FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2765141502> ?p ?o ?g. }

• W2765141502 endingPage "3923" @default.
• W2765141502 startingPage "3913" @default.
• W2765141502 abstract "Nanometer-size gel particles, or nanogels, have potential for delivering therapeutic macromolecules. A cationic surface promotes cellular internalization of nanogels, but undesired electrostatic interactions, such as with blood components, cause instability and toxicities. Poly(ethylene glycol) coating has been used to shield charges, but this decreases delivery efficiency. Technical difficulties in synthesis and controlling molecular weights make it unfeasible to, instead, coat with biodegradable polymers. Our proposed solution is cationized nanogels enzymatically functionalized with branched polysaccharide chains, forming a shell to shield charges and increase stability. Biodegradation of the polysaccharides by an endogenous enzyme would then expose the cationic charges, allowing cellular internalization and cargo delivery. We tested this concept, preparing maltopentaose functionalized cholesteryl poly(l-lysine) nanogel and using tandem enzymatic polymerization with glycogen phosphorylase and glycogen branching enzyme, to add branched amylose moieties, forming a CbAmyPL nanogel. We characterized CbAmyPL nanogels and investigated their suitability as small interfering RNA (siRNA) carriers in murine renal carcinoma (Renca) cells. The nanogels had neutral ζ potential values that became positive after degradation by α-amylase. Foster resonance energy transfer demonstrated that the nanogels formed stable complexes with siRNA, even in the presence of bovine serum albumin and after α-amylase exposure. The nanogels, with or without α-amylase, were not cytotoxic. Complexes of CbAmyPL with siRNA against vascular endothelial growth factor (VEGF), when incubated alone with Renca cells decreased VEGF mRNA levels by only 20%. With α-amylase added, however, VEGF mRNA knockdown by the siRNA/nanogels complexes was 50%. Our findings strongly supported the hypothesis that enzyme-responsive nanogels are promising as a therapeutic siRNA delivery platform." @default.
• W2765141502 created "2017-11-10" @default.
• W2765141502 creator A5010056046 @default.
• W2765141502 creator A5021496950 @default.
• W2765141502 creator A5022832578 @default.
• W2765141502 creator A5028699398 @default.
• W2765141502 creator A5035276490 @default.
• W2765141502 creator A5067088439 @default.
• W2765141502 creator A5068498404 @default.
• W2765141502 date "2017-11-13" @default.
• W2765141502 modified "2023-10-17" @default.
• W2765141502 title "Self-Assembled Polypeptide Nanogels with Enzymatically Transformable Surface as a Small Interfering RNA Delivery Platform" @default.
• W2765141502 cites W1479986126 @default.
• W2765141502 cites W1783686579 @default.
• W2765141502 cites W1784652317 @default.
• W2765141502 cites W1921281173 @default.
• W2765141502 cites W1983345501 @default.
• W2765141502 cites W1986842655 @default.
• W2765141502 cites W2000093375 @default.
• W2765141502 cites W2000150008 @default.
• W2765141502 cites W2010413333 @default.
• W2765141502 cites W2011912803 @default.
• W2765141502 cites W2012295257 @default.
• W2765141502 cites W2014370099 @default.
• W2765141502 cites W2020916184 @default.
• W2765141502 cites W2021923638 @default.
• W2765141502 cites W2023019620 @default.
• W2765141502 cites W2028091603 @default.
• W2765141502 cites W2031335524 @default.
• W2765141502 cites W2032580905 @default.
• W2765141502 cites W2034486404 @default.
• W2765141502 cites W2034576335 @default.
• W2765141502 cites W2037501805 @default.
• W2765141502 cites W2040599673 @default.
• W2765141502 cites W2041505150 @default.
• W2765141502 cites W2041522924 @default.
• W2765141502 cites W2041780028 @default.
• W2765141502 cites W2044417412 @default.
• W2765141502 cites W2049885068 @default.
• W2765141502 cites W2051786089 @default.
• W2765141502 cites W2052917835 @default.
• W2765141502 cites W2062152261 @default.
• W2765141502 cites W2064688742 @default.
• W2765141502 cites W2066223920 @default.
• W2765141502 cites W2067109630 @default.
• W2765141502 cites W2067537199 @default.
• W2765141502 cites W2068743519 @default.
• W2765141502 cites W2073797272 @default.
• W2765141502 cites W2084119214 @default.
• W2765141502 cites W2086393160 @default.
• W2765141502 cites W2094913310 @default.
• W2765141502 cites W2095741217 @default.
• W2765141502 cites W2096262236 @default.
• W2765141502 cites W2098673605 @default.
• W2765141502 cites W2115824449 @default.
• W2765141502 cites W2120085804 @default.
• W2765141502 cites W2126020016 @default.
• W2765141502 cites W2126058383 @default.
• W2765141502 cites W2128085698 @default.
• W2765141502 cites W2144634745 @default.
• W2765141502 cites W2148290080 @default.
• W2765141502 cites W2150918607 @default.
• W2765141502 cites W2157938818 @default.
• W2765141502 cites W2301722455 @default.
• W2765141502 cites W2312940086 @default.
• W2765141502 cites W2510487209 @default.
• W2765141502 cites W2521330650 @default.
• W2765141502 cites W2550212096 @default.
• W2765141502 doi "https://doi.org/10.1021/acs.biomac.7b00937" @default.
• W2765141502 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29059529" @default.
• W2765141502 hasPublicationYear "2017" @default.
• W2765141502 type Work @default.
• W2765141502 sameAs 2765141502 @default.
• W2765141502 citedByCount "24" @default.
• W2765141502 countsByYear W27651415022018 @default.
• W2765141502 countsByYear W27651415022019 @default.
• W2765141502 countsByYear W27651415022020 @default.
• W2765141502 countsByYear W27651415022021 @default.
• W2765141502 countsByYear W27651415022022 @default.
• W2765141502 countsByYear W27651415022023 @default.
• W2765141502 crossrefType "journal-article" @default.
• W2765141502 hasAuthorship W2765141502A5010056046 @default.
• W2765141502 hasAuthorship W2765141502A5021496950 @default.
• W2765141502 hasAuthorship W2765141502A5022832578 @default.
• W2765141502 hasAuthorship W2765141502A5028699398 @default.
• W2765141502 hasAuthorship W2765141502A5035276490 @default.
• W2765141502 hasAuthorship W2765141502A5067088439 @default.
• W2765141502 hasAuthorship W2765141502A5068498404 @default.
• W2765141502 hasConcept C104317684 @default.
• W2765141502 hasConcept C12554922 @default.
• W2765141502 hasConcept C134424308 @default.
• W2765141502 hasConcept C139770010 @default.
• W2765141502 hasConcept C1491633281 @default.
• W2765141502 hasConcept C178790620 @default.
• W2765141502 hasConcept C183882617 @default.
• W2765141502 hasConcept C185592680 @default.
• W2765141502 hasConcept C188027245 @default.
• W2765141502 hasConcept C22615655 @default.

• next