BACKGROUND & AIMS: Alterations in the production of epithelial mucins have been correlated with advanced tumor stage in the colon, but direct evidence for a role of specific mucin genes in liver metastasis is lacking. The current study was designed to establish more directly the role of MUC2 in colon cancer metastasis. METHODS: MUC2 levels were manipulated in highly metastatic human colon cancer cells using eukaryotic expression constructs designed to express a portion of MUC2 complementary DNA in antisense orientation. To assess the effect of MUC2 levels on metastatic potential, liver colonization was assessed in athymic mice after splenic-portal inoculation. RESULTS: Stable integration of the MUC2 antisense construct into metastatic colon cancer cells (LS LiM6) resulted in an 80% reduction in MUC2-specific messenger RNA and a concomitant decrease in MUC2 apomucin protein. This reduction was associated with a 50% reduction in synthesis of mature glucosamine-labeled mucin, almost complete inhibition of secretion of sialyl-LeX and sialyl-Tn antigens, and a 40% decrease in binding of colon cancer cells to E-selectin. Reduction in MUC2 levels was associated with a marked decrease in liver colonization. CONCLUSIONS: This study provides direct evidence that MUC2 plays an important role in colon cancer metastasis.
BACKGROUND & AIMS: Alterations in the production of epithelial mucins have been correlated with advanced tumor stage in the colon, but direct evidence for a role of specific mucin genes in liver metastasis is lacking. The current study was designed to establish more directly the role of MUC2 in colon cancer metastasis. METHODS:MUC2 levels were manipulated in highly metastatic humancolon cancer cells using eukaryotic expression constructs designed to express a portion of MUC2 complementary DNA in antisense orientation. To assess the effect of MUC2 levels on metastatic potential, liver colonization was assessed in athymic mice after splenic-portal inoculation. RESULTS: Stable integration of the MUC2 antisense construct into metastatic colon cancer cells (LS LiM6) resulted in an 80% reduction in MUC2-specific messenger RNA and a concomitant decrease in MUC2 apomucin protein. This reduction was associated with a 50% reduction in synthesis of mature glucosamine-labeled mucin, almost complete inhibition of secretion of sialyl-LeX and sialyl-Tn antigens, and a 40% decrease in binding of colon cancer cells to E-selectin. Reduction in MUC2 levels was associated with a marked decrease in liver colonization. CONCLUSIONS: This study provides direct evidence that MUC2 plays an important role in colon cancer metastasis.
Authors: Wanhua Yang; Peter W Chen; Haochuan Li; Hassan Alizadeh; Jerry Y Niederkorn Journal: Invest Ophthalmol Vis Sci Date: 2008-02-22 Impact factor: 4.799
Authors: Don A Delker; Brett M McGettigan; Priyanka Kanth; Stelian Pop; Deborah W Neklason; Mary P Bronner; Randall W Burt; Curt H Hagedorn Journal: PLoS One Date: 2014-02-12 Impact factor: 3.240