Further studies on elastase and trypsin inhibitory activities in mammalian lenses

Elastase and trypsin inhibitory capacities increased significantly on heat treatment of the lens extract for 15 min at 60 degrees C in human infant (mean increase 290 and 335%), human adult (130 and 245%), ovine (90 and 140%), and bovine (70 and 90%) lenses. No increase was observed in human cataractous lenses. Preincubation with target enzymes in the absence of substrate abolished the antitryptic activity in lenses whereas antielastase activity was more resistant. No decrease in antielastase activity in human adult and cataractous lenses was observed on 15-min preincubation whereas about 50% of activity was abolished in human infant lenses. The differences were attributed to the changes in the levels of endogenous proteinases and proenzymes during cataractogenesis and aging.     

Morphology of the cellular growth of organ cultures of fetal crystalline lens

144 crystalline lenses of swine fetuses, 10 to 20 Mm long, were organ-cultured for up to 42 days in Eagles medium or DMEM in combination with 6% or 20% fetal calf serum. The types of cells detected included epithelioid and infiltrating cells (in 11.1% of lenses), fibroblast-like cells (in 20.8% of lenses) and vesicular cells (in 49.3% of lenses). These cell types characteristic of pathological (cataract-affected) lenses in vivo are absent in normal lenses. According to the data obtained, long-term organ culture of the fetal eye lens may be used as an experimental model of cataractogenesis.     

Efficient age determination: how freezing affects eye lens weight of the small rodent species Arvicola terrestris

Age determination of animals by measuring the weight of their eye lenses is a widely used method in wildlife biology. In general, it is recommended to prepare lenses immediately after trapping to avoid errors in the age estimation due to decomposition of lens tissue. However, in many field studies, large numbers of animals need to be trapped over long periods of time in huge areas and by many different field workers. Therefore, the immediate preparation of eye lenses imposes a considerable logistic constraint that could be avoided by prior freezing of trapped animals. To assess the impact of freezing, weights of lens of frozen and unfrozen eyes of 114 Arvicola terrestris were compared pair wise. The frozen lenses weighed at average 3.3% (95% CI: 2.4–4.1%) more than the unfrozen ones from the same animals. Freezing time, weight of lenses and mean temperature of the trapping day as an indicator of decomposition speed did not affect the freezing-induced weight increase. Age estimates based on weights of unfrozen lenses varied between 24 and 445 days. Estimates based on frozen lenses were systematically higher. Applying a constant correction factor of 1.033⁻¹ for the weight of frozen lenses corrects this overestimation of age. We conclude that age determination with frozen lenses of small rodents can yield valid age estimates if a correction factor for freezing is applied. Thus, age determination can be organised much more efficiently in field studies, which is highly advantageous for many ecological, agricultural and epidemiological research projects.     

抗白内障药物滴眼对亚硒酸钠性白内障的预防作用

 观察了三种化合物(抗氧化剂与自由基清除剂)对大鼠亚硒酸钠性白内障的滴眼预防作用。实验分为正常对照组、亚硒酸钠组及滴眼预防组。亚硒酸钠组及滴眼预防组系给12─13日龄的大鼠皮下注射亚硒酸钠,首次剂量为6μmol/kg体重,间日一次,逐次递增1μmol/kg体重,连续六次。预防组则为大鼠开眼后同时滴眼抗氧化剂与自由基清除剂。结果表明,三种化合物通过滴眼均能有效的防止亚硒酸钠性白内障的发生,白内障的发生率从95.8％降低至15％～43.5％。同时测定了各组晶状体中谷胱甘肽过氧化物酶(GSH-Px)、谷胱甘肽还原酶(GSSG-R)及谷胱甘肽硫转移酶(GSH-S)的活性,结果表明,凡注射硒的大鼠晶状体中GSH-Px及GSSG-R的活性均比正常晶状体的高,接受抗氧化剂与自由基清除剂预防的大鼠晶状体中这两种酶的活性比未接受预防的大鼠晶状体中的低。单独注射硒的大鼠晶状体中GSH-S的活性比正常晶状体的高。接受预防的大鼠晶状体中此酶的活性和正常晶状体无差异,但比单独注射硒的大鼠晶状体中的低。     

Lens crystallin changes associated with amphibian metamorphosis: involvement of a beta-crystallin polypeptide

Lens crystallins isolated from the tadpole and frog lenses were compared with regard to the developmental changes of crystallin compositions. The major changes during the process of metamorphosis were (1) the total contents of alpha- and gamma-crystallins decrease from more than 70% to less than 60% and (2) one of the major beta-crystallin polypeptides increases from less than 1% to about 6% and (3) an amphibian-specific rho-crystallin also increases from about 6% to more than 10% of total soluble proteins of the lens. We have characterized the metamorphosis-dependent beta-crystallin polypeptide by peptide mapping and sequence determination of the protease-digested fragments. This polypeptide showed very high sequence homology to that of the major beta Bp-crystallin chain reported for the mammalian lenses. The changes of the relative abundance of various crystallins and the gradually-elevated levels of the expression of this beta Bp-like crystallin in the developing lens during metamorphosis may also have some bearing on the maintenance of lens stability in the adult frog lenses.     

Age-associated oxidative damage leads to absence of gamma-cystathionase in over 50% of rat lenses: relevance in cataractogenesis

Oxidative damage to lens proteins and glutathione depletion play a major role in the development of senile cataract. We previously found that a deficiency in gamma-cystathionase activity may be responsible for glutathione depletion in old lenses. The aims of this study were: (1) to investigate the mechanism that causes the age-related deficiency in gamma-cystathionase activity in the eye lens, and (2) to determine the role of gamma-cystathionase deficiency in cataractogenesis. Two populations of old rats were found, one (56%) whose lenses lacked gamma-cystathionase activity and the rest that exhibited detectable enzyme activity. gamma-Cystathionase protein was absent in lenses from old rats without gamma-cystathionase activity. Oxidative stress targeted gamma-cystathionase in the eye lens upon aging, since the enzyme contained more carbonyl groups in old lenses than in young ones. gamma-Cystathionase mRNA was also markedly reduced in old lenses, thus contributing to the age-associated deficiency in gamma-cystathionase. Inhibition of gamma-cystathionase activity caused glutathione depletion in lenses and led to cataractogenesis in vitro. In conclusion, the lack of gamma-cystathionase activity in over 50% of old lenses is due to decreased gene expression and proteolytic degradation of the oxidized enzyme. This results in a high risk for the development of senile cataract.     

Study of soluble proteins of mouse crystalline lenses (normal and in cataract)

The water-soluble proteins from mice lenses (normal and cataract lenses) were investigated by methods of absorption spectrophotometry and kinetics of UV-induced radical decay. General characteristic of internal structure of extraction proteins was investigated by recombination kinetic method. It was shown that concentration of water-soluble proteins lowered ten times in lenses of mature cataract, i. e. 90% protein molecules were connected in lenses of mature cataract.     

A relatively small change in sodium chloride concentration has a strong effect on adhesion of ocular bacteria to contact lenses

Adhesion of bacteria to hydrogel lenses is thought to be an initial step of ocular colonization allowing evasion of normal host defences. The salt concentration of media is an important parameter controlling microbial adhesion. Salinity varies from 0·97% NaCl equivalents in the open eye to 0·89% in the closed eye state. In this study, the effect of sodium chloride in the concentration range of 0·8–1·0% (w/v) NaCl on adhesion of ocular bacteria to soft contact lenses was investigated using a static adhesion assay. Pseudomonas aeruginosa was found to adhere to lenses in significantly greater amounts than Serratia marcescens, Flavobacterium meningosepticum, Stenotrophomonas maltophilia and Staphylococcus intermedius . Increasing NaCl from 0·8% to 1·0% (w/v) increased adhesion of all bacteria tested. This adhesion was strong since the organisms could not be removed by washing in low ionic buffer. Adhesion of these organisms did not correlate with their cell surface properties as determined by bacterial adhesion to hydrocarbons (BATH) and retention on sepharose columns.     

The Effects of GPX-1 Knockout on Membrane Transport and Intracellular Homeostasis in the Lens

Glutathione peroxidase-1 (GPX-1) is an enzyme that protects the lens against H₂O₂-mediated oxidative damage. The purpose of the present study was to determine the effects of GPX-1 knockout (KO) on lens transport and intracellular homeostasis. To investigate these lenses we used (1) whole lens impedance studies to measure membrane conductance, resting voltage and fiber cell gap junction coupling conductance; (2) osmotic swelling of fiber cell membrane vesicles to determine water permeability; and (3) injection of Fura2 and Na⁺-binding benzofuran isophthalate (SBFI) into fiber cells to measure [Ca²⁺] _i and [Na⁺] _i , respectively, in intact lenses. These approaches were used to compare wild-type (WT) and GPX-1 KO lenses from mice around 2 months of age. There were no significant differences in clarity, size, resting voltage, membrane conductance or fiber cell membrane water permeability between WT and GPX-1 KO lenses. However, in GPX-1 KO lenses, coupling conductance was 72% of normal in the outer shell of differentiating fibers and 45% of normal in the inner core of mature fibers. Quantitative Western blots showed that GPX-1 KO lenses had about 50% as much labeled Cx46 and Cx50 protein as WT, whereas they had equivalent labeled AQP0 protein as WT. Both Ca²⁺ and Na⁺ accumulated significantly in the core of GPX-1 KO lenses. In summary, the major effect on lens transport of GPX-1 KO was a reduction in gap junction coupling conductance. This reduction affected the lens normal circulation by causing [Na⁺] _i and [Ca²⁺] _i to increase, which could increase cataract susceptibility in GPX-1 KO lenses.     

Stimulation of lens regeneration from the newt dorsal iris when implanted into the blastema of the regenerating limb

Dorsal iris from the eyes of adult Notophthalmus viridescens was transplanted into the blastema of regenerating limbs, subcutaneously in the limb or shoulder region, into the dorsal fin of larval newts and into the hindbrain of larval Ambystoma maculatum. The iris implants into the blastema regenerated lens vesicles or lenses with fibers in 40–75% of the cases. Multiple lenses were found in a few instances. No lenses developed from iris implants into the dorsal fin. Twenty percent of subcutaneous implants of iris formed lenses or lens vesicles, but lens regeneration from implants into the brain occurred only rarely. Denervation of the limb at the time of iris transplantation into the blastema greatly reduced the number of lenses regenerated. Studies on nerve fiber distribution in dorsal fin, subcutaneous areas, and denervated and innervated regenerating limbs, using the Bodian method, showed a general correlation between density of nerve fibers in the implant site and the incidence of lens regeneration from iris implants into that site. These results provide some evidence for a trophic action of nerve fibers on lens regeneration from the iris.     

Combination of glycemic and oxidative stress in lens: implications in augmentation of cataract formation in diabetes

It is well known that the incidence of cataract is higher in diabetics as compared to non-diabetics. Its rate of maturation is also faster in the diabetics. The precise mechanism of this acceleration is not clearly understood. It is hypothesized that this could be a result of the combination of the metabolic and oxidative stress induced by glycemia itself with the age-associated increase in ambient generation of oxyradical species. In the current studies, we have investigated this possibility using the galactose cataract model. Galactosemia was induced by feeding rats a 50% galactose diet. The increased susceptibility of the glycemic lenses to physiological damage by reactive oxygen species (ROS) was studied by incubating them in Tyrode in the absence and presence of menadione. The resulting physiological damage to the lens was assessed initially in terms of its ability to maintain Na⁺-K⁺ ATPase dependent active transport of potassium ions, as represented by the uptake of rubidium ions. Subsequently, the level of ATP, indexing the general metabolic status, and the level of glutathione (GSH), indexing the status of antioxidant reserve, were also determined. The uptake of rubidium in the normal lenses incubated in the presence of the quinone was depressed to more than 50% of the controls run in the basal medium. A similar depression existed in the galactosemic lenses in comparison to the normal lenses. However, in the presence of menadione, the inhibition of the uptake was accentuated further in the case of galactosemic lenses, the uptake here being only 20% of the normal controls. Similarly, the galactosemic lenses were also more susceptible to menadione dependent decrease in ATP and GSH.     

Cataract produced by tyrosinase and tyrosine systems in rabbit lens in vitro

1. Cataracts were developed by incubating rabbit lenses for 22hr. at 37 degrees in a culture medium containing tyrosine and tyrosinase (EC 1.10.3.1). 2. A 45% diminution in the content of GSH and significant inhibition of glucose 6-phosphate dehydrogenase (EC 1.1.1.49) activity were observed in the cataractous lenses compared with controls. 3. GSSG accumulated in both cataractous and control lenses. Significant amounts of GSSG were transported outward from the cataractous lenses and small amounts from control lenses. 4. Transport of GSSG from rabbit lens incubated in a diffusate of plasma from a naphthalene-fed rabbit was also observed. 5. GSSG was found in the aqueous humour obtained between 2 and 24hr. after feeding of naphthalene to rabbits; subsequently the GSSG in the aqueous humour decreased to almost undetectable amounts in 48hr.; in controls, GSSG was not detectable. 6. A possible mechanism of formation of experimental and senile cataract is briefly discussed.     

Prevention of Selenite-Induced Cataractogenesis by an Ethanolic Extract of Cineraria maritima: An Experimental Evaluation of the Traditional Eye Medication

In the present study, the antioxidant potential of an ethanolic extract of Cineraria maritima and its efficacy in preventing selenite-induced cataractogenesis were assessed in vitro and in vivo. In the in vitro phase of the study, lenses dissected out from the eyes of Wistar rats were incubated for 24 h at 37°C in Dulbecco’s modified Eagle medium (DMEM) alone (group I), in DMEM containing 100 μM of selenite only (group II), or in DMEM containing 100 μM of selenite and 300 μg/ml C. maritima extract added at the same time (group III). Gross morphological examination of the lenses revealed dense opacification in group II, minimal opacification in group III, and no opacification in group I lenses. The mean activities of the antioxidant enzymes catalase, glutathione peroxidase, and superoxide dismutase were significantly lower in group II than in group I or group III lenses, while malondialdehyde concentration was significantly higher in group II lenses than in group I and group III lenses. In the in vivo phase of the study, dense opacification of lenses was noted in all rat pups (100%) that had received a single subcutaneous injection of sodium selenite alone (19 μM/kg body weight) on postpartum day 10, whereas cataract formation occurred in only 33.3% of rat pups that had received selenite as well as an intraperitoneal injection of the extract of C. maritima (350 mg/kg body weight) for five consecutive days. These observations suggest that the ethanolic extract of C. maritima may prevent experimental selenite-induced cataractogenesis.     

Effect of mercury on selenium binding to rat lens proteins in vitro

The effect of mercury in the incubation medium on selenium influx, efflux and distribution was studied in eye lenses of 14-day-old rats. The presence of mercury did not affect the uptake of selenium into a water-soluble protein fraction but increased considerably its content in water-insoluble proteins and thus also the selenium influx into experimental lenses. The efflux from experimental lenses yielded significantly lower amounts of released selenium, most of the selenium being bound to proteins. In contrast, efflux experiments with control lenses showed most of the selenium to be in the medium in the form of free anions. The selenium content in experimental lenses decreased after the efflux only in the fraction of water-soluble proteins, while the decrease in control lenses was found in both fractions and was relatively higher in water-insoluble proteins. During both influx and efflux experiments the lenses of both groups released a small of proteins, but no difference found between the two groups.     

乳鼠与成年大鼠晶状体中某些代谢的比较

对乳鼠与10月龄成年大鼠的晶状体代谢进行比较。结果表明,年成大鼠晶状体脂类过氧化作用较乳鼠显著高(P<0.05),而非蛋白质就基含量则较乳鼠低约22％(P<0.01),谷胱甘肽过氧化物酶(GSH-Px)活性随鼠龄增长而逐渐下降,成年大鼠GSH-Px活性较18日龄乳鼠降低62％(P<0.01),成年大鼠的谷胱甘肽还原酶活性较18日龄乳鼠低47％(P<0.01),而谷胱甘肽硫转移酶则高14％(P<0.01)。据此结果推测,去年性白内障的发生可能与晶状体抗氧化遗伤的防御机制减弱与脂类过氧化作用增加有关。而乳鼠晶状体谷胱甘肽硫转移酶(GST)活性低于成年大鼠或许是某些中毒性白内障只可在幼年动物诱发成功的影响因素之一。     

Are the proteinase inhibitory activities in lenticular tissues real?

The possibility of proteinase inhibitory activities in lenses measured with synthetic substrates being spurious, due to the effective competition of lens proteins as substrates for the target enzymes, was investigated. Goat, sheep and human cataractous lens proteins were found to be poor substrates for trypsin, elastase and papain compared to casein or bovine serum albumin. Further, the inhibition of elastase catalyzed hydrolysis of succinyl trialanyl p-nitroanilide by casein (500 μg, 53%) and albumin (500 μg, 49%) and of trypsin-catalyzed hydrolysis of benzoyl argininep-nitroanilide by albumin (1 mg, 24%) were significant only at high protein concentrations. These data indicated that the relatively high antielastase and antitryptic activities observed in human cataractous lenses were real. On the other hand, coincident lens protein hydrolysis elevating the true antitryptic and antielastase activities in goat and sheep lenses (that have low activities) could not be ruled out The lesser papain inhibitory activities observed in lenses when albumin was used as substrate compared to activities with benzoyl arginine p-nitroanilide as substrate, appeared to be partly due to lens protein hydrolysis masking the actual inhibition in the former method. Preincubation of goat, sheep and human lens extracts with trypsin for 1 h resulted in complete loss of antitryptic and antielastase activity except in the case of human lens antielastase activity which underwent 50% loss. Papain inhibitory activity was fully stable. Similar papain treatment caused loss of 80–100% of antielastase activity and 45–55% loss of antitryptic activity.     

Mefloquine Effects on the Lens Suggest Cooperative Gating of Gap Junction Channels

Mefloquine (MFQ) selectively blocks exogenously expressed gap junction channels composed of C×50 but not C×46. The purpose of the current study was to evaluate MFQ effects on wild-type (WT) mouse lenses that express both C×50 and C×46 in their outer shell of differentiating fibers (DFs). Lenses in which C×46 was knocked into both C×50 alleles (KI) were used as controls; MFQ had no effect on coupling in these lenses. When WT lenses were exposed to MFQ, the DF coupling conductance decreased significantly, suggesting that C×50 contributes about 57% of the coupling conductance in DF and C×46 contributes 43%. Remarkably, in the presence of MFQ, the 43% of the channels that remained open did not gate closed in response to a reduction in pH, whereas in the absence of MFQ, the same pH change caused all the DF channels to gate closed. Since MFQ is a selective blocker of C×50 channels, it appears that C×46 channels lack pH-mediated gating in the absence of functional C×50 channels but are pH-sensitive in the presence of C×50 channels. These results suggest the two types of channels interact and gate cooperatively.     

Aldose reductase deficiency protects sugar-induced lens opacification in rats

Aldose reductase (AKR1B1), which catalyzes the reduction of glucose to sorbitol and lipid aldehydes to lipid alcohols, has been shown to be involved in secondary diabetic complications including cataractogenesis. Rats have high levels of AKR1B1 in lenses and readily develop diabetic cataracts, whereas mice have very low levels of AKR1B1 in their lenses and are not susceptible to hyperglycemic cataracts. Studies with transgenic mice that over-express AKR1B1 indicate that it is the key protein for the development of diabetic complications including diabetic cataract. However, no such studies were performed in genetically altered AKR1B1 rats. Hence, we developed siRNA-based AKR1B1 knockdown rats (ARKO) using the AKR1B1-siRNA-pSuper vector construct. Genotyping analysis suggested that more than 90% of AKR1B1 was knocked down in the littermates. Interestingly, all the male animals were born dead and only 3 female rats survived. Furthermore, all 3 female animals were not able to give birth to F1 generation. Hence, we could not establish an AKR1B1 rat knockdown colony. However, we examined the effect of AKR1B1 knockdown on sugar-induced lens opacification in ex vivo. Our results indicate that rat lenses obtained from AKR1B1 knockdown rats were resistant to high glucose-induced lens opacification as compared to wild-type (WT) rat lenses. Biochemical analysis of lens homogenates showed that the AKR1B1 activity and sorbitol levels were significantly lower in sugar-treated AKR1B1 knockdown rat lenses as compared to WT rat lenses treated with 50mM glucose. Our results thus confirmed the significance of AKR1B1 in the mediation of sugar-induced lens opacification and indicate the use of AKR1B1 inhibitors in the prevention of cataractogenesis.     

In vitro photochemical cataract in mice lacking copper-zinc superoxide dismutase

We here evaluate cataract formation in mice lacking the cytosolic copper-zinc superoxide dismutase (CuZn-SOD) in an in vitro model using irradiation with visible light and riboflavin as a photosensitizing agent. Isolated, cultured lenses from wild-type and CuZn-SOD-null mice were irradiated for 1.5 h by a daylight fluorescent light after preincubation with 10 microM riboflavin for 24 h. Cataract formation was evaluated daily with digital image analysis and ocular staging, and after 5 d 86Rb uptake and water contents of the lenses were determined. Basal superoxide concentrations in freshly isolated lenses from wild-type and CuZn-SOD-null mice were determined with lucigenin-derived chemiluminescense, and enzymatic activities of all three SOD isoenzymes in the murine lens were determined with a direct spectrophotometric method. The cytosolic CuZn-SOD accounts for 90% of the total SOD activity of the murine lens. CuZn-SOD-null lenses showed a doubled basal superoxide concentration, and were more prone to develop photochemical cataract in the present model with more opacification, more hydration, and less 86Rb uptake than lenses from wild-type mice. We conclude that CuZn-SOD is an important superoxide scavenger in the lens, and that it may have a protective role against cataract formation.     

Characterization of dominant hereditary cataract in DDD/1 mice

We found a female cataractous DDD/1-nu/+ mouse and established a hairy mutant strain (DDD/1-Cti/Cti) with 100% incidence of cataract from it by repeating sibmating. Genetic studies demonstrated that a single autosomal semidominant gene controls cataractogenesis. This gene was named Cti. In homozygotes, DDD/1-Cti/Cti, the lenses began to opacify at 14 days of fetal life and were recognized clinically as cataract at 13-14 days of age when the eyes first open. The opacification became more and more intense with age and looked like mature cataract at 28-42 days of age. However, clarification of the opacified lenses commenced at the periphery after 56 days of age and expanded to the inside with time, and only an opaque spot was left at the center at 140 days of age. In heterozygotes, DDD/1-Cti/+, the lenses were recognizable as cataract after 28 days and became like mature cataract around 35 days of age. The opacity began to be lightened at 42 days and the lenses appeared normal at 56 days of age. Both lenses and eyeballs developed in similar courses in DDD/1(-)+/+, -Cti/+ and -Cti/Cti, although slightly retarded in the last. Microphthalmia was not accompanied even in DDD/1-Cti/Cti. The lens water content remained higher during the time when intense lens opacity continued in DDD/1-Cti/Cti and -Cti/+. Background genes appeared to affect the expression of Cti. DDD/1-Cti(-)+ mice may provide a model for researches into clarification of opaque lenses. A discussion concerning the possible allelism of Cti and Cts with Lop was made based on their phenotypic characteristics.