Motility Inhibition and Apoptosis Are Induced by Metastasis-suppressing Gene Product CD82 and Its Analogue CD9, with Concurrent Glycosylation

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Motility Inhibition and Apoptosis Are Induced by Metastasis-suppressing Gene Product CD82 and Its Analogue CD9, with Concurrent Glycosylation¹

Masaya Ono², Kazuko Handa, Donald A. Withers and Sen-itiroh Hakomori³

Pacific Northwest Research Institute, Seattle, Washington 98122, and Departments of Pathobiology and Microbiology, University of Washington, Seattle, Washington 98195

Metastasis-suppressing gene product CD82 and its analogue CD9are considered to suppress the malignancy of various human cancers,although the rationale for this effect is unknown. The presentstudy addresses phenotypic changes in Chinese hamster ovarymutant cell line ldlD deficient in UDP-Glc 4-epimerase and expressingCD82 or CD9 by cDNA transfection. Only CD82- or CD9-expressingcells grown in Gal-supplemented medium showed reduced motilityand massive cell death, which are characteristic of apoptosis,after a latent period. Under this condition, endogenous GM3synthesis was observed as a common factor, and N-glycosylationoccurred at a high level in CD82 and to a lesser extent in CD9.Thus, the malignancy-suppressing effect of CD82 or CD9 is basedpartially on cell motility inhibition and apoptosis inductionpromoted by concurrent GM3 synthesis and N-glycosylation.

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