UMLS:C0086543 - FACTA Search

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)

Purpose. To apply a high performance liquid chromatographic radiotracer method to test a variety of L-cysteine prodrugs and one dipeptide prodrug for their ability to synthesize glutathione in cultured rat lenses. Method. Rat lenses were incubated for 48 h in a medium containing [14C(U)]-glycine and prodrugs. Following homogenization and derivatization, lens extracts were analyzed to determine the extent of biosynthetic incorporation of this labeled amino acid into [14C]-glutathione using high performance liquid chromatography with radioisotope and ultraviolet absorption detection. All of the thiazolidine prodrugs contained masked sulfhydryl groups to stabilize them against air oxidation. L-buthionine-(S,R)-sulfoximine - an inhibitor of the first step in glutathione biosyntesis - was present in media containing the dipeptide prodrug. Results. In all cases, a large [14C]-labeled peak eluted just prior to [14C]-glutathione. This peak had some characteristics of the mixed disulfide of glutathione and L-cysteine, viz., L-cysteine/glutathione disulfide, but requires further investigation in order to be positively identified. Of the eleven L-cysteine prodrugs investigated, the most effective was 2(R,S)-methylthiazolidine-4(R)-carboxylic acid, which increased the rate of [14C]-glutathione biosynthesis 35% over that of the controls. A number of other L-cysteine prodrugs were somewhat effective, increasing glutathione synthesis 5-30% over the controls, while several L-cysteine prodrugs were totally ineffective. The only dipeptide prodrug investigated, viz., gamma-L-glutamyl-L-cysteine ethyl ester, increased the biosynthesis of [14C]-glutathione 18% over control. Biosynthetic rates based on ultraviolet absorption of the derivatized glutathione demonstrated a similar pattern, the compounds most effective in synthesizing [14C]-glutathione generally yielding the highest ultraviolet glutathione concentrations and the ineffective compounds showing the lowest concentrations. Conclusions. 2(R,S)-methylthiazolidine-4(R)-carboxylic acid, 2(R,S)-n-propylthiazolidine-4(R)-carboxylic acid and N-acetyl-L-cysteine were the only compounds that were statistically significant in yielding higher levels of both ultraviolet and radioactive glutathione as compared to their respective controls. Thus, these prodrugs have very promising anti-cataract potential. Keywords: glutathione; HPLC; lens; rat; thiazolidine
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PMID:An HPLC radiotracer method for assessing the ability of L-Cysteine prodrugs to maintain glutathione levels in the cultured rat lens 867 Jul 51

Rapid-onset cataracts were induced in SPF C57 bl/6 mice by intraperitoneal administration of naphthalene following cytochrome P-450 isozyme induction with phenobarbital. Several L-cysteine prodrugs with masked sulfhydryl groups in the form of thiazolidine-4-carboxylic acids, as well as N-acetyl-L-cysteine, N,S-bis-acetyl-L-cysteine and glutathione ethyl ester, were evaluated for their ability to maintain hepatic and lenticular glutathione at near-normal levels and to prevent naphthalene-induced cataract formation. Each prodrug was administered at three specified times to a cumulative total of 1.5 mole equivalents of the single dose of naphthalene. Three L-cysteine prodrugs delayed but did not prevent cataract formation in 40-60% of the mice over a 72-hr period, while eight of the 13 compounds produced cataract yields similar to the naphthalene control animals, i.e. 83% in 72 hr. However, two L-cysteine prodrugs, 2(R,S)-methylthiazolidine-4(R)-carboxylic acid (MTCA) and 2(R,S)-n-propylthiazolidine-4(R)-carboxylic acid (PTCA), prevented cataract formation in 20 of 21 and 12 of 12 mice, respectively, and maintained hepatic reduced glutathione levels at 82% and 51% of untreated controls. In contrast, glutathione was depressed to 3% of the normal value in those animals treated with naphthalene alone. Lenticular glutathione values were depressed, albeit minimally, in all naphthalene-treated mice regardless of administration of either MTCA or PTCA. The mice protected with either MTCA or PTCA showed no visible effects of naphthalene toxicity or lens opacities at any time. It can be concluded that these L-cysteine prodrugs were effective in preventing naphthalene-induced cataract and maintaining near-normal hepatic glutathione levels.
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PMID:Prevention of naphthalene-induced cataract and hepatic glutathione loss by the L-cysteine prodrugs, MTCA and PTCA. 879 61

Considerable progress has been made in the last few years in the molecular identification and characterization of hepatic GSH transporter-associated polypeptides. We are now poised to determine their precise mechanisms of action and regulation at the transcriptional and post-translational level. It is also anticipated that molecular characterization of the mitochondrial GSH transporter and sodium GSH co-transporters will be accomplished in the near future. With this information, a more complete understanding of GSH/cysteine homeostasis can be achieved which can be applied to furthering the prevention and treatment of the diseases of oxidative stress, such as aging, HIV, cataract, atherosclerosis, cancer and alcoholic liver disease.
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PMID:GSH transporters: molecular characterization and role in GSH homeostasis. 882 17

A 13 kDa protein from bovine lens was identified and characterized by protein microsequencing and by rapid amplification of cDNA ends (RACE) PCR. Its complete sequence shows that this protein belongs to a family of fatty acid-binding proteins (FABPs), including myelin and adipocyte P2, that are associated with cellular differentiation. The bovine lens protein, designated LP2, shows very close similarity to human epidermal FABP (eFABP) and human eFABP was detected in human lens, suggesting that the two proteins might be orthologous. Reverse transcriptase-PCR (RT-PCR) was used to compare expression patterns of LP2 with those for actin and for the differentiation markers gamma B-crystallin and gamma s-crystallin in lens. Actin was most abundant in the relatively undifferentiated epithelial cells and decreased with lens cell differentiation. In contrast gamma B-crystallin and gamma s-crystallin were detected only in fibres (nuclear and cortical respectively). LP2 transcripts were detected most abundantly in fibre cells and apparently increased with cellular differentiation. Molecular modelling confirms that the sequence of LP2 fits the tertiary template of adipocyte P2 but reveals the presence of two close pairs of cysteine residues that might be susceptible to intramolecular disulphide bond formation under appropriate oxidizing conditions. LP2 is thus another potential target for oxidative stress during cataract formation in lens.
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PMID:LP2, a differentiation-associated lipid-binding protein expressed in bovine lens. 894 66

It has been previously shown in H2O2-induced cataract model in the rat lens that protein-GSH (PSSG) formation precedes protein-protein disulfide (PSSP) conjugation and lens opacity. This elevated PSSG spontaneously reduces to a normal level when H2O2 is removed. To verify if thioltransferase (TTase), an enzyme that is known in other tissues to dethiolate PSSG, takes part in this recovery process, we examined the relationship of PSSG and TTase in this cataract model. To ensure enough tissue would be available for various biochemical studies, H2O2 induced cataract in pig lens was established and validated with the rat lens model. The study was divided into two parts. One part was to examine the effect of H2O2 concentration, ranging from 0.1 mM-10 mM, during 24 hr. Another part was to study the H2O2 (1.5 mM) induced cataract progression and recovery, parallel to the long-term study in rat lenses reported previously. These lenses were compared for transparency, wet weight, GSH, PSSG levels and the activity of two redox regulating enzymes, glutathione reductase (GR) and TTase. For the most part, pig lens responded to oxidation parallel to the rat lens except that a higher concentration of H2O2 was needed to achieve the same results. Damage induced by H2O3 was concentration dependent. In general TTase activity and GSH level were depleted with a concomitant increase in PSSG. The D50 (50% damage) for GSH in pig lens was 1.5 mM H2O2 (0.5 mM for rat lens) which was chosen for further studies in cataract progression and recovery. At 1.5 mM H2O2, pig lens showed superficial opacity within 24 hr and deeper cortical opacity in 48 hr. The pre-exposed lens became less cloudy when H2O3 was removed from the medium. Incubation of the lens in 1.5 mM H2O2 for one day also induced 50% GSH depletion and four fold PSSG elevations. This accumulated PSSG was dethiolated spontaneously in the absence of H2O2, similar to the findings in the rat lens and human lens models. In contrast protein-cysteine (PSSC) showed little change and did not respond to the recovery condition. TTase lost 50% activity in these lenses during 24-hr H2O3 exposure but regained most of it under recovery. The study on rat lens showed similar results as before, therefore only data on the relationship of TTase activity to PSSG level during cataract development and recovery is reported here. It was found that in the H2O2 (0.5 mM)-exposed rat lenses, the TTase activity was depleted but PSSG accumulation was accelerated within 8 hr. Both recovered quickly (within 8 hr) as soon as the oxidant was removed. Therefore, protein thiolation and dethiolation processes in the cultured rat or pig lenses display a mirror image with the activity pattern of TTase. Based on the close relationship between lens TTase and PSSG indicated above, it is speculated that TTase may regulate PSSG and maintain it at a low concentration in situ. This repair process may contribute to the improved transparency during recovery. Further studies are planned to substantiate this hypothesis.
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PMID:Relationship of protein-glutathione mixed disulfide and thioltransferase in H2O2-induced cataract in cultured pig lens. 924 98

The involvement of H2O2 in cataract development has been established in both human patients and animal models. At the molecular level H2O2 has been observed to cause damage to DNA, protein and lipid. To explore the oxidative stress response of the lens system at the gene expression level, we have examined the effects of H2O2 on the mRNA change of the proto-oncogenes, c-jun, c-fos and c-myc in a rabbit lens cell line, N/N1003A. H2O2 treatment of the rabbit lens epithelial cells for 60 min induces quick up-regulation of both c-jun and c-fos mRNAs. The maximal induction is 38 fold for c-jun at 150 microM and 72 fold for c-fos at 250 microM H2O2. Treatment of N/N1003A cells with 50-250 microM H2O2 for 60 min leads to a 2-5 fold increase of the c-myc mRNA level. H2O2 also induces an up-regulation in transactivity of the activating protein-1 (AP-1) as shown with a reporter gene driven by a prolactin gene promoter with 4 copies of AP-1 binding sites inserted in the upstream of the promoter. Maximal induction occurs with 150 microM H2O2. In the same system, the antioxidants, N-acetyl-cysteine (NAC) and pyrrolidine dithiocarbamate (PDTC) at concentrations shown to up-regulate the mRNAs of both c-jun and c-fos, also enhance the transactivity of AP-1. NAC and PDTC have different effects in modulating the induction of AP-1 activity by H2O2 and TPA. These results reveal that oxidative stress regulates expression of various regulatory genes in lens systems, which likely affects cell proliferation, differentiation and viability and thus affect normal lens functions.
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PMID:Hydrogen peroxide-induced expression of the proto-oncogenes, c-jun, c-fos and c-myc in rabbit lens epithelial cells. 927 55

Injection of acetaminophen (APAP) (350 mg/kg body weight) into C57BL/6 mice in which cytochrome P450 (CYP) 1A1/1A2 had been induced produced acute cataract and other ocular tissue damage. Treatment of APAP-injected mice with one of the major organosulfides in garlic oil, diallyl disulfide (DADS) (200 mg/kg body weight), prevented cataract development and prolonged survival time. N-acetyl L-cysteine (NAC) (500 mg/kg body weight), a prodrug that stimulates glutathione synthesis, also prolonged survival time but was effective only weakly to prevent cataract formation. A combination of DADS and NAC completely prevented cataractogenesis, and all of the treated animals survived APAP toxicity. Neither DADS nor NAC inhibited CYP 1A1/1A2 induction as determined by their effect on the induction of hepatic microsomal ethoxyresorufin O-dealkylase (ERD) activity. However, in the in vitro enzyme assay, DADS, but not NAC, was a potent inhibitor of ERD activity (IC50 = 3.5 mM). Treatment with DADS or NAC slowed but did not stop the decrease of hepatic glutathione (GSH) content. At 4 hours after APAP injection, hepatic GSH began to increase only when DADS and NAC were administered together. These results suggest that the protective effect of DADS is due to its inhibition of biotransformation of APAP to the reactive metabolite N-acetyl-p-benzoquinone imine (NAPQI) by CYP 1A1/1A2 enzymes and that NAC provides protection by increasing cellular cysteine level and GSH synthesis, thus facilitating detoxification of NAPQI by glutathione conjugation. Assay of plasma glutamate-pyruvate transaminase activity, an indicator of liver necrosis, showed that treatment with DADS and NAC together effectively protected the liver. Therefore, the decrease of GSH as much as 30% of normal concentration, by itself, is not responsible for liver damage. The primary cause of hepatic necrosis is rapid accumulation of NAPQI.
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PMID:Prevention of acetaminophen-induced cataract by a combination of diallyl disulfide and N-acetylcysteine. 971 38

Human age-related nuclear cataract is associated with progressive and widespread oxidation of proteins, particularly in the centre of the lens. The reasons for the onset of cataract and why this disease should take place only in the lenses of older individuals remain unclear. However, a common feature of nuclear cataract is the low concentration of reduced glutathione (GSH) in the centre of the lens. GSH is the principal lenticular antioxidant of the lens and it is synthesized and regenerated in the lens cortex. In this study we investigated the diffusion of glutathione within the human lens as a function of age. Normal human lenses were incubated in artificial aqueous humor containing [35S]cysteine and the label was metabolically incorporated into GSH. After 48-h incubation, lenses were sectioned and phosphorimaging was used to determine the distribution of 35S label. In young lenses, label appeared to diffuse uniformly throughout the whole lens. By contrast, in lenses over the age of 30, very little 35S had penetrated to the centre of the lens. A distinct zonal pattern of label distribution was noted in the older lenses after 48 h incubation, which had dimensions of approximately 7.2 mm (diameter) by 2.8 mm (axial). In some older lenses this pattern was noticeable even after 96-h incubation. Thus a barrier to the diffusion of GSH was observed in older normal lenses which was not present in younger lenses. Furthermore, the internal zone thus delineated has dimensions that coincide with those of the coloured and sclerotic zone present in nuclear cataract lenses. Since nuclear cataract is a disease of the elderly, and maintenance of GSH is known to be vital for lens clarity, we propose that the development of a barrier to the movement of GSH from its site of synthesis and regeneration in the cortex, into the nucleus in older normal lenses, may over time allow oxidative modification of protein to take place in the nucleus, resulting ultimately in nuclear cataract.
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PMID:An impediment to glutathione diffusion in older normal human lenses: a possible precondition for nuclear cataract. 987 21

Calpain I (mu-calpain) and II (m-calpain) are well known calcium-activated neutral cysteine proteases. Many reports have shown that activation of calpain is related to cataract formation, neuronal degeneration, blood clotting, ischemic injuries, muscular dystrophy and cornified cell envelope (CE) formation. Here, we report that insoluble CE formation was reduced after treatment with calpain I inhibitor (N-acetyl-leucyl-leucyl-norleucinal) on normal human epidermal keratinocytes (NHEK), whereas serine and thiol protease inhibitors had no effect on the reduction of CE. When NHEK cells were confluent, keratinocytes were treated with various concentrations (0.5 microM-0.5 mM) of calpain I inhibitor or serine and thiol protease inhibitors under calcium induced differentiation. Insoluble CE formation was reduced about 90% in the 50 microM calpain inhibitor I treated group by day 9 of culture, whereas insoluble CE was reduced only 10% in the same condition. Interestingly TGase activity was blocked by 90% in the 0.5 mM calpain inhibitor treated group within 72 h, whereas TGase activity was retained by 80% in the 0.5 mM serine protease inhibitor treated group at 7 day treatment. Therefore it can be suggested that cysteine protease calpains might be responsible for the activation of the TGase 1 enzyme to complete insoluble CE formation during epidermal differentiation.
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PMID:Calpain inhibitors reduce the cornified cell envelope formation by inhibiting proteolytic processing of transglutaminase 1. 989 58

Connexin 46 (cx46), when expressed in Xenopus oocytes, not only forms typical gap junction channels between paired cells but also forms open gap junction hemichannels in the plasma membrane of single cells. The gap junction hemichannels share properties with complete gap junction channels in terms of permeability and gating. Here we characterize the gate that closes hemichannels in response to increased calcium concentration with whole-cell and single-channel records. The channels close within a narrow range of extracellular calcium concentrations (1-2 mM) which includes the calcium concentration prevailing in the primary site of cx46 expression, the lens. The effect of calcium on the channels is determined by voltage. A cysteine mutant of cx46, cx46L35C, was used to determine the localization of the gate. Experimental evidence suggests that position 35 is pore lining. The localization protocol tests the accessibility of position 35 for thiol reagents applied extra- or intracellularly to the channel closed by calcium. Channel closure by calcium excluded the thiol reagent from the outside but not from the inside. Consequently, the gate results in a regional closure of the pore and it is located extracellular to the position 35 of cx46. The present data also suggest that the cx46 gap junction hemichannel may exert a physiological function in the lens. Considering the association of calcium with cataract formation, it is feasible that misregulation of cx46 gap junction hemichannels could be a cause for cataract.
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PMID:Gating of cx46 gap junction hemichannels by calcium and voltage. 991 90

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