Sialyl Lewis X (sLex) plays an important role in cancer metastasis. But, the mechanism for its production in metastatic cancers remains unclear. The objective of current study was to examine the effects of a pro-inflammatory cytokine on the expression of glycosyltransferase and sulfotransferase genes involved in the synthesis of selectin ligands in a prostate cancer cell line. Androgen-independent human lymph node-derived metastatic prostate cancer cells (C-81 LNCaP), which express functional androgen receptor and mimic the castration-resistant advanced prostate cancer, was used. TNFα treatment of these cells increased their binding to P-, E- and L-selectins, anti-sLex antibody, and anti-6-sulfo-sialyl Lewis x antibody by 12, 240, 43, 248 and 21%, respectively. Also, the expression of C2GnT-1, B4GalT1, GlcNAc6ST3, and ST3Gal3 genes was significantly upregulated. Further treatment of TNFα-treated cells with either anti-sLex antibody or E-selectin significantly suppressed their in vitro migration (81 and 52%, respectively) and invasion (45 and 56%, respectively). Our data indicate that TNFα treatment enhances the motility and invasion properties of LNCaP C-81 cells by increasing the formation of selectin ligands through stimulation of the expression of selective glycosyl- and sulfotransferase genes. These results support the hypothesis that inflammation contributes to cancer metastasis.
Sialyl Lewis X is a tumor-associated antigen frequently found in the advanced cancers. However, the mechanism for the production of this cancer antigen is not entirely clear. The objective of this study is to examine whether epigenetics is involved in the regulation of the formation of this antigen. We observed an increase of sialyl Lewis X in HCT15 cells, a colon cancer cell line, treated with 5-Aza-2’-deoxycytidine. This treatment enhanced the expression of βgalactoside:α2,3sialyltransferase 6 gene and sialyl Lewis X on MUC1, and the adherence of these cells to E-selectin under dynamic flow conditions. In addition, 5-Aza-2’-deoxycytidine treatment inhibited methylation of βgalactoside:α2,3sialyltransferase 6 gene and siRNA knockdown of this gene drastically reduced sialyl Lewis X without affecting MUC1 expression. We conclude that 5-Aza-2’-deoxycytidine treatment increases sialyl Lewis X on MUC1 by stimulating the βgalactoside:α2,3sialyltransferase 6 gene via inhibition of DNA methylation. Increased sialyl Lewis X by 5-Aza-2’-deoxycytidine raises a concern about the safety of this chemotherapeutic drug. In addition, βgalactoside:α2,3sialyltransferase 6 gene may be a potential therapeutic target for suppressing tumorigenicity of colon cancer.
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