UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MPOE-PLA microspheres containing bovine serum albumin (BSA) were prepared by the double emulsion method with high encapsulation efficiency ( approximately 93%). Confocal scanning microscopic analysis using MPOE-PLA labelled with 1-pyrenemethanol showed the MPOE coating of the microsphere surface. This coating improves the performance of the release system compared with PLA microspheres; the hydrophilic chains reduce the BSA adsorption onto the microspheres and increase the amount of BSA released in the supernatant. Microsphere analysis using atomic force microscopy showed that the presence of the MPOE chains also leads to surface roughness. Studies of the diffusion of 1% rhodamine aqueous solution into the microspheres by means of confocal microscopy showed a fast diffusion of water through the matrices containing high molecular weight MPOE chains (?10 000 g mol-1) and could explain the fast release of BSA from these microspheres.
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PMID:Protein encapsulation in biodegradable amphiphilic microspheres. 1037 Feb 12

This paper deals with the preparation and the characterization of poly(lactic acid) (PLA) nanoparticles containing protein C, a plasma inhibitor. Nanoparticles were prepared by the double emulsion method (w/o/w), using methylene chloride as an organic solvent and polyvinyl alcohol (PVA) or human serum albumin (HSA) as a surfactant. The influence of experimental constraints such as sonication and organic solvent on protein C activity was evaluated. It appears that a short time of sonication as well as the addition of acetone to methylene chloride (1/1) limited the lost of protein C activity. The study of protein C adsorption on blank PLA nanoparticles gave evidence to hydrophobic interactions between these two entities. The increase in PLA molecular weight on the characteristics of the protein C-loaded nanoparticles led to both a slightly decreased particle size and a lower polydispersity index, whereas the entrapment efficiency of protein C was not affected. The use of HSA as a surfactant allowed the increase in the entrapment efficiency of protein C but prevented its release. Finally, the evaluation of the activity of released protein C clearly illustrates that it was disturbed during the nanoparticle preparation. Thus, the obtained results emphasize the potential of protein C-loaded biodegradable nanoparticles for protein progressive delivery in plasma.
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PMID:Preparation and characterization of protein C-loaded PLA nanoparticles. 1042 24

The development of a single-dose tetanus vaccine based on Poly(Lactic acid) (PLA) or Poly(Lactide-co-Glycolide) (PLGA) microspheres has been complicated due to the instability of tetanus toxoid (TT) inside these systems. Herein we report an attempt to re-design PLGA microspheres by co-encapsulating TT in the dry solid state together with potential protein stabilizers, such as trehalose, bovine serum albumin, alginate, heparin, dextran or poloxamer 188 and by using an appropriate microencapsulation technique. These newly developed PLGA microspheres were able to release in vitro antigenically active TT for at least 5 weeks, the amount released being highly dependent on the stabilizing excipient used. More specifically, results showed that dextran and heparin provided a particularly stabilizing environment for TT inside the microspheres during the polymer degradation process. The efficacy of this strategy was demonstrated by the high, long lasting titers of neutralizing antibodies achieved after in vivo administration of dextran-containing microspheres with a small amount of alum-adsorbed TT, as compared to the commercial adsorbable tetanus vaccine. These findings suggest that future developments in the area of vaccinology depend on ability to combine a detailed knowledge of the microencapsulation technology with a rational choice of stabilizing excipient or combination of excipients.
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PMID:Formulation strategies for the stabilization of tetanus toxoid in poly(lactide-co-glycolide) microspheres. 1046 Sep 20

The development of injectable nanoparticulate "stealth" carriers for protein delivery is a major challenge. The aim of this work was to investigate the possibility of achieving the controlled release of a model protein, human serum albumin (HSA), from poly(ethylene glycol) (PEG)-coated biodegradable nanospheres (mean diameter of about 200 nm) prepared from amphiphilic diblock PEG-poly(lactic acid) (PLA) copolymers. HSA was efficiently incorporated into the nanospheres, reaching loadings as high as 9% (w/w). Results of the in vitro release studies showed that it is possible to control the HSA release by choosing the appropriate nanosphere size, loading, and composition. These results also revealed that, following their release, HSA molecules readsorbed onto the nanospheres surfaces when they were not protected by a PEG coating. We were surprised to observe that in spite of the water uptake of the PLA-PEG nanospheres [11-29% (w/w)], the copolymer did not significantly degrade after a 15-day incubation period. Therefore, we concluded that during this time HSA release from PLA-PEG nanospheres followed a diffusion mechanism where bulk erosion and surface desorption were negligible.
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PMID:Protein encapsulation within poly(ethylene glycol)-coated nanospheres. II. Controlled release properties. 1048 91

Phospholipase A(1) (PLA(1)), which catalyzes the hydrolysis of the sn-1 ester bond of diacyl phospholipids, was purified from 100,000 x g supernatant of bonito muscle to homogeneity by ammonium-sulfate precipitation and four consecutive column chromatographies (DEAE anion-exchange, ether-Toyopeal, hydroxylapatite and Toyopeal HW 50S columns). The final preparation showed a single band above the 67-kDa molecular marker on SDS-PAGE, and the molecular mass was determined to be 71.5 kDa by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry using bovine serum albumin as a standard for calibration. The N-terminal 8 amino residues were determined to be Ala-Pro-Ala-Glu-Lys-Val-Lys-Try. Regiospecificity of multiple enzyme activities of the PLA(1) was examined using positionally defined synthetic phosphatidylcholine (PC) and lysophosphatidylcholines (LPC). An acyl ester bond at the sn-1 position of PC was exclusively hydrolyzed by phospholipase activity, and 1-acyl LPC was cleaved to fatty acid and glycerophosphocholine by lysophospholipase (LPL) activity. However, the positional isomer, 2-acyl LPC was a poor substrate for LPL activity. PC/transacylation activity was also observed when excess 2-acyl LPC was supplied in the reaction mixture, and fatty acid at the sn-1 position of donor PC was transferred to the sn-1 position of acceptor LPC. These results demonstrate that the multiple enzyme activities of PLA(1), this is lysophospholipase, transacylase as well as phospholipase, have a strict regiospecificity at the sn-1 position of substrates.
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PMID:Purification and regiospecificity of multiple enzyme activities of phospholipase A(1) from bonito muscle. 1066 67

Sterically stabilized biocompatible poly(lactic acid) (PLA) nanospheres were prepared by an o/w emulsion/evaporation technique, using hydrophobically modified dextrans (DexP) as the emulsion stabilizer. Photon correlation spectroscopy, zetametry, and differential scanning calorimetry studies corroborated that interfacial adhesion between immiscible dextran and PLA chains was achieved by compatibilization of polymer segments via hydrophobic groups grafted onto dextran and thus leading to the formation of entanglements between the hydrophobic dextran parts and the PLA matrix. The presence of dextran exposed at the particle surface was confirmed by X-ray photoelectron spectroscopy and by the fact that the suspensions showed an increased stability in concentrated NaCl solutions and a reduction of bovine serum albumin adsorption compared to uncoated PLA nanoparticles. A comparison of the characteristics of PLA nanospheres DexP-coated via the emulsion procedure (NS(em)) with those of PLA particles coated by DexP adsorption (NS(ad)) suggests that the conformation of the polymer in the superficial layers may be different. However, both DexP layers behave similarly in terms of stability and protein adsorption.
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PMID:Surface modification of poly(lactic acid) nanospheres using hydrophobically modified dextrans as stabilizers in an o/w emulsion/evaporation technique. 1075 14

Microparticles were produced by spray-drying from a high molecular weight polylactide (PLA R207) for the development of long-lasting controlled release systems of vaccines, which may be designed to obviate the need for booster doses. The current investigation considered the effect of both technological parameters (inlet air temperature and spray rate of feed) and polymeric solutions (polymer concentration and nature of organic solvents) on characteristics of microparticles (morphology, size and antigen loading) containing a water-soluble model antigen (bovine serum albumin, BSA). Following parameters chosen, microparticles were characterized by a mean size from 3.08 +/- 0.06 to 9.43 +/- 0.26 microm and a BSA loading from 2.45 +/- 0.13 to 18.20 +/- 2.25% (w/w). The BSA release rate from microparticles varied from 11.17 +/- 2.20 to 92.60 +/- 3.46% in 24 h. The modification of the inlet temperature, the spray-rate of feed or the use of a mixture of dichloromethane/chloroform (DCM/CFM) instead of DCM alone resulted in the modification of the BSA burst release. This burst release was followed by a BSA release rate slower for microparticles with a low BSA loading. Moreover, the increase of the R207 concentration resulted in a decrease of the BSA release rate while the burst release was not modified. SDS-PAGE electrophoresis and isoelectric focusing analyses of the BSA released from microparticles confirmed the preservation of its physicochemical characteristics. Together, results showed that the spray-dried microparticles loaded with hydrophilic antigen could be used as a potential delivery system for the long-lasting controlled release of vaccines.
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PMID:Parameters influencing the antigen release from spray-dried poly(DL-lactide) microparticles. 1084 95

A new type of surface modification with reactive polymeric micelle was carried out for the creation of non-fouling surface. Amphiphilic poly(ethylene glycol)-b-poly(D,L lactide) (PEG/PLA) copolymers possessing acetal group at PEG-end and methacryloyl group at PLA-end were quantitatively synthesized via an anionic polymerization technique. A micelle of narrow distribution was prepared from the block copolymer. Acetal groups on the micelle surface were quantitatively converted into aldehyde group by an acid treatment. The methacryloyl group located in the core of the micelle was polymerized via radical polymerization to form core-polymerized micelle having reactive aldehyde groups on the surface. The core-polymerized reactive micelle was coated to a primary amino-containing polypropylene (PP) plate that was prepared by a plasma treatment. A reductive amination reaction was employed for a conjugation of the reactive core-polymerized micelle on the surface via a covalent linkage. The coating was evaluated by X-ray photoelectron spectroscopy, zeta-potential measurement, and the adsorption of bovine serum albumin, and compared with the PEG-coating under the same condition. The ratio of peak from &Cmacr;&z.sbnd;O bond to C&z.sbnd;&Cmacr;&z.sbnd;C bond indicated that the density of PEG on the surface was higher for the micelle coating than the linear PEG-coating. This is also confirmed by the zeta-potential measurement. By coating the amino-PP surface with micelle, the zeta-potential was remarkably decreased while the PEG-coating under the same condition decreased only appreciably, indicating that micelle coating efficiently masked the surface charge. Further, micelle-covered surface exhibited reduction of protein adsorption. The reduction of protein adsorption along with remarkably masked surface charge implies the high applicability of the micelle coatings to biomedical and bioanalytical applications.
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PMID:Preparation of non-fouling surface through the coating with core-polymerized block copolymer micelles having aldehyde-ended PEG shell. 1091 55

Alterations in phospholipase A(2) (PLA(2)) activity have been implicated in Alzheimer disease and other neurological disorders, although brain PLA(2) activity is currently measured using lengthy, non-continuous assays. We describe herein a rapid, continuous assay in which we measured PLA(2) activity in mouse brain cytosol (CB-57). Brains were homogenized in HEPES buffer (pH 7.5) and the cytosolic fraction was prepared by centrifugation at 25000xg for 20 min, followed by centrifugation of the supernatant at 100000xg for 60 min. Cytosolic protein content was determined using the Bradford assay. Pyrene labeled phosphatidylcholine was added to 50 microg of cytosolic protein in Tris buffer (pH 8.0) containing fatty acid free-bovine serum albumin for a final assay volume of 2 ml. Assay temperature was maintained at 30+/-1 degrees C. The excitation wavelength was 345 nm and emission was measured at 377 nm. Fluorescence intensity was converted to molar concentrations using a standard curve. Under these conditions, bromoenol lactone inhibited up to 58% of the PLA(2) activity with an IC(50) of 0.5 microM. In a separate experiment, lack of appreciable alternative acylhydrolase activity was verified chromatographically. Using this method, brain PLA(2) activity can be measured in a continuous, rapid, and sensitive manner.
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PMID:A continuous fluorometric assay for phospholipase A(2) activity in brain cytosol. 1104 Mar 75

The effects of various amphiphilic polymers on the kinetics of protein release from reservoir-type microspheres, prepared by a solid-in-oil-in-water emulsion-solvent evaporation method, were investigated. Bovine serum albumin (BSA), as a model protein, was firstly micronized through co-lyophilization with amphiphilic polymers, such as poly (ethylene glycol) (PEG), polyvinylpyrrolidone (PVP), and pluronic F68. This process was based on the aqueous phase separation of protein and amphiphilic polymer induced by freezing-condensation. Mixing of poly(lactic-co-glycolic acid) (PLGA) and poly(lactic acid) (PLA) (at a ratio of 4:6) in a methylene chloride solution provided a'polymer-alloy' structure, where the preformed solid BSA microparticles were selectively distributed in the inner PLGA-rich phase. The reservoir-type microspheres obtained through this process showed high entrapment efficiencies (more than 85%) and reduced initial burst releases (less than 10%). Although PVP did not modify the BSA release profile, PEG and pluronic F68 enhanced the BSA release, with no increase of the initial burst effect, responding to their loading percentage: 3% loading of PEG or pluronic F68 resulted in typical zero-order release kinetics. The abilities of these amphiphilic polymers to modify the protein release profile could be predicted from their partitioning characteristics in the polymer-alloys and in the methylene chloride/water system.
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PMID:Applicability of various amphiphilic polymers to the modification of protein release kinetics from biodegradable reservoir-type microspheres. 1115 3

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