Carbohydrate-to-carbohydrate interactions between α2,3-linked sialic acids on α2 integrin subunits and asialo-GM1 underlie the bone metastatic behaviour of LNCAP-derivative C4-2B prostate cancer cells.

Séverine Van Slambrouck,Sophie Groux-Degroote,Aurélie Cazet,Wim F A Steelant,Marie-Ange Krzewinski-Recchi,Philippe Delannoy

doi:10.1042/bsr20140096

Abstract

Complex interplays among proteins, lipids and carbohydrates can alter the phenotype and are suggested to have a crucial role in tumour metastasis. Our previous studies indicated that a complex of the GSLs (glycosphingolipids), AsGM1 (asialo-GM1), which lacks α2,3-linked sialic acid, and α2β1 integrin receptors is responsible for the metastatic behaviour of C4-2B prostate cancer cells. Herein, we identified and addressed the functional significance of changes in sialylation during prostate cancer progression. We observed an increase in α2,3-linked sialic acid residues on α2 subunits of α2β1 integrin receptors, correlating with increased gene expression of α2,3-STs (sialyltransferases), particularly ST3GAL3. Cell surface α2,3-sialylation of α2 subunits was required for the integrin α2β1-dependent cell adhesion to collagen type I and the same α2,3-linked sialic acid residues on the integrin receptor were responsible for the interaction with the carbohydrate moiety of AsGM1, explaining the complex formation between AsGM1 and α2β1 integrin receptors. These results provide novel insights into the role of sialic acids in the organization and function of important membrane components in invasion and metastatic processes.

Highlights

Integrins are heterodimeric transmembrane receptors that play a role in cellular adhesion and migration
It needs to be mentioned that the relative expression of the different α2,3-ST genes was quite variable with the lowest expression levels for ST3GAL6 (CT = 30), the highest for ST3GAL1 (CT = 23) and intermediate levels of ST3GAL3 with a threshold cycle value (CT) of 27. These results indicate that there are no significant differences in α2,6-sialylation between LNCaP and C4-2B cells, but that there is a significant increase in cell surface and total expression of α2,3-linked sialic acid residues, which can be directly correlated with the enhanced transcriptional expression levels of particular α2,3-ST genes in the bone metastatic C4-2B cells
Adhesion of C4-2B cells to collagen type I via sialylation of the integrin receptor prior to the integrin-mediated adhesion Given the differences in sialylation between LNCaP and C42B cells, suggesting an altered sialylated glycol–epitope pattern at the cell surface of C4-2B cells, we studied whether these changes in sialylation influence the adhesion of LNCaP and C4-2B cells to collagen type I (Figure 2A)