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Popielarski SR Hu-Lieskovan S French SW Triche TJ Davis ME 《Bioconjugate chemistry》2005,16(5):1071-1080
In Part 1 of our work (1), four nanoparticles were synthesized specifically for the purpose of identifying design constraints to guide next generation gene delivery to the liver. The four nanoparticles are Gal-50 and Gal-140 (galactosylated 50 and 140 nm nanoparticles) and MeO-50 and MeO-140 (methoxy-terminated 50 and 140 nm nanoparticles). All four particles have the same surface charge, and Gal-50 and Gal-140 have the same surface galactose density (ca. 25-30 pmol/cm2). Here, the hepatocyte uptake in vitro and hepatic distribution in vivo of these four nanoparticles is investigated. With freshly isolated hepatocytes, Gal-50 nanoparticles are taken up to a greater extent than are MeO-50, and both 50 nm beads are taken up to a much greater extent than either of the 140 nm nanoparticles. In mice, about 90% of the in vivo dose of Gal-140 nanoparticles is found within the liver 20 min after tail-vein injection. TEM and immunohistochemistry images confirm that Gal-140 nanoparticles are primarily internalized by Kupffer cells, though isolated examples of a few Gal-140 in hepatocytes are also observed. Gal-50 nanoparticles are overwhelmingly found in vesicles throughout the cytoplasm of hepatocytes, with only isolated examples of Kupffer cell uptake 20 min after tail vein injections in mice. Despite similar surface charge and ligand density, 50 nm nanoparticles are primarily found in hepatocytes while 140 nm nanoparticles are primarily observed in Kupffer cells. These results clearly show that slightly anionic, galactose-PEGylated nanoparticles with 25-30 pmol/cm2 galactose should be about 50 nm in diameter to preferentially target hepatocytes while they should be about 140 nm in diameter to selectively target Kupffer cells. 相似文献
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Xue Bin Xu Jiaqi Song Wenru Yang Zhimin Liu Ke Li Zihai Li Zihai Chen Lieping Garon Edward B. Hu-Lieskovan Siwen Ding Wei Pan Chong-Xian Sun Weijing Liu Yong-Jun Zheng Lei Liu Delong Sadelain Michel Yee Cassian Wang Rongfu Chen Meixia Wang Yao Wu Zhiqiang Dai Hanren Luo Can Liu Yang Tong Chuan Guo Yelei Yang Qingming Han Weidong Butterfield Lisa H. Chan Timothy A. Song Wenru Yuan Ruirong Lu Bo Liu Ke Ning Max Enzmann Harald Zwierzina Heinz 《Journal of hematology & oncology》2016,9(1):1-10
A1 Proceedings of 2016 China Cancer Immunotherapy Workshop, Beijing, China Bin Xue, Jiaqi Xu, Wenru Song, Zhimin Yang, Ke Liu, Zihai Li A2 Set the stage: fundamental immunology in forty minutes Zihai Li A3 What have we learnt from the anti-PD-1/PD-L1 therapy of advanced human cancer? Lieping Chen A4 Immune checkpoint inhibitors in lung cancer Edward B. Garon A5 Mechanisms of response and resistance to checkpoint inhibitors in melanoma Siwen Hu-Lieskovan A6 Checkpoint inhibitor immunotherapy in lymphoid malignancies Wei Ding A7 Translational research to improve the efficacy of immunotherapy in genitourinary malignancies Chong-Xian Pan A8 Immune checkpoint inhibitors in gastrointestinal malignancies Weijing Sun A9 What’s next beyond PD-1/PDL1? Yong-Jun Liu A10 Cancer vaccines: new insights into the oldest immunotherapy strategy Lei Zheng A11 Bispecific antibodies for cancer immunotherapy Delong Liu A12 Updates on CAR-T immunotherapy Michel Sadelain A13 Adoptive T cell therapy: personalizing cancer treatment Cassian Yee A14 Immune targets and neoantigens for cancer immunotherapy Rongfu Wang A15 Phase I/IIa trial of chimeric antigen receptor modified T cells against CD133 in patients with advanced and metastatic solid tumors Meixia Chen, Yao Wang, Zhiqiang Wu, Hanren Dai, Can Luo, Yang Liu, Chuan Tong, Yelei Guo, Qingming Yang, Weidong Han A16 Cancer immunotherapy biomarkers: progress and issues Lisa H. Butterfield A17 Shaping of immunotherapy response by cancer genomes Timothy A. Chan A18 Unique development consideration for cancer immunotherapy Wenru Song A19 Immunotherapy combination Ruirong Yuan A20 Immunotherapy combination with radiotherapy Bo Lu A21 Cancer immunotherapy: past, present and future Ke Liu A22 Breakthrough therapy designation drug development and approval Max Ning A23 Current European regulation of innovative oncology medicines: opportunities for immunotherapy Harald Enzmann, Heinz Zwierzina 相似文献
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Bin Xue Jiaqi Xu Wenru Song Zhimin Yang Ke Liu Zihai Li Zihai Li Lieping Chen Edward B. Garon Siwen Hu-Lieskovan Wei Ding Chong-Xian Pan Weijing Sun Yong-Jun Liu Lei Zheng Michel Sadelain Cassian Yee Rongfu Wang Meixia Chen Yao Wang Zhiqiang Wu Hanren Dai Can Luo Yang Liu Chuan Tong Yelei Guo Qingming Yang Weidong Han Lisa H. Butterfield Timothy A. Chan Wenru Song Ruirong Yuan Bo Lu Ke Liu Max Ning Harald Enzmann Heinz Zwierzina 《Journal of hematology & oncology》2016,9(1):104
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