Non-Covalent Carrier Hydrophobicity as a Universal Predictor of Intracellular Protein Activity

Hango, Christopher R.; Backlund, Coralie M.; Davis, Hazel C; Posey, Nicholas D.; Minter, Lisa M.; Tew, Gregory N.

doi:10.1021/acs.biomac.1c00242

Cited by 16 publications

(30 citation statements)

References 103 publications

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“…Among the abovementioned polymerization methods, ROMP is the most suitable polymerization route because ROMP reactions proceed rapidly in the presence of air-stable and functional groups of tolerant ruthenium Grubbs catalysts in mild conditions and allow the acquisition of different functional polymeric materials with desired structure and composition [10][11][12][13]. The employment of ROMP for the preparation of polymeric materials for different biomedical applications is presented in recent articles [14][15][16]. Hango et al developed oxanorbornene-based block copolymers capable of effective intracellularly protein delivery [14].…”

Section: Introductionmentioning

confidence: 99%

“…The employment of ROMP for the preparation of polymeric materials for different biomedical applications is presented in recent articles [14][15][16]. Hango et al developed oxanorbornene-based block copolymers capable of effective intracellularly protein delivery [14]. In the paper by Kockelmann et al, 2020, it is reported that poly(norbornene)-based nanogels can be utilized as drug delivery agents in anticancer immunotherapy [15].…”

Section: Introductionmentioning

confidence: 99%

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Red Light-Emitting Water-Soluble Luminescent Iridium-Containing Polynorbornenes: Synthesis, Characterization and Oxygen Sensing Properties in Biological Tissues In Vivo

et al. 2021

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New water-soluble polynorbornenes P1–P4 containing oligoether, amino acid groups and luminophoric complexes of iridium(III) were synthesized by ring-opening metathesis polymerization. The polymeric products in organic solvents and in water demonstrate intense photoluminescence in the red spectral region. The polymers P1 and P3 with 1-phenylisoquinoline cyclometalating ligands in iridium fragments reveal 4–6 fold higher emission quantum yields in solutions than those of P2 and P4 that contain iridium complexes with 1-(thien-2-yl)isoquinoline cyclometalating ligands. The emission parameters of P1–P4 in degassed solutions essentially differ from those in the aerated solutions showing oxygen-dependent quenching of phosphorescence. Biological testing of P1 and P3 demonstrates that the polymers do not penetrate into live cultured cancer cells and normal skin fibroblasts and do not possess cytotoxicity within the concentrations and time ranges reasonable for biological studies. In vivo, the polymers display longer phosphorescence lifetimes in mouse tumors than in muscle, as measured using phosphorescence lifetime imaging (PLIM), which correlates with tumor hypoxia. Therefore, preliminary evaluation of the synthesized polymers shows their suitability for noninvasive in vivo assessments of oxygen levels in biological tissues.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Red Light-Emitting Water-Soluble Luminescent Iridium-Containing Polynorbornenes: Synthesis, Characterization and Oxygen Sensing Properties in Biological Tissues In Vivo

et al. 2021

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“…S26†). 29,40,48,49 Cargo binding appeared to be driven by the polymer repeat unit to protein ratio ( i.e. , mass concentration of polymer in the system) rather than PTDM DP.…”

Section: Resultsmentioning

confidence: 99%

“…In a recent study using the same reporter Jurkat T cell line, the polymers MePh 10 - b -dG 5 , dMe 10 - b -dG 5 , and dPh 5 - b -dG 5 yielded recombination rates of 25%, 50%, and 45%, respectively (560 nM, 5 : 1). 29 In a different human T cell line, MePh 9 - b -dG 5 reached 70% using Cre and 90% using a Tat-Cre conjugate, which facilitates some cellular entry on its own (125 nM, 10 : 1). 42 Two additional reports in this cell line demonstrated the abilities of dPh 5 - b -dG 5 and dPh 5 - grad -dG 5 (gradient architecture) to edit up to 70% (Cre) and 90% (Tat-Cre) of cells (100–150 nM, 5 : 1–10 : 1).…”

Section: Discussionmentioning

confidence: 99%

“…This is consistent with previous findings that the simple addition of a hydrophobic block dramatically improves protein internalization. 29,40,41 Block copolymer degree of polymerization was found to affect protein delivery in competing ways. Although shortening these PTDMs maximized protein internalization, arranging the same number of monomers into fewer, longer polymer chains improved functional Cre delivery.…”

Section: Discussionmentioning

confidence: 99%

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