Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phase separation of binary blends of various combinations of poly (L-lactide) (PLA), and poly (D,L-lactide-co-glycolide) (PLGA), was investigated using differential scanning calorimetry (DSC). Based on this phase separation phenomenon, double-walled microspheres were fabricated. A model agent, bovine serum albumin (BSA) labeled with fluorescein isothiocyanate (FITC-BSA) was localized in each layer. Scanning electron microscopy (SEM) and fluorescence microscopy (FM) were used to assess the formation of double-walled microspheres and the localization of the drug, respectively. When a 1:1 polymer ratio was used, the FITC-BSA was localized in the outer layer. When the relative ratio of PLGA to PLA was increased to 3:1 using the same overall polymer concentration, the FITC-BSA was localized in the inner core. Release studies were carried out to evaluate the advantage of double-walled microspheres compared to single walled microspheres. Microspheres made with FITC-BSA localized in the inner core exhibited a significantly lower initial release rate compared to microspheres where the drug was located in the outer layer, or compared to microspheres made from PLA only. Hence microspheres with a double-walled morphology have the potential for therapeutic use where a high burst might be detrimental.
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PMID:Localization of bovine serum albumin in double-walled microspheres. 1468 80

Stable protein nanostructured particles, produced by spray freezing into liquid (SFL) nitrogen, were encapsulated uniformly into microspheres to reduce the burst release over the first 24 h. The denaturation and aggregation of these bovine serum albumin (BSA) high-surface area particles were minimal due to ultra-rapid freezing and the absence of a liquid-air interface. Upon sonication, these friable highly porous, solid protein particle aggregates broke up into submicron particles. These particles were encapsulated into DL-lactide/glycolide copolymer (PLGA) and poly(lactic acid) (PLA) microspheres by anhydrous solid-in-oil-in-oil (s/o/o) techniques. For 5% loading of protein, the burst release after 24 h was only 2.5-4.1%, that is, values fivefold to tenfold lower than those observed for larger more conventional BSA particles. At a loading of 10%, the burst was only 6 and 13% for PLGA and PLA, respectively, and at 15% loading it was only 12% for PLGA. As shown with confocal and scanning electron microscopy (SEM), the low burst is consistent with a uniform distribution of protein nanoparticles, which were about 100 times smaller than the microspheres. Changes in aggregation and secondary structure, which were monitored by size exclusion chromatography and FTIR, respectively, indicated only slight monomer loss (3.9%) and high structural integrity (38% alpha-helix) in the encapsulated protein.
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PMID:Uniform encapsulation of stable protein nanoparticles produced by spray freezing for the reduction of burst release. 1576 30

We have prepared a semi-interpenetrating network (IPN) of poly(ethylene glycol) dimethacrylate (PEGDMA) with entrapped poly(D,L-lactide) (PLA) using photochemical techniques. These IPNs were developed for the controlled delivery of protein drugs such as growth factors. The PEG component draws water into the network, forming a hydrogel within the PLA matrix, controlling and facilitating release of the protein drug, while the PLA component both strengthens the PEG hydrogel and enhances the degradation and elimination of the network after the protein drug is released. The rate and extent of swelling and the resultant protein release kinetics could be controlled by varying the PEG/PLA ratio and total PLA content. These IPNs were prepared using a biocompatible benzyl benzoate/benzyl alcohol solvent system that yields a uniform, fine dispersion of the protein throughout the PEG/PLA IPN matrix. IPNs composed of high molecular mass PLA and lower PEG/PLA ratios exhibited lower equilibrium swelling ratios. The release of bovine serum albumin (BSA), a model protein, from these IPNs was characterized by a large initial burst, regardless of the PEG/PLA ratio, due to the entrapment of residual solvent within the network. Microparticles of the PEG/PLA IPNs were also prepared using a modified Prolease strategy. Residual solvent removal was significantly enhanced using this process. The microparticles also exhibited a significant reduction in the initial burst release of protein. Mixtures of different compositions of PEG/PLA microparticles should be useful for the delivery of a variety of protein drugs with different release kinetics from any tissue-engineering matrix.
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PMID:Semi-interpenetrating network of poly(ethylene glycol) and poly(D,L-lactide) for the controlled delivery of protein drugs. 1579 85

Our newly developed drug delivery carrier, cationic bovine serum albumin (CBSA) conjugated with poly(ethyleneglycol)-poly(lactide) (PEG-PLA) nanoparticle (CBSA-NP), was designed for brain drug delivery. CBSA, as a brain specific targetor, was covalently conjugated with the maleimide function group at the distal of poly(ethyleneglycol) (PEG) surrounding the nanoparticles. To evaluate its blood-brain barrier (BBB) transcytosis and toxicity against the BBB endothelial tight junction, we have explored a method of coculture with brain capillary endothelial cells (BCECs) on the top of micro-porous membrane of cell culture insert and astrocytes on the bottom side. The permeability of 14C-labeled sucrose was determined. For the CBSA-NP transcytosis study, a lipophilic fluorescent probe, 6-coumarin, was incorporated into nanoparticles. The BBB permeability of CBSA-NP in vitro was calculated and compared with native bovine serum albumin (BSA) conjugated pegylated nanoparticles (BSA-NP). As the coculture model, the transendothelial electrical resistance reached up to 313+/-23 ohms cm2. The tight junction between BCECs in the coculture could be visualized by scanning electron microscopy and transmission electron microscopy. The unchanged permeability of 14C-labeled sucrose comparing to that in the appearance of 200 microg/ml of CBSA-NP proved that CBSA-NP did not impact the integrity of BBB endothelial tight junctions. CBSA-NP also showed little toxicity against BCECs. The permeability of CBSA-NP was about 7.76 times higher than that of BSA-NP, while the transcytosis was inhibited in the excess of free CBSA. It was concluded that CBSA-NP preferentially transported across BBB with little toxicity, which offered the possibility to deliver therapeutic agents to CNS.
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PMID:Cationic albumin conjugated pegylated nanoparticle with its transcytosis ability and little toxicity against blood-brain barrier. 1584 9

A new tadpole-shaped polymer was synthesized via the coupling reaction of poly(DL-lactide) (PLA) onto mono(6-(2-aminoethyl)amino-6-deoxy)-beta-cyclodextrin (CDen) using N,N'-Dicyclohexycarbodiimide as the catalyst. The structures of CDenPLA as the products were characterized with infrared spectrometry, nuclear magnetic resonance and their molecular weights were determined by gel permeation chromatography. The tadpole-shaped polymer possessed both a hydrophilic head that could bind some residues on a protein and a hydrophobic polylactide tail so that it could be amphiphilic. Two methods, double emulsion (DE) and nanoprecipitation (NP), were employed to fabricate the polymeric nanoparticles into which the bovine serum albumin was loaded as a model protein. The nanoparticles with a hydrophobic core of the PLA segments covered with the hydrophilic corona layer of the cyclodextrin moiety could be formed from the copolymers using NP method as identified by 1HNMR. Influence of the preparation conditions on the nanoparticles size, encapsulation efficiency and release profile in vitro was investigated. The encapsulation efficiency of the BSA-loaded nanoparticles with the average diameter of 377 nm was 71.6% under an optimized condition. The structure maintenance in the nanoparticle preparation and release in vitro was also measured via sodium dodecyl sulfate polyacrylamide gel electrophoresis and circular dichroism spectrometry. The results showed that the new copolymer could load BSA effectively and BSA kept stable after it was released from the nanoparticles.
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PMID:Synthesis of a biodegradable tadpole-shaped polymer via the coupling reaction of polylactide onto mono(6-(2-aminoethyl)amino-6-deoxy)-beta-cyclodextrin and its properties as the new carrier of protein delivery system. 1609 47

In this paper, a novel drug carrier for brain delivery, cationic bovine serum albumin (CBSA) conjugated with poly(ethyleneglycol)-poly(lactide) (PEG-PLA) nanoparticle (CBSA-NP), was developed and its effects were evaluated. The copolymers of methoxy-PEG-PLA and maleimide-PEG-PLA were synthesized by ring opening polymerization of D,L-lactide initiated by methoxy-PEG and maleimide-PEG, respectively, which were applied to prepare pegylated nanoparticles by means of double emulsion and solvent evaporation procedure. Native bovine serum albumin (BSA) was cationized and thiolated, followed by conjugation through the maleimide function located at the distal end of PEG surrounding the nanoparticle's surface. Transmission electron micrograph (TEM) and dynamic light scattering results showed that CBSA-NP had a round and regular shape with a mean diameter around 100 nm. Surface nitrogen was detected by X-ray photoelectron spectroscopy (XPS), and colloidal gold stained around the nanoparticle's surface was visualized in TEM, which proved that CBSA was covalently conjugated onto its surface. To evaluate the effects of brain delivery, BSA conjugated with pegylated nanoparticles (BSA-NP) was used as the control group and 6-coumarin was incorporated into the nanoparticles as the fluorescent probe. The qualitative and quantitative results of CBSA-NP uptake experiment compared with those of BSA-NP showed that rat brain capillary endothelial cells (BCECs) took in much more CBSA-NP than BSA-NP at 37 degrees C, at different concentrations and time incubations. After a dose of 60 mg/kg CBSA-NP or BSA-NP injection in mice caudal vein, fluorescent microscopy of brain coronal sections showed a higher accumulation of CBSA-NP in the lateral ventricle, third ventricle and periventricular region than that of BSA-NP. There was no difference on BCECs' viability between CBSA-conjugated and -unconjugated pegylated nanoparticles. The significant results in vitro and in vivo showed that CBSA-NP was a promising brain drug delivery carrier with low toxicity.
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PMID:Cationic albumin-conjugated pegylated nanoparticles as novel drug carrier for brain delivery. 1617 44

Certain denatured proteins function as cofactors in the activation of plasminogen by tissue-type plasminogen activator. The present study approached the structural requirements for the cofactor activity of a model protein (human serum albumin). Heat denaturation of 100-230 microM albumin (80 degrees C and 60-90 min) reproducibly yielded aggregates with radius in the range of 10-150 nm. The major determinant of the cofactor potency was the size of the aggregates. The increase of particle size correlated with the cofactor activity, and there was a minimal requirement for the size of the cofactor (about 10 nm radius). Similar to other proteins, the molecular aggregates with cofactor function contained a significant amount of antiparallel intermolecular beta-sheets. Plasmin pre-digestion increased the cofactor efficiency (related to C-terminal lysine exposure) and did not affect profoundly the structure of the aggregates, suggesting a long-lasting and even a self-augmenting cofactor function of the denatured protein.
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PMID:Structural basis of the cofactor function of denatured albumin in plasminogen activation by tissue-type plasminogen activator. 1643 33

Only limited comparable data are available on the clot lysis power of the clinically used plasminogen activators (PA). Here the PA were used at different clinically relevant concentrations, and the lysis of the microclots was determined. A microclot lysis assay was used to study thrombolysis by urokinase, tissue-PA (t-PA), streptokinase, plasminogen-streptokinase activator complex (PSAC), reteplase, or tenecteplase. The clot turbidity served as a tool to determine clot mass: 100 microL fresh microclots were incubated with 25 microL PA in 6% bovine serum albumin (BSA)-phosphate-buffered saline (PBS) and 100 microL BSA-PBS or pooled normal human plasma; that is, the PA were in the liquid supernatant of a plasma clot and were not entrapped in the clot, an assay system comparable to normal physiology. The turbidity was determined after 0 to 5 hours (37 degrees C) by a microtiter plate reader. The lysable clot turbidity (clot mass) was expressed in percent of 100% lysable clot control. The clot lysis activity is 100% minus the clot mass in percent. The effective doses at 50% (ED(50)) of lysis of fresh clots after 4 hours (37 degrees C) with 6% BSA or pooled normal human plasma in the clot-supernatant were urokinase 128 or 180 IU/mL; t-PA 0.3 or 0.2 microg/mL; streptokinase 215 or 1371 IU/mL; PSAC 60 or 91 U/mL; reteplase 664 or 996 U/mL; tenecteplase 0.2 or 0.2 microg/mL. The presence of a plasma thrombus with plasma supernatant increases the activity of t-PA approximately 20-fold and that of tenecteplase approximately 400-fold after 4 hours (37 degrees C), when compared to urokinase; in contrast, the lytic activity induced by reteplase decreases; i.e., the plasmin generated by reteplase is hampered on its lytic action against a thrombus. When comparing the clot lysability of microclots of 29 different donors, the only correlation (r > 0.6) was that between u-PA and t-PA. The lysability of individual clots by PA can be measured with the present routine-suited technique. It is suggested that different thrombolytic agents or concentrations thereof would have a different clinical outcome in different individuals.
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PMID:In vitro simulation of therapeutic thrombolysis with microtiter plate clot-lysis assay. 1644 31

Protein instability during microencapsulation has been one of the major hurdles of biodegradable polymer particles-based vaccine delivery systems. In the present work, effect of serum albumin, sucrose and sodium bicarbonate on surface morphology, entrapment efficiency, in vitro release and in vivo performance tetanus toxoid (TT) loaded PLA particles were investigated. Use of serum albumin as well as high concentration of protein antigen ( approximately 60mg/ml) helped in protecting the immunoreactivity of the antigen during primary emulsification step of particle formulation. Incorporation of sucrose in the internal aqueous phase led to the reduction in encapsulation efficiency of TT from 43.8+/-4.3% to 27.3+/-3.6% in PLA particles and resulted with formation of particles having irregular surface characteristics. Addition of sodium bicarbonate along with sucrose during primary emulsion led to slight improvement in encapsulation efficiency of TT (34.3+/-3.2%) but affected the in vivo performance in terms of serum anti-TT antibody titers from single point immunization. Restoration of osmotic balance by adding equivalent amount of sucrose in external aqueous phase helped in preventing multiple emulsion instability and subsequently improved the encapsulation efficiency of TT to 63.1+/-4.2%. Maximum entrapment efficiency of TT up to 69.2+/-5.1% was achieved when serum albumin, sucrose and sodium bicarbonate were used in internal aqueous phase and sucrose was used in the external aqueous phase. Polymer particles entrapping tetanus toxoid along with optimal stabilizers showed burst release of immunoreactive antigen (>40% in early period) and elicited high and sustained anti-TT antibody titers from single point intramuscular immunization. Anti-TT antibody titers were further enhanced upon immunization of admixture of PLA particles and alum. Choice and use of stabilizers during particle formulation thus need careful considerations not only to protect the immunoreactivity of the antigen, but also to produce stable, uniform particles for optimal in vivo performances.
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PMID:Influences of excipients on in vitro release and in vivo performance of tetanus toxoid loaded polymer particles. 1651 32

Some biodegradable amphiphilic copolymers were synthesized by conjugating poly(DL-lactic acid) (PLA) onto ethylenediamino or diethylenetriamino bridged bis(beta-cyclodextrin)s (bis-CDs). Double emulsion (DE) and nanoprecipitation (NP) methods were used to fabricate the nanoparticles of these copolymers entrapping bovine serum albumin (BSA) as a model protein. Effects of the experimental parameters, such as copolymer composition, BSA concentration, copolymer concentration and poly(vinyl alcohol) concentration, on particular size and encapsulation efficiency (EE) were investigated. Their EE to BSA could reach 83.5% at an optimized condition owing to the cooperative binding effect of the CD moiety with BSA. The core-corona structure of copolymer micelles fabricated from the nanoprecipitation was studied on the basis of 1H NMR and other measurements at various temperatures. The results showed that the core-corona structure kept stable below 50 degrees C (lower than Tg). And increase of the micelle association number occurred above the Tg because the size of the NPs became larger and proton signals of the liquid-like PLA cores could be observed in 1H NMR in D2O at 60 degrees C. The release profiles of NPs showed a burst effect followed by a continuous release. Sodium dodecyl sulfate polyacrylamide gel electrophoresis, circular dichroic and fluorescence spectra were further used to identify the stability of BSA released from the NPs. The nanoparticles from the conjugates have a promising potential in nasal delivery system.
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PMID:Conjugates of poly(DL-lactic acid) with ethylenediamino or diethylenetriamino bridged bis(beta-cyclodextrin)s and their nanoparticles as protein delivery systems. 1661 67


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