Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Biodegradable polymers were electrospun and recombinant human epidermal growth factor (EGF) was immobilized on the electrospun nanofibers for the purpose of treating diabetic ulcers. Amine-terminated block copolymers composed of poly(epsilon-caprolactone) [PCL] and poly(ethyleneglycol) [PEG] and PCL were electrospun to biocompatible nanofibers with functional amine groups on the surface via PEG linkers. EGF was chemically conjugated to the surface of the nanofibers. The conjugation amount of EGF on the nanofibers was quantitated by X-ray photoelectron scattering. Human primary keratinocytes were cultivated on EGF-conjugated nanofibers in order to investigate the effect of EGF nanofibers on the differentiation of keratinocytes. Wound healing effects of the EGF nanofibers were confirmed in diabetic animals with dorsal wounds. The expression of keratinocyte-specific genes significantly increased with application of EGF-conjugated nanofibers. The EGF-nanofibers exerted superior in vivo wound healing activities compared to control groups or EGF solutions. Furthermore, immunohistochemical-staining results showed that EGF-receptor (EGFR) was highly expressed in the EGF nanofiber group. This study showed that EGF-conjugated nanofiber could potentially be employed as a novel wound healing material by increasing proliferation and phenotypic expression of keratinocytes.
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PMID:In vivo wound healing of diabetic ulcers using electrospun nanofibers immobilized with human epidermal growth factor (EGF). 1799 53

In this article, a kind of biodegradable poly(epsilon-caprolactone)-Poly(ethylene glycol)-poly(epsilon-caprolactone) (PCL-PEG-PCL, PCEC) copolymer was synthesized by ring-opening polymerization method. The PCEC nanoparticles were prepared at one-step by modified emulsion solvent evaporation method using CTAB as stabilizer. With increase in PCEC concentration, the particle size increased obviously, but zeta potential only increased slightly. The obtained cationic PCEC nanoparticle was employed to condense and adsorb DNA onto its surface. Plasmid GFP (pGFP) was used as model plasmid to evaluate the loading capacity of cationic PCEC nanoparticles in this work. The DNA/nanoparticles weight ratio at 1:16 induced almost neutral zeta potential of DNA-nanoparticles complex. At this time, the size of complex became abnormally large which implied aggregates formed. So DNA-nanoparticles weight ratio should be chosen carefully. The cationic PCEC nanoparticles had the capacity of condensing plasmid DNA into complex when the DNA/nanoparticles weight ratio was lower than 1:8, which was evidenced by gel retardation assay. In vitro release behavior of DNA/nanoparticle complexes was also studied here. The obtained cationic PCEC nanoparticles might have great potential application in DNA delivery.
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PMID:One-step preparation of poly(epsilon-caprolactone)-poly(ethylene glycol)-poly(epsilon-caprolactone) nanoparticles for plasmid DNA delivery. 1806 61

The aqueous solutions of triblock copolymers of poly(ethylene glycol)-poly(epsilon-caprolactone-co-glycolide)-poly(ethylene glycol) [PEG-P(CL-GA)-PEG] undergoing sol-gel transition as the temperature increases from 20 to 60 degrees C were successfully prepared. The thermogelling block copolymers were synthesized by subtle control of the hydrophilic/hydrophobic balance and the chain microstructures. The amphiphilic block copolymer formed micelles in aqueous solution, and the micelle aggregated as the temperature increased. The sol-gel transition of the copolymer aqueous solutions was studied focusing on the structure-property relationship. GA was incorporated into the polymer chain to prevent crystallization of PCL component and increase the polymer degradation. It is expected to be a promising long-term delivery system for pH-sensitive drugs, proteins, and genes.
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PMID:Biodegradable and thermoreversible hydrogels of poly(ethylene glycol)-poly(epsilon-caprolactone-co-glycolide)-poly(ethylene glycol) aqueous solutions. 1808 Mar 6

Recently, biodegradable nanoparticles based on block copolymers have attracted attention as effective drug delivery vehicles. Maximizing the amount of drug loaded into particle is the desired goal, but loadings of only between 3 to about 25 wt% drug (for paclitaxel) are found experimentally. The reasons for the low loading and variability in loading have not been fully explained. In this study, a model is presented that quantitatively explains the observed phenomena. The thermodynamic model of drug loading is based on the molar free energy of the drug, which depends on the block copolymers size (entropic term), the interaction parameter between the drug and the hydrophobic core (enthalpic term), and the pressure-volume work to load the particle. The pressure-volume work, related directly to the interfacial tension between the core and the corona region, has not been previously considered with respect to drug loading. To validate the model, calculations were compared with experimental results for organic solutes, including paclitaxel, loaded into poly(ethylene glycol)-b-poly(epsilon-caprolactone), PEG-b-PCL block copolymer micelles. The model developed was found to predict the loading values in close agreement with experiments reported in the literature.
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PMID:Thermodynamic limits on drug loading in nanoparticle cores. 1830 Feb 78

Smooth muscle cells (SMC) were cultured for up to 6 days on copolymer films fabricated from a PCL-PEG-PCL block copolymer or P(epsilon-CL-co-D,L-LA)-PEG-P(epsilon-CL-co-D,L-LA), named P(100/0) and P(70/30), respectively. The films were modified by aminolysis using 1,6-hexanediamine, and fibronectin, fibrinogen, or fibrin layers were subsequently immobilized by physisorption or by covalent coupling using imidoester chemistry. Immobilization of all the tested proteins resulted in significantly enhanced cell adhesion on these polymers. Moreover, we found that covalently immobilized proteins supported significantly greater cell proliferation than physisorbed proteins over 6 days. SMC cultured on P(100/0) films modified by covalently attached fibronectin or fibrin layers proliferated at a rate comparable to that observed on control tissue culture polystyrene. The proposed surface modification schemes were much less efficient in improving cell attachment and proliferation on P(70/30) films. However, prewetting P(70/30) with a phosphate buffer prior to aminolysis significantly improved cell numbers following immobilization of fibronectin. Immunostaining of smooth muscle-specific alpha-actin of SMC grown on protein-modified P(100/0) 8 h and 48 h after cell seeding, confirmed preserved SMC phenotype on all modified surfaces.
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PMID:Enhanced smooth muscle cell adhesion and proliferation on protein-modified polycaprolactone-based copolymers. 1830 10

The concept of this research is using poly(beta-amino ester) (PAE) as a duo-functional group for synthesis of the novel sensitive injectable hydrogel for controlled drug/protein delivery. Firstly, PAE made of 1,4-butanediol diacrylate and 4,4'-trimethylene dipiperidine is used as a pH-sensitive moiety to conjugate to the temperature-sensitive biodegradable triblock copolymer of poly(ethylene glycol)-poly(epsilon-caprolactone) (PCL-PEG-PCL) to manufacture pH/temperature-sensitive injectable hydrogel of pentablock copolymer PAE-PCL-PEG-PCL-PAE. Furthermore, the cationic nature of PAE is used as the second function to make the ionic complexes with anionic biomolecule loaded into the hydrogel such as insulin. As a result, the release of drug/protein from this hydrogel device can be controlled by the degradation of copolymer. Sol-gel phase transition behavior of PAE-PCL-PEG-PCL-PAE block copolymer was investigated; the results showed that the aqueous media of the pentablock copolymer changed from a sol to a gel phase with increasing temperature and pH. The effect of anionic biomolecule such as insulin on sol-gel phase transition, degradation of the complex gel of the material with insulin was studied in vitro. Then the schematic of the ionic complexes between positive charges in PAE and the negatively charges in protein was simulated. In addition, the mechanism of controlled release behavior of insulin from the complex gel was supposed, which includes the chemically-controlled and diffusion-controlled stages. To prove the simulations, the cumulative release of the protein from the complex gel was investigated in vitro with different methods. Furthermore, the pharmacokinetic release of insulin from the complex gel in vivo on male Sprague-Dawley (SD) rats was compared with that from triblock copolymer hydrogel of PCL-PEG-PCL.
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PMID:Functionalized injectable hydrogels for controlled insulin delivery. 1832 7

Targeted delivery is a highly desirable strategy to improve the diagnostic imaging and therapeutic outcome because of enhanced efficacy and reduced toxicity. In the current research, anticancer drug doxorubicin (DOX) and contrast agent for magnetic resonance imaging (MRI), herein superparamagnetic ion oxide Fe(3)O(4) (SPIO), were accommodated in the core of micelles self-assembled from amphiphilic block copolymer of poly(ethylene glycol) (PEG) and poly(epsilon-caprolactone) (PCL) with a targeting ligand (folate) attached to the distal ends of PEG (Folate-PEG-PCL). The in vitro tumor cell targeting efficacy of these folate functionalized and DOX/SPIO-loaded micelles (Folate-SPIO-DOX-Micelles) was evaluated upon observing cellular uptake of micelles by human hepatic carcinoma cells (Bel 7402 cells) which overexpresses surface receptors for folic acid. In the Prussian blue staining experiments, cells incubated with Folate-SPIO-DOX-Micelles showed much higher intracellular iron density than the cells incubated with the folate-free SPIO-DOX-Micelles. According to the flow cytometry data, cellular DOX uptake observed for the folate targeting micelle was about 2.5 fold higher than that for the non-targeting group. Furthermore, MTT assay showed that Folate-SPIO-DOX-Micelles effectively inhibited cell proliferation, while the folate-free SPIO-DOX-Micelles did not show the same feat at comparable DOX concentrations. The potential of Folate-SPIO-DOX-Micelle as a novel MRI-visible nanomedicine platform was assessed with a 1.5 T clinical MRI scanner. The acquired MRI T (2) signal intensity of cells treated with the folate targeting micelles decreased significantly. By contrast, T (2) signal did not show obvious decrease for cells treated with the folate-free micelles. Our results indicate that the multifunctional polymeric micelles, Folate-SPIO-DOX-Micelles, have better targeting tropism to the hepatic carcinoma cells in vitro than their non-targeting counterparts, and the cell targeting events of micelles can be monitored using a clinical MRI scanner.
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PMID:Folate-functionalized polymeric micelle as hepatic carcinoma-targeted, MRI-ultrasensitive delivery system of antitumor drugs. 1835 Mar 80

For the fabrication of magnetically supramolecular hydrogels, the aqueous colloidal dispersion of magnetic iron oxide nanoparticles was first stabilized by an amphiphilic poly(epsilon-caprolactone)-poly(ethylene glycol) (PEG-PCL) block copolymer and then mixed with an aqueous solution of a cyclic oligosaccharide. Due to the host-guest interaction between the used block copolymer and the cyclic oligosaccharide in the aqueous mixed system, such a fabrication process could result in the formation of a novel hydrogel nanocomposite with superparamagnetic property, as confirmed by the analyses from rheology and X-ray diffraction as well as magnetization curve measurements. For the resultant magnetically supramolecular hydrogel, its formation kinetics and mechanical strength could be modulated by the amount of the used PEG-PCL block copolymer, the cyclic oligosaccharide, or the incorporated iron oxide nanoparticles.
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PMID:Fabrication and modulation of magnetically supramolecular hydrogels. 1843 60

A novel drug carrier for brain delivery, poly(ethyleneglycol)-poly(epsilon-caprolactone) (PEG-PCL) polymersomes conjugated with mouse-anti-rat monoclonal antibody OX26 (OX26-PO), was developed and its brain delivery property was evaluated. The diblock copolymers of methoxy-PEG-PCL and Maleimide-PEG-PCL were synthesized and applied to prepare polymersomes (PO) which were verified by direct cryogenic temperature transmission electron micrograph (Cryo-TEM) imaging. The TEM examination and dynamic light scattering results showed that OX26-PO had a round and vesicle-like shape with a mean diameter around 100 nm. Coupling of OX26 with PO was confirmed by immuno-gold labeling of OX26 visualized under the TEM and X-ray photoelectron spectroscopy test. The surface OX26 densities were obtained from enzyme-linked immunosorbant assay. The result of brain delivery in rats proved that the increase of surface OX26 density of OX26-PO decreased blood AUC. The optimized OX26 number conjugated per polymersome was 34, which can acquire the greatest blood-brain barrier (BBB) permeability surface area product and percentage of injected dose per gram brain (%ID/g brain). Furthermore, NC-1900, as a model peptide, was encapsulated into OX26(34)-PO and improved the scopolamine-induced learning and memory impairments in a water maze task via i.v. administration. These results indicated that OX26(34)-PO is a promising carrier for peptide brain delivery.
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PMID:Preparation and brain delivery property of biodegradable polymersomes conjugated with OX26. 1843 27

Thermo-responsive multiblock poly(ester urethane)s comprising poly(epsilon-caprolactone) (PCL), poly(ethylene glycol) (PEG), and poly(propylene glycol) (PPG) segments were synthesized. The copolymers were characterized by GPC, NMR, FTIR, XRD, DSC and TGA. Water-swelling analysis carried out at different temperatures revealed that the bulk hydrophilicity of the copolymers could be controlled either by adjusting the composition of the copolymer or by changing the temperature of the environment. These thermo-responsive copolymer films formed highly swollen hydrogel-like materials when soaked in cold water and shrank when soaked in warm water. The changes are reversible. The mechanical properties of the copolymer films were assessed by tensile strength measurement. These copolymers were ductile when compared to PCL homopolymers. Young's modulus and the stress at break increased with increasing PCL content, whereas the strain at break increased with increasing PEG content. The results of the cytotoxicity tests based on the ISO 10993-5 protocol demonstrated that the copolymers were non-cytotoxic and could be potentially used in biomedical applications.
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PMID:Synthesis and water-swelling of thermo-responsive poly(ester urethane)s containing poly(epsilon-caprolactone), poly(ethylene glycol) and poly(propylene glycol). 1845 19


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