Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The formation rate of aspirin from the prodrug was determined as a function of the pH, temperature, and dielectric constant of the solvent spectrophotometrically and was confirmed by high-pressure liquid chromatography. Aspirin formation was first order with respect to the prodrug and zero order with respect to the hydroxide-ion concentrations. The hydrolysis rate was independent of buffer concentration but very sensitive to the dielectric constant of the solvents. The half-life for the formation of aspirin at 37 degrees was 7 min. The activation energy for the hydrolysis was 23.7 kcal/mole. The results suggest that the hydrolysis of the prodrug to aspirin proceeds by an SN1-type mechanism.
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PMID:Kinetics and mechanism of hydrolysis of 1-(2'-acetoxybenzoyl)-2-deoxy-alpha-D-glucopyranose, a novel aspirin prodrug. 3 21

Liposomes of dimyristoylphosphatidylcholine (DMPC) and dicetylphosphate (DCP) reacted with 4-vinylpyridine (4-VP) to form a salt and, subsequently, autopolymerized for form poly(4-vinylpyridine) (poly(4-VP))-coated liposomes. The conditions for optimization of polymer coating have been determined; also, the effects of polymer coating on liposome stability, the encapsulation of ASA and its release kinetics have been measured. The coating efficiency was maximum at a DMPC:DCP 1:1 mole ratio, at pH 4.0 in acetate buffer, and a polymerization time of 40 min. The polymer-coated liposomes were stable in 2 mM sodium cholate and 4 per cent isopropanol solutions, as determined from turbidity measurements, versus a 20-25% decrease in stability of uncoated liposomes. The encapsulation efficiency of ASA reached a maximum of 9 per cent at DMPC:DCP 1:1 mole ratio. The release of ASA at 37 degrees C, pH 7.0 was characterized by an initial fast release (85 and 63 per cent in 20 min from uncoated and polymer-coated liposomes, respectively) followed by a slow, constant release rate up to 140 min. Thus, autopolymerization of a polymerizable monomer at liposome surfaces represents a potentially feasible stabilization approach for liposomes exposed to sodium cholate solutions with greater retention of solute than uncoated liposomes.
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PMID:Poly(4-vinylpyridine)-coated liposomes: stability studies and release of acetylsalicylic acid. 140 91

A photoactivatable analogue of phosphatidylserine, 125I-labeled 4-azidosalicylic acid-phosphatidylserine (125I ASA-PS), was used to label both native acetylcholine receptor (AchR)-rich membranes from Torpedo californica and AchR membranes affinity purified from Torpedo reconstituted into asolectin (a crude soybean lipid extract) vesicles. The radioiodinated arylazido group attaches directly to the phospholipid head group and thus probes for regions of the AchR structure in contact with the negatively charged head group of phosphatidylserine. All four subunits of the AchR incorporated the label, with the alpha subunit incorporating approximately twice as much as each of the other subunits on a per mole basis. The regions of the AchR alpha subunit that incorporated 125I ASA-PS were mapped by Staphylococcus aureus V8 protease digestion. The majority of label incorporated into fragments representing a more complete digestion of the alpha subunit was localized to 11.7- and 10.1-kDa V8 cleavage fragments, both beginning at Asn-339 and of sufficient length to contain the hydrophobic regions M1, M2, and M3 was also significantly labeled. In contrast, V8 cleavage fragments representing roughly a third of the amino-terminal portion of the alpha subunit incorporated little or no detectable amount of probe.
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PMID:Photoaffinity labeling of the Torpedo californica nicotinic acetylcholine receptor with an aryl azide derivative of phosphatidylserine. 232 57

The antinociceptive and behavioral effects of pethidine (10, 20, or 30 mg/kg), acetylsalicylic acid (200, 400, or 600 mg/kg) and indomethacin (20, 40, or 50 mg/kg) in the naked mole-rat was studied in the hot-plate test. Instead of inducing analgesia, pethidine caused a dose-dependent reduction in response latency. Sensorimotor impairment and aggressive behavior were also observed following administration of pethidine (20 or 30 mg/kg). All animals receiving pethidine (30 mg/kg) died following fighting when kept in colony cages. Aggressive behavior and death was prevented by naloxone or by keeping animals in single cages. Acetylsalicylic acid (600 mg/kg) and indomethacin (40 or 50 mg/kg) caused a significant increase in response latency. It is concluded that in the mole-rat pethidine elicits aggression, sensorimotor impairment, and apparent hyperalgesia.
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PMID:Effects of pethidine, acetylsalicylic acid, and indomethacin on pain and behavior in the mole-rat. 763 25

DMBT1 and galectin-3 are potential interacting proteins with presumably complex roles in tumorigenesis. While at present a variety of mechanisms are discussed for DMBT1 and its participation in cancer, galectin-3 is commonly known to exert tumor-promoting effects. However, in vitro studies in a rodent system have suggested that DMBT1/galectin-3 interaction in the ECM triggers epithelial differentiation, which would point to tumor-suppressive properties. To improve the understanding of DMBT1/galectin-3 action in cancer, we carried out studies in skin cancer of different origins. Mutational analyses of DMBT1 identified a missense mutation in 1 of 13 melanoma cell lines. It led to an exchange of an evolutionary conserved proline residue for serine and located within the second CUB domain of DMBT1. Immunohistochemical analyses demonstrated absence of DMBT1/galectin-3 expression from melanocytes but induction of DMBT1 expression in 1 of 8 nevi and 1 of 11 melanomas and of galectin-3 expression in 3 of 8 nevi and 4 of 8 melanomas. These data suggest that DMBT1 and galectin-3 are unlikely to act as classical tumor suppressors in melanomas. DMBT1 and galectin-3 appear to be secreted to the ECM by epithelial cells within the epidermis and the hair follicle. Compared to the flanking normal epidermis, skin tumors of epithelial origin frequently displayed downregulation of DMBT1 (18 of 19 cases) and galectin-3 (12 of 12 cases). Thus, loss of DMBT1/galectin-3 expression may play a role in the genesis of epithelial skin cancer. This would support the view that galectin-3 can exert tumor-suppressive effects in certain scenarios, and DMBT1/galectin-3-mediated differentiation represents a candidate mechanism for this effect.
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PMID:Frequent downregulation of DMBT1 and galectin-3 in epithelial skin cancer. 1267 72

Aspartate-beta-semialdehyde dehydrogenase (ASADH) from Escherichia coli is inhibited by L- and D-cystine, and by other cystine derivatives. Enzyme inhibition is quantitatively reversed by addition of dithiothreitol (DTT), dithioerythrytol, beta-mercaptoethanol, di-mercaptopropanol or glutathione to the cystine-inactivated enzyme. Cystine labeling of the enzyme is a pH dependent process and is optimal at pH values ranging from 7.0 to 7.5. Both the cysteine incorporation profile and the inactivation curve of the enzyme as a function of pH suggest that a group(s) with pK(a) of 8.5 could be involved in cystine binding. Stoichiometry of the inactivation reaction indicates that one cysteine residue from the enzyme subunit is reactive against cystine, as found by direct incorporation of radioactive cystine into the enzyme and by free-thiol titration of the enzyme with 5,5'-dithiobis-2-nitrobenzoic acid (DTNB) before and after the cystine treatment. One mole of cysteine is released from each mol of cystine after reaction with the enzyme. ASA, NADP and NADPH did not prevent cystine inhibition. The [35S]cysteine-labelled enzyme can be visualized after electrophoresis in polyacrylamide gels and further detection by autoradiography. After pepsin treatment of the [35S]cysteine-inactivated enzyme, a main radioactive peptide was isolated by HPLC. The amino acid sequence of this peptide was determined as FVGGN(Cys)(2)TVSL, thus demonstrating that the essential 135Cys is the amino acid residue modified by the treatment with cystine.
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PMID:L-cystine inhibits aspartate-beta-semialdehyde dehydrogenase by covalently binding to the essential 135Cys of the enzyme. 1472 1

Sulfonamide drugs mediate their main therapeutic effects through modulation of the activity of membrane and cytosolic carbonic anhydrases. How interactions of sulfonamide drugs impact structural properties and activity of carbonic anhydrases requires further study. Here the effect of acetazolamide on the structure and function of bovine carbonic anhydrase II (cytosolic form of the enzyme) was evaluated. The Far-UV CD studies indicated that carbonic anhydrase, for the most part, retains its secondary structure in the presence of acetazolamide. Fluorescence measurements using iodide ions and ANS, along with ASA calculations, revealed that in the presence of acetazolamide minimal conformational changes occurred in the carbonic anhydrase structure. These structural changes, which may involve spatial reorientation of Trp 4 and Trp 190 or some other related aminoacyl residues near the active site, considerably reduced the catalytic activity of the enzyme while its thermal stability was slightly increased. Our binding results indicated that binding of acetazolamide to the protein could occur with a 1:1 ratio, one mole of acetazolamide per one mole of the protein. However, the obtained kinetic results supported the existence of two acetazolamide binding sites on the protein structure. The occupation of each of these binding sites by acetazolamide completely inactivates the enzyme. Advanced analysis of the kinetic results revealed that there are two substrate (p-NPA) binding sites whose simultaneous occupation is required for full enzyme activity. Thus, these studies suggest that the two isoforms of CA II should exist in the medium, each of which contains one substrate binding site (catalytic site) and one acetazolamide binding site. The acetazolamide binding site is equivalent to the catalytic site, thus, inhibiting enzyme activity by a competitive mechanism.
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PMID:Competitive inhibitory effects of acetazolamide upon interactions with bovine carbonic anhydrase II. 1758 58

Sturge-Weber syndrome (SWS) is a rare, sporadically occurring neurocutaneous disorder with a frequency of approximately 1 per 50,000. The hallmark is an intracranial leptomeningeal vascular angioma in association with a port wine nevus, usually involving ophthalmic or maxillary distribution of trigeminal nerve. Other clinical findings associated with SWS are seizures, glaucoma, hemiparesis and mental retardation. The radiological hallmark is "Tram-line" or "Gyri-form" calcification. 25 to 56% of patients experience recurrent episodes of paroxysmal focal neurological deficits in form of transient hemiparesis, which may be due to vascular ischemia or postictal in origin. EEG helps to differentiate the exact etiology, as it is normal in former. Aspirin prophylaxis in those, due to ischemia decreases their recurrences and improves overall neurological prognosis. We report a 25-month-old child of SWS with recurrent episodes of transient hemiparesis and atypical midline location of facial vascular nevus.
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PMID:Paroxysmal vascular events in Sturge-Weber syndrome: Role of aspirin. 2489 2

Porous poly(glycerol sebacate) (PGS) scaffolds were prepared using a salt leaching technique and subsequently surface modified by a low oxygen plasma treatment prior to the use in the in vitro culture of human chondrocytes. Condensation polymerization of glycerol and sebacic acid used at various mole ratios, i.e. 1:1, 1:1.25, and 1:1.5, was initially conducted to prepare PGS prepolymers. Porous elastomeric PGS scaffolds were directly fabricated from the mixtures of each prepolymer and 90% (w/w) NaCl particles and then subjected to the plasma treatment to enhance the surface hydrophilicity of the materials. The properties of both untreated and plasma-treated PGS scaffolds were comparatively evaluated, in terms of surface morphology, surface chemical composition, porosity, and storage modulus using scanning electron microscopy (SEM), X-ray photoelectron spectroscopy, micro-computed tomography, and dynamic mechanical analysis, respectively. The responses of chondrocytes cultured on individual PGS scaffolds were assessed, in terms of cell proliferation and ECM production. The results revealed that average pore sizes and porosity of the scaffolds were increased with an increasing sebacic acid concentration used. The storage moduli of the scaffolds were raised after the plasma treatment, possibly due to the further crosslinking of PGS upon treatment. Moreover, the scaffold prepared with a higher sebacic acid content demonstrated a greater capability of promoting cell infiltration, proliferation, and ECM production, especially when it was plasma-treated; the greatest HA, sGAG, uronic acid, and collagen contents were detected in matrix of this scaffold. The H & E and safranin O staining results also strongly supported this finding. The storage modulus of the scaffold was intensified after incubation with the chondrocytes for 21 days, indicating the accretion and retention of matrix ECM on the cell-cultured scaffold.
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PMID:In vitro human chondrocyte culture on plasma-treated poly(glycerol sebacate) scaffolds. 2638 14

Using self-assembly gold nanoislands (SAM-AuNIs) functionalized by poly(m-phenylenediamine-co-aniline-2-sulfonic acid) (poly(mPD-co-ASA)) copolymer nanoparticles as specific receptors, a highly sensitive localized surface plasmon resonance (LSPR) optochemical sensor is demonstrated for detection of trace lead cation (Pb(II)) in drinking water. The copolymer receptor is optimized in three aspects: (1) mole ratio of mPD:ASA monomers, (2) size of copolymer nanoparticles, and (3) surface density of the copolymer. It is shown that the 95:5 (mPD:ASA mole ratio) copolymer with size less than 100 nm exhibits the best Pb(II)-sensing performance, and the 200 times diluted standard copolymer solution contributes to the most effective functionalization protocol. The resulting poly(mPD-co-ASA)-functionalized LSPR sensor attains the detection limit to 0.011 ppb toward Pb(II) in drinking water, and the linear dynamic range covers 0.011 to 5000 ppb (i.e., 6 orders of magnitude). In addition, the sensing system exhibits robust selectivity to Pb(II) in the presence of other metallic cations as well as common anions. The proposed functional copolymer functionalized on AuNIs is found to provide excellent Pb(II)-sensing performance using simple LSPR instrumentation for rapid drinking-water inspection.
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PMID:Label-Free LSPR Detection of Trace Lead(II) Ions in Drinking Water by Synthetic Poly(mPD-co-ASA) Nanoparticles on Gold Nanoislands. 2820 97


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