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W2016258885 startingPage "89" @default.
W2016258885 abstract "Delivery of macromolecular drugs (e.g. antisense oligonucleotides, polymer-drug conjugates, etc.) designed to work in specific sites inside cells is complicated as macromolecules typically have access to fewer biological compartments than small molecules. To better understand the fate of macromolecules in cells and begin to alter that fate, we investigated the internalization and subcellular fate of N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers and HPMA copolymer-drug conjugates in Hep G2 and A2780 cells. The subcellular fate of fluorescently labeled polymers was monitored by confocal microscopy and subcellular fractionation. Initially, the HPMA copolymers and HPMA copolymer-drug conjugates were internalized by endocytosis and remained in endosomes/lysosomes. At longer incubation times (>8 h), small amounts of the HPMA copolymers were observed to enter the cytoplasm and accumulate in the nucleus of the cells. Nuclear accumulation was confirmed after cytoplasmic microinjection. Oligonucleotides conjugated via lysosomally degradable spacers entered into the cytoplasm and nucleus of the cells faster than the polymers. The effect of the subcellular location was correlated to the toxicity of the photosensitizer, mesochlorin e(6) (Mce(6))-HPMA copolymer conjugates. The plasma membrane and late endosomes were more sensitive to damage by Mce(6). Targeting the polymer conjugates to the nucleus with the nuclear localization sequence (NLS) as well as conjugating the Mce(6) via a degradable spacer increased cell adhesion and uptake, promoted their entry into the cytoplasm and nucleus of the cells, and increased their toxicity. To further promote entry of the polymers into the cytoplasm and nucleus of the cells, the protein transduction domain, Tat peptide, was conjugated to the HPMA copolymers. This resulted in high binding to the cell membrane, but also facilitated rapid (<5 min) entry of the macromolecules into the cytoplasm and nucleus of cells. These results will prove valuable in the future design of macromolecular therapeutics." @default.
W2016258885 created "2016-06-24" @default.
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W2016258885 date "2003-02-01" @default.
W2016258885 modified "2023-10-17" @default.
W2016258885 title "Cytoplasmic delivery and nuclear targeting of synthetic macromolecules" @default.
W2016258885 cites W10640494 @default.
W2016258885 cites W1510613202 @default.
W2016258885 cites W1539694870 @default.
W2016258885 cites W1631248633 @default.
W2016258885 cites W1830217992 @default.
W2016258885 cites W1932774860 @default.
W2016258885 cites W1963618736 @default.
W2016258885 cites W1964455520 @default.
W2016258885 cites W1964794788 @default.
W2016258885 cites W1967816890 @default.
W2016258885 cites W1968900809 @default.
W2016258885 cites W1977983687 @default.
W2016258885 cites W1978183755 @default.
W2016258885 cites W1981481692 @default.
W2016258885 cites W1982906321 @default.
W2016258885 cites W1983875438 @default.
W2016258885 cites W1984207526 @default.
W2016258885 cites W1986045651 @default.
W2016258885 cites W1986256559 @default.
W2016258885 cites W1994190363 @default.
W2016258885 cites W1999192369 @default.
W2016258885 cites W2003658370 @default.
W2016258885 cites W2003763258 @default.
W2016258885 cites W2008468833 @default.
W2016258885 cites W2009640317 @default.
W2016258885 cites W2011008013 @default.
W2016258885 cites W2012440525 @default.
W2016258885 cites W2014293791 @default.
W2016258885 cites W2019144805 @default.
W2016258885 cites W2019563225 @default.
W2016258885 cites W2021642581 @default.
W2016258885 cites W2029243957 @default.
W2016258885 cites W2031644592 @default.
W2016258885 cites W2039702376 @default.
W2016258885 cites W2041452578 @default.
W2016258885 cites W2041460782 @default.
W2016258885 cites W2041527069 @default.
W2016258885 cites W2044516759 @default.
W2016258885 cites W2044556787 @default.
W2016258885 cites W2048278858 @default.
W2016258885 cites W2055189733 @default.
W2016258885 cites W2067132479 @default.
W2016258885 cites W2068708514 @default.
W2016258885 cites W2073544629 @default.
W2016258885 cites W2075232816 @default.
W2016258885 cites W2078433042 @default.
W2016258885 cites W2079266971 @default.
W2016258885 cites W2079719155 @default.
W2016258885 cites W2081215618 @default.
W2016258885 cites W2081621607 @default.
W2016258885 cites W2085504000 @default.
W2016258885 cites W2089139660 @default.
W2016258885 cites W2091117151 @default.
W2016258885 cites W2092347182 @default.
W2016258885 cites W2097956790 @default.
W2016258885 cites W2098378066 @default.
W2016258885 cites W2099896078 @default.
W2016258885 cites W2105668301 @default.
W2016258885 cites W2105752333 @default.
W2016258885 cites W2112824007 @default.
W2016258885 cites W2113567410 @default.
W2016258885 cites W2125097383 @default.
W2016258885 cites W2127434847 @default.
W2016258885 cites W2155650021 @default.
W2016258885 cites W2158829419 @default.
W2016258885 cites W2169371695 @default.
W2016258885 cites W2312847415 @default.
W2016258885 cites W2332149936 @default.
W2016258885 cites W2413815338 @default.
W2016258885 cites W34750704 @default.
W2016258885 cites W4245676270 @default.
W2016258885 cites W91990295 @default.
W2016258885 doi "https://doi.org/10.1016/s0168-3659(02)00352-8" @default.
W2016258885 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/12618026" @default.
W2016258885 hasPublicationYear "2003" @default.
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