Gene/Protein
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Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pseudolatexes of the biodegradable polyesters poly(D,L-lactide) (
PLA
) and poly(epsilon-caprolactone) (
PCL
) have been developed as potential aqueous coatings for sustained release. Since
PLA
and
PCL
are known to hydrolyze, the influence of the surfactant system, temperature, pH, and particle size on the chemical stability of the polymers as aqueous colloidal dispersions was investigated. Pseudolatexes of
PLA
and
PCL
formulated with a nonionic surfactant system were the most stable. When these dispersions were stored in unbuffered media for 350 days at 5 degrees C, only small changes in the weight-average molecular weights (Mw) of the polymers were observed. At 37 degrees C there was rapid degradation of both polymers in the dispersions. Arrhenius plots for the degradation of
PLA
and
PCL
resulted in a linear relationship for
PCL
. The nonlinear relationship for
PLA
was attributed to the polymer being in two different physical states within the 5 to 37 degrees C range which was used for the Arrhenius plots.
PCL
was in the rubbery state at all temperatures studied. Storage of the pseudolatexes in pH 1.65 buffer at 37 degrees C catalyzed the rates of degradation of both
PLA
and
PCL
. However, refrigeration of the pseudolatexes stabilized the polymers even at pH 1.65 for up to 4 months. Particle size had an insignificant effect on
PLA
and
PCL
stability in pseudolatexes prepared with either a nonionic or an anionic surfactant system.
...
PMID:Biodegradable pseudolatexes: the chemical stability of poly(D,L-lactide) and poly(epsilon-caprolactone) nanoparticles in aqueous media. 155 42
Poly(DL-lactic acid) (
PLA
), poly(epsilon-caprolactone) (
PCL
), and their copolymers (
PLA
-CL) with various monomer compositions were synthesized, and their properties as matrix for the sustained release of drugs were evaluated. The copolymerization technique produced very soft films which incorporated the drugs without deterioration of the elastic properties. Cisplatin and MD-805 were loaded in the films by casting the polymer solution containing the drugs. Fractions of the drugs released from the
PLA
-CL films were governed by the initial loading, the film thickness, and the polymer molecular weight. The drug release profiles obeyed the classical Fickian diffusion equation at least in the early stage, but significant hydrolytic degradation of the matrix polymers occurred in the later stage, influencing the kinetics of drug release. The monomer composition of copolymer affected the release profile more strongly than the initial molecular weight of the copolymer.
...
PMID:In vitro evaluation of sustained drug release from biodegradable elastomer. 179 48
A bioresorbable aliphatic polyester was synthesized by bulk copolymerization of a 1/1 M/M L,L-lactide/epsilon-caprolactone mixture using zinc metal as initiator. The actual composition of the copolymer was found to be 1.5/1 as deduced from 1H NMR spectra obtained in DMSO-d6 solutions where higher resolution was obtained as compared with chlorinated solvents. Resonances due to L-lactyl units (L) exhibited triads stereosensitivity, epsilon-oxycaproyl units (C) being sensitive to dyads. Average lengths of both poly(lactic acid) and polycaprolactone sequences were evaluated and showed the presence of rather long
PLA
blocks. Furthermore, no CLC triad signal was found, suggesting the absence of transesterification rearrangements. 10 x 10 x 2 mm specimens made of the copolymer were allowed to age in isoosmolar pH = 7.4 phosphate buffer at 37 degrees C. Degradation was monitored by various analytical techniques such as SEC, X-ray diffractometry, DSC, and 1H NMR. Data were compared with the behaviour of
PCL
and
PLA
homopolymers allowed to age under similar conditions. Crystallinity and composition changes are discussed in terms of preferential degradation in L- and C-containing amorphous domains, crystallized long
PLA
blocks being much more resistant.
...
PMID:Structural characterization and hydrolytic degradation of a Zn metal initiated copolymer of L-lactide and epsilon-caprolactone. 899 92
Poly(epsilon-caprolactone) (
PCL
) microspheres containing c. 3% bovine serum albumin (BSA) were prepared by melt encapsulation and solvent evaporation techniques.
PCL
, because of its low Tm, enabled the melt encapsulation of BSA at 75 degrees C thereby avoiding potentially toxic organic solvents such as dichloromethane (DCM). Unlike the solvent evaporation method, melt encapsulation led to 100% incorporation efficiency which is a key factor in the microencapsulation of water-soluble drugs. Examination of the stability of the encapsulated protein by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) demonstrated that protein integrity was unaffected by both methods of encapsulation. In vitro release of the protein into phosphate buffer examined at 37 degrees C from microspheres prepared by both techniques showed that the release rate from melt-encapsulated microspheres was somewhat slower compared to the release from solvent-evaporated spheres. Both released around 20% of the incorporated protein in 2 weeks amounting to approximately 6.5 micrograms mg-1 of microspheres. Although the diffusivity of macromolecules in
PCL
is rather low, it is shown that
PCL
microspheres are capable of delivering sufficient quantity of proteins by diffusion for prolonged periods to function as a carrier for many vaccines. Unlike poly(lactic acid) (
PLA
) and poly(glycolic acid) (PGA) polymers which generate extreme acid environments during their degradation, the delayed degradation characteristics of
PCL
do not generate an acid environment during protein release and, therefore, may be advantageous for sustained delivery of proteins and polypeptides.
...
PMID:Protein release from poly(epsilon-caprolactone) microspheres prepared by melt encapsulation and solvent evaporation techniques: a comparative study. 915 Nov 93
Hepatocyte transplantation may provide an alternative to orthotopic liver transplantation to treat liver failure. However, suitable systems to transplant hepatocytes and promote long-term engraftment must be developed. In this study, highly porous, biodegradable sponges were fabricated from poly (L-lactic acid) (
PLA
), and poly (DL-lacticco-glycolic acid) (PLGA), and utilized to transplant hepatocytes into the mesentery of three groups of Lewis rats. The portal vein was shunted to the inferior vena cava in one group of rats (PCS). The second group of animals received a PCS and a 70% hepatectomy on the day of sponge-hepatocyte implantation (PCS +
HEP
), and the control group (CON) received no surgical stimulation. The sponges were vascularized by ingrowth of fibrovascular tissue over the first 7 days in vivo. Approximately 95-99% of the implanted hepatocytes (determined utilizing computer-assisted image analysis) died in all three experimental groups during this time. The number of engrafted hepatocytes in the CON group further decreased over the next 7 days to 1.3 +/- 1.1% of the original cell number. However, the number of engrafted hepatocytes in the PCS and PCS +
HEP
increased over this time to 6 +/- 1% and 5 +/- 2%, respectively. The number of engrafted hepatocytes in the PCS group continued to increase over the next 2.5 months to a value of 26 +/- 12% of the initial cell number, and a large number of engrafted hepatocytes was still present at 6 months. These results indicate that stable new tissues can be engineered by transplanting hepatocytes on biodegradable sponges into heterotopic locations if appropriate stimulation is provided.
...
PMID:Long-term engraftment of hepatocytes transplanted on biodegradable polymer sponges. 936 46
Isradipine, an antihypertensive agent, was encapsulated by the nanoprecipitation method using polymers including poly(epsilon-caprolactone), poly(D,L-lactide) and poly(d, L-lactide-co-glycolide). In vitro scanning electron microscopy and differential scanning calorimetry were used to characterize the nanoparticles. The average diameters of the nanoparticles ranged from 110 nm to 208 nm.
PCL
nanoparticles were larger than nanoparticles prepared with the other polymers. The zeta potential of the nanoparticles was negative, with values of about -25 mV which promoted good stabilization of the particles. The amorphous state of
PLA
and PLAGA non-loaded nanoparticles and the semi-crystalline state of
PCL
were demonstrated with X-ray diffraction and differential scanning calorimetry. For all nanoparticles, isradipine was found to be totally amorphous in the polymer which suggested that the drug was molecularly dispersed in the matrix. The colloidal suspensions displayed a sustained release profile in comparison with the drug release profile of isradipine in a PEG solution. Results from this investigation suggest that these nanospheres will be a good candidate delivery system for oral administration, to reduce the initial hypotensive peak and to prolong the antihypertensive effect of the drug.
...
PMID:Preparation and characterization of nanoparticles containing an antihypertensive agent. 979 32
Several formulations of poly(epsilon-caprolactone) (
PCL
), poly(lactic acid) (
PLA
), and poly(lactic-co-glycolic acid) (PLGA) nanocapsules containing phenylbutazone were prepared according to the interfacial deposition technique. These formulations differed in the type of polymer used to form the shell of the nanocapsules. Analysis of particle size distribution and encapsulation efficiency of the nanocapsules revealed that the type and molecular weight of polyester used were the main factors influencing these properties.
PLA
had the highest encapsulation efficiency with the best reproducibility. From in vitro release studies, a small amount of drug release was observed at pH 7.4. However, in the gastric medium, an important burst effect occurred and was highest with the PLGAs and lowest with
PCL
, suggesting that drug release from these systems is affected by the type of polymer and the environmental conditions. The two formulations of phenylbutazone-loaded nanocapsules should be evaluated based on
PCL
and
PLA
in vivo in order to determine to what extent they are able to reduce the local side effects of this drug.
...
PMID:Entrapment efficiency and initial release of phenylbutazone from nanocapsules prepared from different polyesters. 987 42
Bioabsorbable polymer implants may provide a viable alternative to metal implants for internal fracture fixation. One of the potential difficulties with absorbable implants is the possible toxicity of the polymeric degradation products especially if they accumulate and become concentrated. Accordingly, material evaluation must involve dose-response toxicity data as well as mechanical properties and degradation rates. In this study the toxicity and rates of degradation for six polymers were determined, along with the toxicity of their degradation product components. The polymers studied were poly(glycolic acid) (PGA), two samples of poly(L-lactic acid) (
PLA
) having different molecular weights, poly(ortho ester) (POE), poly(epsilon-caprolactone) (
PCL
), and poly(hydroxy butyrate valerate) (5% valerate) (PHBV). Polymeric specimens were incubated at 37 degrees C in 0.05 M Tris buffer (pH 7.4 at 37 degrees C) and sterile deionized water. The solutions were not changed during the incubation intervals, providing a worst-case model of the effects of accumulation of degradation products. The pH and acute toxicity of the incubation solutions and the mass loss and logarithmic viscosity number of the polymer samples were measured at 10 days, 4, 8, 12, and 16 weeks. Toxicity was measured using a bioluminescent bacteria, acute toxicity assay system. The acute toxicity of pure PGA,
PLA
, POE, and
PCL
degradation product components was also determined. Degradation products for PHBV were not tested. PGA incubation solutions were toxic at 10 days and at all following intervals. The lower molecular weight
PLA
incubation solutions were not toxic in buffer but were toxic by 4 weeks in water.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Six bioabsorbable polymers: in vitro acute toxicity of accumulated degradation products. 1014 75
The effect of polymer chemistry on adhesion, proliferation, and morphology of human articular cartilage (HAC) chondrocytes was evaluated on synthetic degradable polymer films and tissue culture polystyrene (TCPS) as a control. Two-dimensional surfaces of poly(glycolide) (PGA), poly(L-lactide) (L-
PLA
), poly(D,L-lactide) (D,L-
PLA
), 85:15 poly(D,L-lactide-co-glycolide) (D,L-PLGA), poly(epsilon-caprolactone) (
PCL
), 90:10 (D,L-lactide-co-caprolactone) (D,L-PLCL), 9:91 D,L-PLCL, 40:60 L-PLCL, 67:33 poly(glycolide-co-trimethylene carbonate) (PGTMC), and poly(dioxanone) (PDO) were made by spin-casting into uniform thin films. Adhesion kinetics were studied using TCPS and
PCL
films and revealed that the rate of chondrocyte adhesion began to level off after 6 h. Degree of HAC chondrocyte adhesion was studied on all the substrates after 8 h, and ranged from 47 to 145% of the attachment found on TCPS. The greatest number of chondrocytes attached to PGA and 67:33 PGTMC polymer films, and attachment to
PCL
and L-
PLA
films was statistically lower than that found on PGA (p < 0.05). There was no correlation between amount of chondrocyte attachment to the substrates and the substrates' water contact angle. Chondrocytes proliferated equally well on all the substrates resulting in equivalent cell numbers on all the substrates at both day 4 and day 7 of the culture. However, these total cell numbers were reached as a result of a 88- and 42-fold expansion on PDO and
PLA
, respectively, which was significantly higher than the 11-fold expansion found on TCPS (p < 0.05). The greater fold expansion of the cells on PDO and L-
PLA
films may be attributed to the availability of space for cells to grow, since their numbers at the start of culture were fewer following the 8 h attachment period. This suggests that regardless of initial seeding density on these degradable polymer substrates (i.e., if some minimum number of cells are able to attach), they will eventually populate the surfaces of all these polymers given sufficient space and time.
...
PMID:Human articular chondrocyte adhesion and proliferation on synthetic biodegradable polymer films. 1061 31
Polyester blending of poly(epsilon-caprolactone) (
PCL
) with poly(D, L-lactide) (
PLA
) and their random copolymers (R(CL/LA)) was found to be a convenient approach to regulate the degradation and drug release behaviors of the polyesters. The blend composition and compatibility both affected its degradation and drug release behavior. A DSC study showed that
PCL
was compatible with 50:50 poly(CL-CO-D,L-LA) (R(50/50)) but incompatible with 25:75 poly(CL-CO-LA) (R(25/75)) and
PLA
homopolymer. The hydrolysis experiments indicated that with the same CL/LA segment proportion, compatible blends (
PCL
/R(50/50)) had higher water content and faster weight loss than incompatible blends (
PCL
/
PLA
,
PCL
/R(25/75)). In the compatible blends the
PCL
degradation rate was increased while that of R(50/50) was decreased. The controlled release kinetics, diffusion constants, and permeation coefficients of the polymer blends were measured by using northindrone (NTD) as a model. The NTD release rates from the polyester blends increased as the CL unit fraction increased but decreased with increasing the LA unit fraction in the blends. With the same CL/LA unit ratios, the NTD release rate from the compatible blend was slower than that from the incompatible blend. The NTD release from the polyester blend was controlled by the diffusion process in the early stage, but the degradation-caused NTD release was later involved. By tailoring the blend composition to such an extent that the degradation-caused release compensated the decline of the diffusion-caused release, a zero-order NTD release was achieved.
...
PMID:Regulation of biodegradability and drug release behavior of aliphatic polyesters by blending. 1075 11
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