HSD11B2 promoted the migration, invasion and metastasis of CRC cells via the Fgfbp1-AKT pathway. Therefore, targeting HSD11B2 or Fgfbp1 may be a novel treatment strategy for inhibiting the metastasis of CRC.
Keywords: AKT; Fgfbp1; HSD11B2; colorectal cancer; metastasis.
AJCR Copyright © 2020.