Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.36 (hyaluronidase)
 4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pseudolarix amabilis Rehd. extract was examined in vitro for antibacterial effects, anti-inflammatory effects, and inhibitory effects on histamine release. Pseudolarix amabilis Rehd. extract was also examined for efficacy on dermatitis in atopic dermatitis model mice (NC mice) and effects on keratinous moisture level and transepidermal water loss in miniature pigs. Pseudolarix amabilis Rehd. extract had antibacterial effects on Staphylococcus aureus, Candida albicans, and Streptococcus pyogenes; however this antibacterial effect varied with the temperature at which and conditions under which Pseudolarix amabilis Rehd. was extracted. Pseudolarix amabilis Rehd. extract at the final concentration of 2 mg/mL significantly inhibited the hyaluronidase activity; and at 0.005, 0.05, and 0.5 mg/mL, it also significantly inhibited the histamine release. In the mice in which atopic dermatitis had been induced, 28-day administration of Pseudolarix amabilis Rehd. extract at 4 and 400 mg/mL significantly inhibited aggravation of dermatitis without having effects on body weight. In the dorsal skin of miniature pigs, Pseudolarix amabilis Rehd. extract at 4 and 400 mg/mL significantly increased keratinous moisture level with the increase in the number of dosing days, and caused no changes in transepidermal water loss. From the above results, it is clear that Pseudolarix amabilis Rehd. extract inhibits both proliferation of bacteria and inflammation caused by antigens. Furthermore, it is suggested that Pseudolarix amabilis Rehd. extract will serve as a medicinal drug which effectively moistens the skin and prevents and heals dermatitis.
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PMID:[Anti-allergic action effect of Pseudolarix amabilis Rehd. extract and its efficacy on atopic dermatitis]. 1546 60

Post-surgical adhesion occurs when fibrous strands of scar tissue form, leading to the abnormal joining of anatomical structures. Patients undergoing abdominal surgery are at risk of the complications associated with intraperitoneal adhesions. Hyaluronic acid (HA) is a biocompatible, biodegradable and non-toxic natural polymer, which is gaining popularity as a barrier agent for preventing post-surgical adhesions. As HA is water-soluble and rapidly degraded in vivo, chemical modification is required to produce a non-soluble sheet that might be used to prevent tissue adhesion. We developed a range of biocompatible cross-linked HA-collagen composites and then evaluated them in a rat model of post-surgical adhesion. The results showed that cross-linked HA-collagen was almost totally resistant to hyaluronidase digestion. HA-collagen membranes induced minimal tissue reactions and were bioresorbed within 14 days post-surgery. These results suggest that cross-linked HA-collagen membrane may be a valuable anti-adhesion material to prevent post-surgical intraperitoneal adhesion.
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PMID:Preparation and evaluation of a hyaluronate-collagen film for preventing post-surgical adhesion. 1565 17

Hydraulic resistance of interstitium is of major importance in body fluid distribution. In the synovial lining it is vital for the retention of intra-articular fluid, and is attributed chiefly to the network of interstitial biopolymers occupying intercellular gaps in the tissue. Selective removal of synovial hyaluronan (HA) by protease-free hyaluronate lyase results in an almost 10x increase in synovial hydraulic permeability from 0.48 +/- 0.24 microL min(-1) cm H2O (control) to 4.56 +/- 0.40 microL min(-1) cm H2O (mean +/- SD, n = 6 rabbits, p < .001, t test) leading to the hypothesis that hyaluronan plays a major role in the organization of interstitial matrix structure. To test whether removal of hyaluronan causes significant changes in synovial ultrastructure, morphometry of hyaluronidase-treated synovium was carried out. Following hyaluronidase, the thickness of the synovial lining was reduced from 13.0 +/- 1.6 microm (control) to 10.6 +/- 1.6 microm (mean +/- SD throughout, n = 50 measurements per rabbit, 6 rabbits. p < .001, t test). This was accompanied by a significant reduction of synovial interstitial volume fraction from 76.2 +/- 20.6% (control) to 67.04 +/- 24.94% (p < .001, t test), and an increase in collagen bundle volume as a fraction of interstitial volume from 40.75 +/- 4.97% (control) tissue to 48.77 +/- 11.72% (p < .0001, t test). The findings indicate that the removal of hyaluronan chains leads to morphological disruption. Thus, hyaluronan chains play a major role in the organization of synovial structure. The observed morphological changes are insufficiently large to explain fully the great rise in hydraulic permeability observed on HA removal. The latter is likely to be due to disruption of tertiary architecture at the molecular organization level.
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PMID:A role for hyaluronan in the preservation of interstitial structure. 1582 41

In Indian traditional medicine, peacock feather in the form of ash (Bhasma) or water extract are used against snakebite and to treat various problems associated with lungs. This study was aimed to evaluate the water extract of peacock feather (PCF) against the local tissue damage caused due to snakebite. PCF water extract showed inhibition towards phospholipase A2 enzyme activity from snake venom (Naja naja and Vipera russelii), inflammatory fluids (synovial, pleural, ascites) and normal serum in a dose-dependent manner. Hyaluronidase and proteases are other major enzymes in snake venoms responsible for local tissue damage. PCF water extract inhibited hyaluronidase and proteolytic enzyme activities from Vipera russelii, Naja naja and Trimeresurus malabaricus venom. The active principle is a hydrophilic molecule easily extractable in water or polar solvents. PCF water extract gave positive results for the presence of protein and secondary metabolites like carotenoids and steroids. Analysis of metal ions revealed that iron is the major ion (> 20-fold). Other metal ions detected in smaller amount are copper, chromium, zinc and nickel. The least amount of ion detected is gold. Co-injection of PCF water extract with snake venom and inflammatory PLA2 enzymes neutralize the edema inducing activity of all the PLA2 enzymes studied. Since it inhibits hyaluronidase and proteases enzyme activity from snake venom PCF water extract is a powerful neutralizing agent, which has therapeutic application against venom toxicity.
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PMID:Use of Pavo cristatus feather extract for the better management of snakebites: neutralization of inflammatory reactions. 1589 32

Diffusion-weighted (Dw) imaging has for a number of years been a diagnostic tool in the field of neuroradiology, yet only since the end of the 1990s, with the introduction of echoplanar imaging (EPI) and the use of sequences capable of performing diffusion studies during a single breath hold, has it found diagnostic applications at the level of the abdomen. The inherent sensitivity to motion and the magnetic susceptibility of Dw sequences nonetheless still create problems in the study of the abdomen due to artefacts caused by the heartbeat and intestinal peristalsis, as well as the presence of various parenchymal-gas interfaces. With regard to focal liver lesions, a review of the literature reveals that Dw imaging is able to differentiate lesions with high water content (cysts and angiomas) from solid lesions. With regard to the latter, although there are differences between benign forms [focal nodular hyperplasia (FNH), adenoma] and malignant forms [metastasis, hepatocellular carcinoma (HCC)] in their apparent diffusion coefficient (ADC) in the average values for histological type, there is a significant overlap in values when lesions are assessed individually, with the consequent problem of their correct identification. One promising aspect is the possibility of quantifying the degree of fibrosis in patients with chronic liver disease and cirrhosis given that the deposit of collagen fibres "restricts" the motion of water molecules and therefore reduces ADC values. However, even in this field, studies can only be considered preliminary and far from real clinical applications. The retroperitoneum is less affected by motion artefacts and similarly deserves the attention of Dw imaging. Here it is possible to differentiate mucin-producing tumours of the pancreas from pseudocystic forms on the basis of ADC values even though the limited spatial resolution of Dw imaging does not enable the identification of small lesions. Dw imaging may be applied to the study of the kidney to differentiate hydronephrosis from pyonephrosis and with regard to tumours, solid from pseudocystic forms. In addition, given that renal parenchyma has significantly variable ADC values on the basis of the anatomic section and physiological conditions, the possibility of assessing functional alterations is currently being studied. Indeed, a good correlation has been found between ADC values and glomerular filtration rate. With regard to musculoskeletal applications, the absence of motion artefacts in the regions studied has enabled the development of sequences less sensitive to magnetic susceptibility and with greater spatial resolution than EPI. Attempts have therefore been made to use Dw imaging in the characterization of soft-tissue tumours although the findings so far have been disputed. Greater agreement has been found regarding sensitivity of the technique in assessing response of these tumours to chemotherapy: tumour necrosis is thought to increase ADC whereas the persistence of vital neoplastic tissue tends to lower it. One of the most promising applications of Dw imaging is without doubt the assessment of vertebral collapse where a high ADC has been shown to be associated with an osteoporotic cause and a low ADC with a neoplastic cause. Nonetheless, even here, a moderate overlap between ADC values of the two types has been encountered. Dw imaging has also been used in the assessment of bone marrow cellularity: areas of tightly packed cells show a higher ADC value than hypocellular areas. In particular, no significant difference in ADC is noted between normal hypercellular bone marrow and hypercellular bone marrow secondary to lymphomatous infiltration whereas this difference is significant between hypocellular, normocellular and haematopoietic hypercellular bone marrow. With regard to the study of joints, the limited structure dimensions, particularly cartilage, creates technical difficulties related to spatial resolution and an adequate signal-to-noise ratio, problems that can only be solved by further technological developments. Lastly, a significant difference in ADC values between degenerative and inflammatory effusion has been found, a fact that may be explained as the result of the activity of hyaluronidase present in inflammatory forms, which causes a reduction in the concentration of hyaluronic acid with a consequent decrease in viscosity.
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PMID:Magnetic resonance diffusion-weighted imaging: extraneurological applications. 1668 86

Hyaluronic acid (hyaluronan, HA) has many medical applications as a biomaterial. To enhance its biostability, a novel hydrogel of cross-linked hyaluronic acid was prepared using a double cross-linking process, which involves building cross-linkages between hydroxyl group pairs and carboxyl group pairs. The present study explored a number of cross-linking processes in order to obtain different degrees of cross-linking, which were evaluated by the measurement of water absorption capacity as an index of the gel network density. To gain a better understanding of the stability of the gel, the chemical structure and particularly the rheological behaviour of the cross-linked HA, which included the influences of factors, such as degree of cross-linking, HA concentration and gel particle size, were investigated. The in vitro biostability against hyaluronidase and free radical degradation was tested to show that the cross-linked hydrogel had improved resistance to in vitro hyaluronidase and free radical degradation.
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PMID:Synthesis and characterization of a novel hyaluronic acid hydrogel. 1676 93

The interfacial properties of bovine testicular hyaluronidase were investigated by demonstrating the association of hyaluronidase activity with membranes prepared from bovine testis. Protein adsorption to the air/water interface was investigated using surface pressure-area isotherms. In whichever way the interfacial films were obtained (protein injection or deposition), the hyaluronidase exhibited a significant affinity for the air/water interface. The isotherm obtained 180 min after protein injection into a pH 5.3 subphase was similar to the isotherm obtained after spreading the same amount of protein onto the same subphase, indicating that bovine testicular hyaluronidase molecules adopted a similar arrangement and/or conformation at the interface. Increasing the subphase pH from 5.3 to 8 resulted in changes of the protein isotherms. These modifications, which could correspond to the small pH-induced conformational changes observed by Fourier-transform IR spectroscopy, were discussed in relation to the pH influence on the hyaluronidase activity. Adding hyaluronic acid, the enzyme substrate, to the subphase tested the stability of the interfacial properties of hyaluronidase. The presence of hyaluronic acid in the subphase did not modify the protein adsorption and allowed substrate binding to a preformed film of hyaluronidase at pH 5.3, the optimal pH for the enzyme activity. Such effects of hyaluronic acid were not observed when the subphase was constituted of pure water, a medium where the enzyme activity was negligible. These influences of hyaluronic acid were discussed in relation to the modelled structure of bovine testis hyaluronidase where a hydrophobic region was proposed to be opposite of the catalytic site.
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PMID:Interfacial behaviour of bovine testis hyaluronidase. 1677 11

An injectable hyaluronic acid (HA) microhydrogel was successfully developed as a novel drug carrier for controlled release formulation of protein drugs. HA hydrogels were prepared by the disulfide bond formation of thiolated HA (HA-SH). EPO was loaded in situ during HA-SH hydrogel preparation using an accelerating agent of sodium tetrathionate. The gelation time was drastically reduced from a day to 30 min when sodium tetrathionate was added for HA-SH hydrogel preparation. In vitro release of EPO in PBS at 37 degrees C showed that EPO was rapidly released for 3 days with an initial burst and then slowly up to 9 days from HA-SH hydrogels. HA-SH microhydrogels were prepared by the reactive spray drying of diluted HA-SH precursor solution. The mean particle size was approximately 2.3 mum and the water content after spray drying was approximately 14%. Ellman's test showed that sodium tetrathionate contributed not only for rapid crosslinking reaction but also for the reduction of residual free thiol content in HA-SH microhydrogels after spray drying. EPO recovery from HA-SH microhydrogels after degradation with hyaluronidase SD was higher than 95%. The released EPO appeared to be intact from the analysis with RP-HPLC. According to in vivo release test of EPO from HA-SH microhydrogels in Sprague Dawley (SD) rats, elevated plasma concentration of EPO higher than 0.1 ng/mL, which is a critical minimal concentration for EPO efficacy, was maintained up to 7 days. There was no adverse effect during and after the in vivo tests.
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PMID:Injectable hyaluronic acid microhydrogels for controlled release formulation of erythropoietin. 1707 46

Purification of proteins based on immunoaffinity has been performed using a solid support coated with antibody against the target proteins. The method requires immobilizing the antibody onto the solid support using protein A or G, and has a risk of adsorptive loss of target proteins onto the solid support. Centrifugal precipitation chromatography has been successfully used to purify enzymes, such as ketosteroid isomerase and hyaluronidase without the use of solid support. The purpose of this study is to demonstrate that immunoaffinity centrifugal precipitation chromatography is capable of isolating an antigen by exploiting antigen-antibody binding. The separation was initiated by filling both channels with 40% saturated ammonium sulfate (AS) of pH 4-4.5 followed by loading 20 microl of human plasma (National Institutes of Health blood bank) mixed with 2 mg of rabbit anti-HSA (human serum protein) antibody (Sigma). Then, the sample channel was eluted with water at 0.03 ml/min and AS channel with 40% AS solution of pH 4-4.5 at 1 ml/min until all non-binding components were eluted. Then, the releasing reagent (50% AS solution containing 0.5 M glycine and 10% ammonium hydroxide at pH 10) was introduced through the AS channel to release the target protein (HSA). The retained antibody was recovered by eluting the sample channel with water at 1 ml/min. A hollow fiber membrane device at the outlet (MicroKros, Spectrum, New Brunswick, NJ, USA) was provided on-line dialysis of the eluent before fractions were collected, so that the fractions could be analyzed by SDS-PAGE (sodium dodecyl sulfate - polyacrylamide gel electrophoresis) without further dialysis. The current method does not require immobilizing the antibody onto a matrix, which is used by the conventional immunoaffinity chromatography. This method ensures full recovery of the antigen and antibody, and it may be applied to purification of other proteins.
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PMID:Immunoaffinity centrifugal precipitation chromatography. 1741 78

Hydrogels have been widely used in tissue engineering as a support for tissue formation or to deliver non-viral gene therapy vectors locally. Hydrogels that combine these functionalities can provide a fundamental tool to promote specific cellular processes leading to tissue formation. This report investigates controlled release of gene therapy vectors from hydrogels as a function of the physical properties for both the hydrogel and the vector. Hydrogels were formed by photocrosslinking acryl-modified hyaluronic acid (HA) with a 4-arm poly(ethylene glycol) (PEG) acryl. The polymer content, and relative composition of HA and PEG modulated the swelling ratio, water content, and degradation, which can influence transport of the vector through the hydrogel. All hydrogels had a water content of 94% or higher, though the water content and swelling ratio increased with a decrease in the PEG:HA ratio. Plasmids were stably incorporated into the hydrogel, with a majority of the release occurring during the initial 2 days. For incubation in buffer, the cumulative release increased with a decreasing PEG or increasing HA content, with approximately 20% to 80% released during the first week depending on the hydrogel composition. Hydrogels incubated in hyaluronidase, an enzyme that degrades HA, significantly increased plasmid release for hydrogels containing 4% PEG and 4% HA-Acryl. The encapsulation of plasmid complexed with polyethylenimine had less than 14% of the complexes released from the hydrogel both in the presence and absence of hyaluronidase. The limited release of the complexes likely results from the complex size and interactions between the vector and hydrogel. These studies demonstrate the dependence of non-viral vector release on the physical properties of the hydrogel and the vector, suggesting vector and hydrogel designs for maximizing localized delivery of non-viral vectors.
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PMID:Non-viral vector delivery from PEG-hyaluronic acid hydrogels. 1758 40


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