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Purpose To assess the maximum uptake of Iododeo xyur idine (IUdR) by proliferating smooth muscle cells in vitro to determine the opti mal concentration to be administrated in an in vivo experiment. The long-term g oal is to utilize radioactive IUdR to inhibit smooth muscle cell proliferation a nd restenosis of arteries after balloon angioplasty in vivo. Methods Porcine smooth muscle cells (SMCs) were cultured in 5% FBS medium and stim ulated to proliferate by the addition of medium containing 10% FBS and insulin. IUdR was added at 5 μM, 10 μM, 20 μM, 30 μM, 40 μM, respectively, in prolif erating SMCs with control for 1, 3, 5, 7 day incubation. Fluorescence Activated Cell Scanning (FACS) was performed after the SMCs were harvested and double-sta ined with FITC-conjugated anti-IUdR antibody (B44) and propidium iodide (PI). The ratio of IUdR-labeled cells to total cell population for each IUdR concentr ation and duration was determined by FACS. All data were repeated three times at each time point. The doubling times, growth curve and cell density of the proli ferating SMCs were investigated using Beckman Coulter Particle Counter and digit al microscopy. Results The percentage of proliferating SMCs uptaking IUdR incr eased from 1 to 5 days incubation with all concentrations of IUdR; In day 5, the uptake rate reached the peak value, then decreased by 7 days. IUdR uptake on d ay 5 was higher with concentrations of 10 μM and 20 μM. The doubling times of the SMCs were prolonged with IUdR concentration increasing, while the proliferat ing cell number and density compared with control decreased obviously by day 5 ( P<0.05).Conclusion The peak time to uptake IUdR was 5 days and optimal concentration of IUdR was between10 μM to 20 μM for proliferating SMCs to upta ke in vitro. IUdR itself could inhibit the SMCs’ proliferation and the inhibito ry effect was related to the concentration.[
Purpose To assess the maximum uptake of Iododeo xyur idine (IUdR) by proliferating smooth muscle cells in vitro to determine the opti mal concentration to be administered in an in vivo experiment. The long-term g oal is to utilize radioactive IUdR to inhibit smooth muscle cell proliferation a nd restenosis of arteries after balloon angioplasty in vivo. Methods Porcine smooth muscle cells (SMCs) were cultured in 5% FBS medium and stim ulated to proliferate by the addition of medium containing 10% FBS and insulin. μM, 10 μM, 20 μM, 30 μM, 40 μM, respectively, in prolifrating SMCs with control for 1, 3, 5, 7 day incubation. Fluorescence Activated Cell Scanning (FACS) was performed after the SMCs were harvested and double- sta ined with FITC-conjugated anti-IUdR antibody (B44) and propidium iodide (PI). The ratio of IUdR-labeled cells to total cell population for each IUdR concentrtion and duration was determined by FACS. All data were repeated three time s at each time point. The doubling times, growth curve and cell density of the proli fe SMCs were investigated using Beckman Coulter Particle Counter and digit al microscopy. Results The percentage of proliferating SMCs uptaking IUdR incr eased from 1 to 5 days incubation with all concentrations of IUdR; In day 5, the uptake rate reached the peak value, then decreased by 7 days. IUdR uptake on dyy 5 was higher with concentrations of 10 μM and 20 μM. The doubling times of the SMCs were prolonged with IUdR concentration increasing, while the proliferating cell number and density compared with controlling minus obviously by day 5 (P <0.05) .Conclusion The peak time to uptake IUdR was 5 days and optimal concentration of IUdR was between 10 μM to 20 μM for proliferating SMCs to upta ke in vitro. IUdR itself could inhibit the SMCs’ proliferation and the inhibito ry effect was related to the concentration. [