Endocytosis of poly(ethylene sodium phosphate) by macrophages and the effect of polymer length on cellular uptake

[Display omitted] Phosphorus-containing polymers are taking a growing interest as a bio-applicable material. Anionic poly(phosphodiester) is one type of phosphorus-containing polymer and has a similar backbone structure to teichoic acid (TA), which makes up the cell walls of gram-positive bacteria....

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2019, 75(0), , pp.115-122
Main Authors: Otaka, Akihisa, Iwasaki, Yasuhiko
Format: Article
Language:English
Subjects:
Bioorthogonal labeling
Degradable polymer
Drug delivery system
Macrophages
Poly(phosphoester)
화학공학
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Summary:[Display omitted] Phosphorus-containing polymers are taking a growing interest as a bio-applicable material. Anionic poly(phosphodiester) is one type of phosphorus-containing polymer and has a similar backbone structure to teichoic acid (TA), which makes up the cell walls of gram-positive bacteria. In this study, we synthesized a copolymer of ethylene sodium phosphate and butynyl phosphate (P(EP⋅Na/BYP)), which mimics TA and, thus, should be taken up by macrophages by the same mechanism as bacterial cells. In-vitro studies showed that RAW 264.7 mammalian macrophages exhibited higher uptake of P(EP⋅Na/BYP) than L929 mammalian fibroblasts. Further, the uptake of P(EP⋅Na/BYP) by macrophages decreased in the presence of dextran sulfate; this implies that the scavenger receptor contributes to endocytosis of P(EP·Na/BYP). In-vitro studies on P(EP·Na/BYP) with different lengths (38, 85, and 127 phosphate residues) showed that P(EP·Na/BYP) with 127 phosphate residues led to the highest intracellular transportation and the least gene expressions of IL-6 and TNF-α. These results demonstrate that water-soluble poly(phosphodiester) can be used as a modifier to deliver medical drugs to macrophages.
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2019.03.010