| Literature DB >> 26497328 |
Osamu Suzuki1, Masafumi Abe1, Yuko Hashimoto1.
Abstract
To determine the biological roles of cell surface glycosylation, we modified the surface glycosylation of humanEntities:
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Year: 2015 PMID: 26497328 PMCID: PMC4665765 DOI: 10.3892/ijo.2015.3211
Source DB: PubMed Journal: Int J Oncol ISSN: 1019-6439 Impact factor: 5.650
Figure 1Cell surface expression of VLA integrins. The expression of the integrins VLA-1 to VLA-5 on the surface of HBL-8 3G3 cells was analyzed using flow cytometry. The filled area is a control experiment, and the thick line indicates VLA expression. The data shown are representative of two independent experiments.
Figure 2Effect of alteration of cell surface O- or N-linked oligosaccharides on lectin reactivity. Effect of inhibition of glycosylation in the HBL-8 3G3 cloned cells on their surface lectin reactivity was analyzed using FACS analysis. (A) HPA lectin reactivity without (thick line) or with (dotted line) BZ treatment. (B) L-PHA or ConA reactivity without (thick dotted line) or with (thin dotted line) SW treatment. (C) L-PHA or ConA reactivity without (thick dotted line) or with (thin dotted line) TM treatment. The filled area is the control experiment with avidin-FITC only. Data shown are representative of two independent experiments.
Figure 3Effect of alteration of cell surface glycosylation on cell adhesion to fibronectin. The adhesion of cells to fibronectin, and the effect of anti-VLA-4 antibodies or alteration of cell surface glycosylation on this adhesion were assayed using fibronectin coated culture plates. Adhesion was monitored by measurement of absorption at 570–655 nm. (A) Effect of anti-VLA-4 or isotype control (cont) antibodies on HBL-8 3G3 cloned cell adhesion to plates coated with the indicated concentrations of fibronectin (fibro) (*p=0.0003, **p=0.0035). (B) Effect of BZ or control (cont) treatment on adhesion to fibronectin (fibro) of HBL-8 3G3 cells (B-1) (*p=0.0327, **p=0.0194) or of H-ALCL cells (B-2) (*p=0.004). Data shown are representative of two independent experiments performed in triplicate. (C) Effect of SW or control (cont) treatment on adhesion to fibronectin (fibro) of HBL-8 3G3 cells (NS, not significant). Data shown are representative of three independent experiments performed in triplicate. (D) Effect of TM or control (cont) on HBL-8 3G3 cloned cell adhesion to fibronectin (*p=0.0136, **p=0.0010, ***p=0.0126). Data shown are representative of two independent experiments performed in triplicate. p-values were calculated based on Student's t-test.
Figure 4BZ enhancement of H-ALCL cell adhesion to fibronectin is not mediated by VLA-5, or by CS-1 or RGD sequences. H-ALCL cells that were treated with BZ or with ethanol control were incubated with anti-VLA-5 or control antibodies (Ab) or with the CS-1 or RGD peptides and fibronectin adhesion was then assayed as in Fig. 3 (*p=0.001, **p=0.00006, ***p=0.00001, ****p=0.0001). The data shown are representative of two independent experiments performed in triplicate. p-values were calculated based on Student's t-test.
Figure 5Effect of neuraminidase treatment and the RGD sequence on galectin binding of H-ALCL cells. Cell adhesion to galectin-coated plates was analyzed by determination of the OD at 570 nm in an adhesion assay. (A) The effect of pre-treatment of H-ALCL cells with neuraminidase on cell adhesion to galectin-3 was analyzed (*p=0.039). (B) The effect of pre-treatment of cells in serum-free medium with the RGD peptide (RGD) or with PBS control (cont) on H-ALCL cell adhesion to galectin-3 was analyzed (*p=0.02). Data are representative of two independent experiments performed in triplicate.
Figure 6Further analysis of the mechanism of H-ALCL interaction with galectin. (A) Effect of pre-treatment with the RGD peptide (RGD) or PBS control (cont) for 48 h on H-ALCL cell invasion of galectin-1 and galectin-3 (*p=0.00002, **p=0.008). Data are representative of two independent experiments performed in triplicate. (B) Effect of pre-incubation with β-lactose, sucrose or control (cont) on H-ALCL cell adhesion to galectin-3 (***p=0.001).
Figure 7Immunohistochemical analysis of the expression of Rac 1 and Cdc42 proteins in the cytoplasm of H-ALCL cells. The H-ALCL cells were cytospun onto glass slides and were then fixed by 100% ethanol. Subsequently, the immunohistochemical staining was performed using standard methods.
Figure 8Effect of an inhibitor of Rac 1 and Cdc42 on H-ALCL cell invasion of galectin-1 and galectin-3. H-ALCL cells were incubated with PBS control (cont) or with the Rac 1 and Cdc42 inhibitor, AZA1, following which cell adhesion to galectin-1 (GAL-1) or galectin-3 (GAL-3) was assayed (*p=0.004, **p=0.008). Data are representative of two independent experiments that were performed in triplicate.
Figure 9Schematic representation of the biological roles of cell surface glycosylation in human malignant lymphoma cell adhesion to and invasion of the extracellular matrix.