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:C0086543 (cataract)
29,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The prostaglandins produce elevation of intraocular pressure and breakdown of the blood-aqueous barrier. They act via the secondary messenger system, cyclic AMP. Although the pathogenesis of many forms of ocular inflammation, both external and internal, is unclear, it is evident that some forms of ocular inflammation are prostaglandin-mediated, at least in part. Others may be totally mediated by prostaglandin synthesis. At present the corticosteroids are the mainstay of therapy of these conditions. However, the corticosteroids are poor inhibitors of prostaglandin synthesis and have many deleterious side effects such as induction of ocular hypertension, cataract, and infection. The search for new agents that will obviate these side effects and be more specific for the disease process is crucial. The discovery that the mode of action of many nonsteroidal anti-inflammatory agents is via inhibition of prostaglandin synthesis places a premium on elucidating which of these agents is most effective and least toxic in the eye and by which route of administration. The arachidonic acid screening model is ideal for initially choosing which agent has the greatest potential clinically. Arachidonic acid, a PGE2 precursor, when given topically also elevates intraocular pressure and aqueous humor protein, and these effects are blocked by the nonsteroidal anti-inflammatory drugs. This occurs if the arachidonic acid is injected into the vitreous humor, too, providing evidence that this in vivo model involves intraocular mechanisms. Utilizing the arachidonic acid system, a comparative study of nonsteroidal inhibitors of prostaglandin synthesis shows that the most effective of 14 agents were flurbiprofen solution and suspensions of polysorbate-dispersed indoxole, meclofenamic acid, indomethacin, and clonixin. Animal uveitis is not an ideal model for the human condition. Nevertheless, proving the superior efficacy of a screened drug in this system will identify those drugs to be tested in the human disease states. Only after the very few best drugs of this nature are identified should the ultimate steps of human testing be initiated.
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PMID:Prostaglandins, nonsteroidal anti-inflammatory agents and eye disease. 19 83

1. Activities of superoxide dismutase (superoxide: superoxide oxidoreductase, EC 1.15.1.1) have been estimated in eye tissues. In rabbit eye, superoxide dismutase is present in corneal epithelium, corneal endothelium, lens, iris, ciliary body and retina. In lens the activity is in capsule epithelium. 2. Copper chelator diethyldithiocarbamate inhibited lens superoxide dismutase in vitro and in vivo in rabbit. 3. H2O2 caused inhibition of superoxide dismutase activity of lens extract, and this inhibition was potentiated by the catalase inhibitor 3-amino-1H-1,2,4-triazole (3-aminotriazole) or NaN3. 3-Aminotriazole or NaN3 had no effect on lens superoxide dismutase. Thus endogenous catalase of lens affords protection to the lens superoxide dismutase from inactivation by H2O2. 4. In rabbit having early cataract (vacuolar stage) induced by feeding-3-aminotriazole, there was a decrease in superoxide dismutase of lens, a fall in ascorbic acid of ocular humors and lens, and a 2--3-Fold increase in H2O2 of aqueous humor and vitreous humor. We conclude that catalase of eye affords protection to the lens from H2O2 and it also protects superoxide dismutase of lens from inactivation by H2O2. Superoxide dismutase, in turn, protects the lens from the superoxide radical, O2.-. It is likely that inhibition of these enzymes may lead to production of the highly reactive oxidant, the hydroxyl radical, under pathological conditions when H2O2 concentration in vivo exceeds physiological limits as in cataract induced by 3-aminotriazole. A scheme of reaction mechanism has been proposed to explain the relative functions of ocular catalase and superoxide dismutase. Such a mechanism may be involved in cataractogenic process in the human.
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PMID:Superoxide dismutase of the eye: relative functions of superoxide dismutase and catalase in protecting the ocular lens from oxidative damage. 20 49

Activities of catalase (H2O2: H2O2 oxidoreductase, EC 1.11.1.6) and GSH peroxidase (GSH: H202 oxidoreductase, EC 1.11.1.9) have been measured in iris, ciliary body, retina, corneal epithelium, corneal endothelium, lens capsule-epithelium and decapsulated lens. 3-Amino-1H-1,2,4-triazole is a specific inhibitor of catalase and a potent cataractogenic agent. We observed marked inhibition of catalase activity in these tissues 1--6 h after the administration of a single intravenous dose of 1 g 3-aminotriazole per kg body weight in rabbit. This was associated with a 2--3-fold increase in the H2O2 concentrations of aqueous humor and vitreous humor. The increased peroxide concentrations were restored to the physiological levels as the catalase activity of eye tissues gradually returned to normal with time after injection. Under the conditions, GSH peroxidase activity of the afore-mentioned eye tissues was unaltered, GSH and protein sulfhydryl of lens were not changed, and ascorbic acid of aqueous humor and vitreous humor was not significantly altered. Based on these findings our conclusion is that catalase of eye tissues regulates the endogenous H2O2 in eye humors to the physiological level. We speculate that H2O2 may be the triggering factor in cataract induced by 3-aminotriazole.
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PMID:Regulation of hydrogen peroxide in eye humors. Effect of 3-amino-1H-1,2,4-triazole on catalase and glutathione peroxidase of rabbit eye. 88 79

Three patients suffered blunt trauma that caused rupture of the site of cataract incision three to 12 years after surgery. Epithelial cells were noted in the old cataract would of a 79-year-old white man. The second patient, a 25-year-old black women, had bilateral ocular toxoplasmosis and loss of vitreous humor at the time of lens extraction. The third patient, a 63-year-old white woman, had open-angle glaucoma treated previously with filtering procedures and cyclocryotherapy. The ultimate outcome was poor in each case.
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PMID:Traumatic rupture of healed cataract wounds. 93 23

1-[(2s)-3-Mercapto-2-methylpropionyl]-L-proline (captopril), an antihypertensive and free radical scavenger, protected the rabbit lens from peroxidative and oxidative damage induced by 1 mM diquat in vitro. To evaluate the anticataract efficacy of captopril, an experimental group of five rabbits was treated with topical captopril (1% in 0.15 M NaCl, w/v), and 50 microliters was instilled onto both eyes four times a day for a total of 8 weeks. Following the same procedure, the eyes of five rabbits were treated with topical 0.15 M NaCl as a control for captopril treatment. At the end of the first week of treatment, a single intravitreal dose of 120 nmole diquat in 30 microliters of 0.15 M NaCl was injected into the right eye of each rabbit of both the groups. As a control for intravitreal diquat injection, the left eye of all the rabbits were injected with the diluent, 30 microliters per eye. The intravitreal diquat or its diluent injection was only for one time. From slit-lamp biomicroscopic observation of the diquat-injected right eyes, the anticataract effect of captopril in the treatment group was indicated by the finding that in four of five rabbits the cataract did not advance; whereas in four of five rabbits treated with the diluent the cataract progressed to grade 3. The lenses in the diluent-injected control left eyes of the rabbits treated with the captopril or diluent were normal. However, since the number of animals used for the in vivo studies was few, further confirmation of the anticataract effect of captopril is necessary. In diquat-injected right eyes of animals treated with captopril, the integrated rate of O2- production was about 50% less (p less than .001) in the aqueous humor, vitreous humor, and lens, compared with O2-, 33.49 +/- 2.26 microM (mean +/- SEM) in the aqueous humor, 17.12 +/- 0.75 microM in the vitreous humor, and 31.44 +/- 1.29 nmole/g wet weight in the lens of the diquat-injected right eyes treated with the diluent. Similar significant (p less than .01) differences in the production of .OH and H2O2 in eye tissues were also observed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Antioxidant and anticataractogenic effects of topical captopril in diquat-induced cataract in rabbits. 131 9

Free radical enhancers, diquat, paraquat, plumbagin and juglone were used to study the oxy radical-induced damage to the rabbit lens in vitro and in vivo. Each compound caused a 6-8 fold increase in malondialdehyde (MDA) and a 30-55% decrease in reduced glutathione of the lens in vitro. These peroxidative and oxidative changes were potentiated in the presence of 100% O2, abolished by N2 and prevented by desferal-Mn (III) (DF-Mn) or liposomal superoxide dismutase (LSOD) indicating the involvement of O2-. Diquat injected intravitreally as a single dose (300 nmole in 30 microliters of isotonic saline) in the right eye of a 5-wk-old Dutch belted rabbit, induced early cataract after 24-72 h. The lens of the contralateral control eye injected with isotonic saline had no change. In the right eye, O2-. and OH. productions were significantly (P less than 0.01) higher; O2-. was about 16 fold higher in the aqueous humor and vitreous humor, and 5 fold in the lens and retina, and OH. was 35 fold higher in the aqueous humor, 2 fold in vitreous humor and 5 fold in the lens and retina as compared to the respective tissues of the control eye. Enhanced lipid peroxidation in the lens was apparent from the higher levels of MDA and formation of aminophospholipid.MDA Schiff-base conjugates. We propose that cyclic oxidation-reduction of xenobiotics coupled to the endogenous redox systems in the eye, could generate oxy radicals in excessive amounts, triggering cataractogenesis.
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PMID:Free radical enhancer xenobiotic is an inducer of cataract in rabbit. 164 13

In rabbit lenses subjected to oxidative stress, induced by 1 mM diquat in vitro, there were 7- to 10-fold increases (p less than 0.001) in malondialdehyde, conjugated dienes, and carbonyl dienes, indicating extensive peroxidation of cellular membrane lipids, and approximately a 60% decrease in reduced glutathione. In the presence of 0.1-5 mM Desferal-Mn(III) these changes were diminished by 50-70%. In an experimental group of 12 rabbits having diquat-induced cataract, Desferal-Mn(III) (5% w/v) applied topically as a 50-microliters eye drop four times per day and a single intraperitoneal dose of 64 mg/kg body wt daily for 5 weeks (including pretreatment for 1 week) retarded the progression of lens opacities, whereas, in a control group of 6 rabbits treated with the vehicle (0.15 M NaCl) cataract progressed to an advanced grade. Treatment with Desferal-Mn(III) also significantly diminished production of O2.- and OH. in the lens, aqueous humor, and vitreous humor, and of H2O2 in the aqueous humor and vitreous humor. It also suppressed lipid peroxidation and oxidation of protein-SH of the lens and restored lenticular glutathione and ascorbate to normal levels.
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PMID:Desferal-Mn(III) in the therapy of diquat-induced cataract in rabbit. 165 36

Five months after selenite injection, 58% of the rats that had developed cataract earlier underwent a reversal of the cortical opacity. The purpose of this study was to determine if lenses undergoing recovery from cortical opacity reestablish their ability to retain crystallins. By direct ELISA method, the aqueous humor (AH) of control rats was found to contain 18, 39 and 10 ng/ml alpha-, beta- and gamma-crystallin, respectively, while vitreous humor (VH) contained 43, 98 and 23 ng/ml of alpha-, beta- and gamma-crystallin, respectively. In rats with mature cataracts which did not recover by 5 months after selenite injection, there was an approximately 10-fold greater crystallin concentration in the AH and about 20 times greater crystallin concentration in the VH than in the controls. In contrast, rats undergoing recovery from cortical cataract showed almost normal concentration of crystallins in the AH. While crystallins were still elevated in the VH of the rats undergoing recovery from cortical cataract, the crystallin content was lower than in the rats which did not recover. Higher crystallin concentrations in the VH could be explained by either a greater loss through the posterior capsule, or a slower turnover of VH. Decreased crystallin loss from lenses undergoing recovery suggested that the recovered lens at least partly reestablishes its ability to retain crystallins. These data may demonstrate that the lens fiber permeability is lowered while lens repair is occurring.
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PMID:Changes in crystallin concentration in rat aqueous and vitreous humors after selenium-induced reversible cortical cataract. 208 66

Direct intravitreal injection of antibiotics plays an important role in the management of bacterial endophthalmitis. In the present study we investigated the toxicity and clearance of intravitreally injected cefotetan in a rabbit model. No toxic ocular side effects could be detected by electroretinography (ERG) or light and electron microscopy up to and including a single intravitreal dose of 1000 micrograms. Intravitreal injection of 2000 micrograms cefotetan resulted in mild degeneration of photoreceptor outer segments and, sporadically, in cataract formation. After intravitreal injection of 4000 micrograms, moderate toxic degeneration of photoreceptors occurred, with displacement and mitochondrial swelling of inner segments. In addition, lysosomal lamellar inclusion bodies could be detected in pigment epithelial cells. After a single intravitreal injection of 1000 micrograms cefotetan, concentrations greater than the minimum necessary for the inhibition of most commonly occurring intraocular pathogens (except Pseudomonas aeruginosa and Staphylococcus epidermidis) were maintained in the vitreous humor for greater than 48 h. Cefotetan may be a potentially important drug for intravitreal injection, especially in cases of gram-negative and suspected anaerobic endophthalmitis.
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PMID:Toxicity and clearance of intravitreal cefotetan. 222 95

Native proteins in the aqueous humor and serum from 4 patients with cataract and 2 patients with central artery occlusion were studied using micro two-dimensional isoelectric focusing-gradient gel electrophoresis combined with silver staining. A total of 51 protein spots were detected in the aqueous humor and the standard map of distribution pattern of the native proteins was established. Transferrin, albumin, alpha 2-macroglobulin, ceruloplasmin, haptoglobin, IgA and IgG were identified by an enzyme immunoassay. As a whole, the protein pattern of the aqueous humor is comparable with the pattern of the serum, except for marked quantitative differences. Most aqueous humor components have their corresponding spots found in the serum. However, there are some spots detected only in the aqueous humor but not in the serum. These spots were identified as transferrin. It is already known that the tau fraction (a desialized form of transferrin, absent in serum) is found in an extra band in the electrophoretic patterns of cerebrospinal fluid and vitreous humor. Therefore, the samples were treated with neuraminidase to determine whether or not the different aqueous transferrin spots were the tau fraction. Serum transferrin and certain aqueous transferrin spots (corresponding to serum transferrin in electrophoretic position) were transformed to tau fraction after treatment. However, some other aqueous transferrin spots (tau fraction and unreported transferrin) remained unchanged. This indicated that, in the aqueous humor, there are three kinds of transferrin molecules: ordinary serum transferrin, tau fraction and characteristic aqueous humor transferrin. Soluble proteins in the extracts of ciliary processes, iris, vitreous humor, sensory retina and lens were also studied. The characteristic transferrin pattern seen in the aqueous humor was observed only in the vitreous humor. The ciliary processes and iris revealed an identical transferrin pattern as in the serum. alpha 2-Macroglobulin, that has been thought to be too large to pass the blood-aqueous barrier, was detected in all of the aqueous humor samples. Certain larger serum proteins were observed to have their corresponding spots in the aqueous, whereas certain smaller ones were not found. These findings strongly suggested that the aqueous humor proteins are not a simple ultrafiltrate of the serum. Active transport and/or local synthesis of proteins may play important roles in determining the constitution of the proteins in the aqueous humor.
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PMID:Comparative study of native proteins in aqueous humor and serum--detection of characteristic aqueous humor proteins. 244 32


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