Objective: To construct mammalian cell expression vectors for Mac-1 with CFP and YFP and apply FRET to study the dimerization and function of CD11 b( Mac-1 α subunit) and CD18(Mac-1 β subunit). Methods: The mammalia...Objective: To construct mammalian cell expression vectors for Mac-1 with CFP and YFP and apply FRET to study the dimerization and function of CD11 b( Mac-1 α subunit) and CD18(Mac-1 β subunit). Methods: The mammalian cell expression vector for CD11b fused with CFP at the carboxyl terminal was constructed to create recombinant plasmid of pCD11b-CFP. Then pCD11b-CFP was co-transfected with pYFP-CD18 into CHO cell, a fibroblast like cell line, as a target cell within which there are some signal pathways involved in inflammatory stimulation but without endogenous Mac-1. Then CHO cells stably expressing both CD11b-CFP and YFP-CD18 fusion proteins were selected by Western blot and laser scanning confocal microscope. Results: The cyan and yellow fluorescence in co-transfected positive CHO cells were observed under a fluorescence microscope. CHO-Mac-1-FP cells stably expressing both CD11b-CFP and YFP-CD18 fusion proteins were obtained as demonstrated by Western blot successfully. The adhesive activity of CHO-Mac-1-FP cells with CHO-1CAM-1 cells was increased markedly by treatment with PMA, suggesting the translocation of GD11b-CFP and YFP-CD18 to the plasma membrane in CHO-Mac-1-FP cells and dimerization of CD11b-CFP and YFP-CD18 just as the function of the wild type Mac-1. Conclusion: CHO-Mac-1-FP cells with adhesive activity are established successfully, thus CHO-Mac-1-FP cells may be useful for the study of Mac-1 by FRET and for other purposes.展开更多
基金Supported by National Natural Science Foundation of China (No.30000068, 39730210)
文摘Objective: To construct mammalian cell expression vectors for Mac-1 with CFP and YFP and apply FRET to study the dimerization and function of CD11 b( Mac-1 α subunit) and CD18(Mac-1 β subunit). Methods: The mammalian cell expression vector for CD11b fused with CFP at the carboxyl terminal was constructed to create recombinant plasmid of pCD11b-CFP. Then pCD11b-CFP was co-transfected with pYFP-CD18 into CHO cell, a fibroblast like cell line, as a target cell within which there are some signal pathways involved in inflammatory stimulation but without endogenous Mac-1. Then CHO cells stably expressing both CD11b-CFP and YFP-CD18 fusion proteins were selected by Western blot and laser scanning confocal microscope. Results: The cyan and yellow fluorescence in co-transfected positive CHO cells were observed under a fluorescence microscope. CHO-Mac-1-FP cells stably expressing both CD11b-CFP and YFP-CD18 fusion proteins were obtained as demonstrated by Western blot successfully. The adhesive activity of CHO-Mac-1-FP cells with CHO-1CAM-1 cells was increased markedly by treatment with PMA, suggesting the translocation of GD11b-CFP and YFP-CD18 to the plasma membrane in CHO-Mac-1-FP cells and dimerization of CD11b-CFP and YFP-CD18 just as the function of the wild type Mac-1. Conclusion: CHO-Mac-1-FP cells with adhesive activity are established successfully, thus CHO-Mac-1-FP cells may be useful for the study of Mac-1 by FRET and for other purposes.
