ki-8110 and Neoplasm-Metastasis

Cell surface hypersialylation of human colorectal carcinoma (HCRC) cells correlates with increased metastatic potential after intrasplenic injection, while desialylation with various agents has been shown to inhibit hepatic metastases. In this study we examined the effects of desialylation of HCRC cell lines with a novel intracellular inhibitor of the CMP-sialic acid transport protein (KI-8110). HCRC cells, which are poorly differentiated and poorly metastatic in nude mice (Clone A and MIP-101) were compared to well-differentiated, highly metastatic cells (CX-1 and CCL-235). KI-8110 treatment has previously been shown to reduce sialic acid levels in each of these cell lines and to reduce hepatic metastases in CX-1 and CCL-235 cell lines. This study attempts to identify a mechanism by which desialylation inhibits hepatic metastases. After KI-8110 treatment, in vitro adhesion assays were performed with each cell line to examine binding to Kupffer cells and the extracellular matrix protein fibronectin. Binding of Clone A, CX-1, and CCL-235 to Kupffer cells was significantly increased after KI-8110 treatment. Desialylation had no significant effect on binding of HCRC cell lines to fibronectin. While the metastatic cascade involves many complex interactions, the cytotoxic effects of Kupffer cells in the hepatic sinusoid are known to be an important mechanism of host defense against tumor cells. Cell surface sialic acids may well mask Kupffer cell binding to HCRC cells, preventing their cytotoxic effects and enhancing the metastatic potential of circulating tumor cells.

Topics: Animals; Colorectal Neoplasms; Glycosides; Humans; Kupffer Cells; Liver Neoplasms; Mice; Mice, Nude; N-Acetylneuraminic Acid; Neoplasm Metastasis; Sialic Acids; Sialyltransferases; Tumor Cells, Cultured; Uridine

As described previously (I. Kijima-Suda et al., Cancer Res., 46: 858-862, 1986), a sialyltransferase inhibitor, 5-fluoro-2',3'-isopropylidene-5'-O-(4-N-acetyl-2,4-dideoxy-3,6,7,8-tetra -O- acetyl-1-methoxycarbonyl-D-glycero-alpha-D-galactooctapyranosyl)ur idine (KI-8110), inhibits pulmonary metastasis of murine colon adenocarcinoma 26 sublines of high (NL-17) and low (NL-44) metastatic potential. To investigate the mechanism of this inhibition, the effect of KI-8110 on the metastatic cascade, especially on the interaction between tumor cells and platelets which may play a crucial role in tumor cell metastasis, was examined. NL-17 cells induced irreversible platelet aggregation in heparinized human platelet-rich plasma in vitro. This activity was reduced by pretreatment of the tumor cells with KI-8110. Inhibition of aggregation was also induced by the treatment of tumor cells with neuraminidase or Limax flavus agglutinin, a lectin specific for sialic acid. Sialic acid, fucose, sialyllactose, and bovine submaxillary mucin inhibited this tumor cell-induced platelet aggregation, while galactose, mannose, lactose, alpha 1-acid glycoprotein, fetuin, and asialo-bovine submaxillary mucin did not. KI-8110 also inhibited platelet-derived growth factor-dependent growth of NL-17 cells, but showed no effect on insulin or epidermal growth factor-dependent growth of the tumor cells. Platelet-derived growth factor-induced phosphorylation of membrane protein was reduced by treatment of NL-17 cells with KI-8110. The same result was obtained in the neuraminidase-treated membrane fraction of NL-17 cells. These results suggest that KI-8110 inhibits experimental tumor cell metastasis by inhibiting the interaction between tumor cells and host platelets in at least two pathways, and this may be due to a reduction of sialic acid contents of the membrane surface of tumor cells.

Topics: Animals; Cell Adhesion; Cell Division; Glycosides; Insulin; Membrane Proteins; Mice; Neoplasm Metastasis; Neuraminidase; Phosphorylation; Platelet Aggregation; Platelet-Derived Growth Factor; Tumor Cells, Cultured; Uridine

The total and sialidase-releasable sialic acid contents of murine colon adenocarcinoma 26 sublines of high (NL-17) and low (NL-44) metastatic potential were found to be positively correlated with their ability to undergo metastasis. Furthermore, sialyltransferase activity of intact NL-17 cells was higher than that of NL-44 cells. These findings suggest that sialic acid on the cell surface may play a role in the metastasis of these cells. Therefore, the effect of a sialyltransferase inhibitor, 5-fluoro-2',3'-isopropylidene-5'-O-(4-N-acetyl-2,4-dideoxy-3,6,7,8-tetra -O -acetyl-1-methoxycarbonyl-D-glycero-alpha-D-galactooctapyranosyl)u ridine (Kl-8110), on the experimental lung metastasis of NL-17 or NL-44 cells was examined. Kl-8110 inhibited the transfer of sialic acid to its endogenous acceptor in NL-17 and NL-44 cells. NL-17 or NL-44 cells were injected into the tail veins of mice, and the metastasis-inhibiting activity of Kl-8110 was evaluated on the basis of both the lung weight and the number of pulmonary surface nodules about 3 wk after the tumor cell injection and of the survival ratio of mice inoculated with the tumor cells. Pretreatment of tumor cells with Kl-8110 together with i.v. injection of Kl-8110 caused significant inhibition of pulmonary metastasis of both NL-17 and NL-44 cells. Inhibition of metastasis and prolongation of survival were also observed on i.v. injection of Kl-8110 without pretreatment of the tumor cells with Kl-8110, but the degree of inhibition was lower than that in the case of the two treatments together. Kl-8110 itself had neither cytostatic nor cytotoxic effects on NL-17 and NL-44 but reduced the retention of tumor cells in the lungs. This antimetastatic effect of Kl-8110 may be due to modification of the tumor cell surface resulting from inhibition of sialyltransferase by Kl-8110. In addition, a beta-linked sialic acid:nucleoside conjugate (Kl-8111) and an equimolar mixture of Kl-8110 and Kl-8111 (Kl-414) also inhibited the metastatic ability of NL cells to the same extent as Kl-8110 did.

Topics: Adenocarcinoma; Animals; Colonic Neoplasms; Female; Glycosides; Lung Neoplasms; Mice; Neoplasm Metastasis; Sialyltransferases; Transferases; Uridine