ラムノース結合性レクチンによるグロボトリアオシルセラミド(Gb3)を介したシグナル伝達機構の調節(誌上シンポジウム)  [in Japanese] Regulation of Globotriaosylceramide (Gb3)-mediated Signal Transduction by Rhamnose-binding Lectin(Symposium Review)  [in Japanese]

Silurus asotus (catfish) egg lectin (SAL) has potent affinity to Gal α-linked carbohydrate chains of not only glycoproteins but also glycosphingolipids such as globotriaosylceramide (Gb3). SAL selectively bound to Gb3 localized in glycosphingolipid-enriched microdomain (GEM) of Gb3-expressing (Gb3^+) Burkitt's lymphoma cells. Since treatment of Gb3^+ cells with SAL caused an increase in externalization of phosphatidylserine via activation of P-glycoprotein, and apoptotic volume decrease via activation of G-protein activated K^+ channel-1, SAL may function as an inducer of early apoptotic signal ; however, neither caspase-8 and -3 activation nor DNA fragmentation was observed. We therefore investigated whether cell proliferation and viability were altered in SAL-treated Raji cells. SAL caused reduction of Raji cell proliferation without cytotoxicity. Although SAL did not induce apoptotic cell death to Gb3-expressing cells, it functionally behaved as a regulator of cell proliferation. SAL activated the suppression system of cell proliferation, such as down-regulation of c-myc and cdk4, and up-regulation of p21 and p27, inducing G1 arrest of the cell cycle, and consequently inhibited cell proliferation of Raji cells. Therefore, we conclude that SAL leads the cells to early apoptotic status but not late apoptotic (necrotic) status via binding to Gb3 existing in GEM, and that this binding is a prerequisite condition to induce cell cycle stop signal.