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)

Red cells and the lens of the eye are non-nucleated cells; moreover, they have metabolic similarities. Cataracts develop in childhood in homozygotes for galactosaemic abnormalities, which can be detected by biochemical measurements in red blood-cells. It has not been determined whether heterozygotes for these defects are at greater risk for cataract development later in life. Similarly, riboflavin deficiecy for which the erythrocyte is a sensitive indicator, has been associated with cataracts in animals. Red-cell studies were carried out in 22 patients, aged under 50, with cataracts. Heterozygosity for galactokinase deficiency was detected in 5 patients, for galactose-uridyl transferase in 2, and evidence of an erythrocytic deficiency of riboflavin in 8. Even when Black subjects were excluded from analysis because of their high incidence of polymorphism for galactokinase, these findings are significantly different from those expected from population surveys and suggest that many patients with presenile cataracts have a biochemical abnormality which can be detected by examination of red blood-cells and which may be corrected by dietary restrictions or supplements.
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PMID:Association of presenile cataracts with heterozygosity for galactosaemic states and with riboflavin deficiency. 7 95

Activity of galactokinase (69 subjects) and galactose-1-phosphate uridyl transferase (92 subjects) were measured in haemolysed blood from children (predominantly of school age) with congenital cataract. chi2 tests, gene-frequency determination and metabolic-kinetic studies indicated that the changes in the lens in congenital cataract are partly due to a manifest or latent disorder of galactose metabolism, in particular a glactose-1-phosphate uridyl transferase defect.
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PMID:[Activity of enzymes of galactose metabolism in so-called congenital cataract (author's transl)]. 16 35

Erythrocytic galactokinase and/or galactose-1-phosphate uridyl transferase activity were low in many species of marsupials. However, cataract formation was observed only in pouch-young members of these species when reared on cow's milk. The galactose tolerance of young kangaroos was found to be greatly impaired, but improved rapidly and markedly at the stage of which the definitive structure of the ruminant type of stomach as in adults is formed. The combination of high absorption of galactose and low levels of galactokinase and/or transferase thus appears to determine the predisposition of pouch-young marsupials to galactose cataractogenesis.
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PMID:Galactose metabolism in relation to cataract formation in marsupials. 17 38

Cultured fibroblasts derived from a patient homozygous for galactokinase deficiency, his parents, and controls had similar rates of growth in culture media where the only hexose was glucose. However, in media where the only hexose was galactose there was almost no growth of homozygous mutant cells or of maternal heterozygous cells and slight growth of paternal heterozygous cells. Growth of control cells was initially slow, but after a lag period (which coincided with increasing galactokinase activity) growth reached approximately the same levels as in glucose medium. In all cell lines there was a direct relation between the degree of enhancement of galactokinase activity and the ability of cells to adapt to growth in media where the only hexose was galactose. Erythrocyte galactokinase activities in a series of 24 children children with congenital cataracts aged 2-16 years were similar to those in 26 controls. One child in each of the cataract and control groups had 40-50% of mean control activity and was considered to be a potential heterozygote. Galactokinase deficiency (homozygous and heterozygous) is considered to be an uncommon cause of childhood cataracts. Nevertheless, it is an important cause since early dietary treatment can prevent or reverse lens opacities. The heterozygous state may be expressed phenotypically in the patient by the appearance of cataracts and in cultured cells by their defective growth in media where galactose is the only hexose.
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PMID:Phenotypic expression of galactokinase deficiency in heterozygous and homozygous subjects: in vivo and in vitro studies. 18 97

Report of a case of galactosemia due to galactokinase deficiency. The author recalls the clinical (opacity of the lens) and biological features (important galactosuria, gallactiloluria, normal aminoaciduria, minimal hyperglycemia following galactose load). Since symptoms of increased intracranial pressure were present in this case, as in another one previously described, the commonly accepted statement that cataract is the only lesion in galactokinase deficiency must be reconsidered.
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PMID:[Cataract due to galactokinase deficiency in a premature infant]. 18 81

Clinical and biochemical diagnostic studies concerned 17 cases of galactosemia coming from 15 not consauguineous families. Galactosemia was diagnosed between 1-st day and 11-th month of life. Tentative diagnosis based on clinical picture was made in 12 infants, others were detected through family history of galactosemia and/or biochemical newborn screening carried out at the National Research Institute of Mother and Child since 1969. Clinical symptoms of galactosemia occurred in most patients in the first week of life. They were the following (tab. II): hepatomegaly (in 94%), jaundice (81%), splenomegaly (79%), vomitus (62%) and diarrhoea in 56% of patients. Cataract was found in 6 infants (38%). Biochemical diagnosis was based on the results of enzymatic estimation of galactose-1-phosphate uridyl transferase activity in blood, galactose-1-phosphate in red blood cells and galactose in blood and urine. No activity of galactose-1-phosphate uridyl transferase was found in all patients, and the concentration of galactose-1-phosphate was higher than 25 mg/100 ml of red blood cells. High galactose level was observed in blood and urine in all patients with typical clinical course of galactosemia. In 2 patients however without clinical symptoms of the disease only trace amounts of galactose was detected in blood and urine. All these patients were treated with galactose free diet.
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PMID:[Clinical and biochemical diagnosis of galactosemia among our cases]. 26 27

A differential effect on protein synthesis has been demonstrated in the lenses of galactosemic rats. During galactose cataract development the synthesis of lens crystallins is depressed, whereas that of noncrystallin proteins is unaffected. This effect correlates with the influx of Na+ and loss of K+ from the lens. Removal of the galactose diet results in a gradual recovering of crystallin synthesis to normal levels. In vitro the nuclear cataractous lenses leak crystallins into the media; however, upon 5 day's recovery no leak-out of crystallins could be detected. Both decreased synthesis and leak-out probably account for the marked loss of dry weight of cataractous lenses. These results support the hypothesis that crystallin synthesis may be affected by cation imbalance or changes concomitant with such an imbalance.
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PMID:Alterations of lens protein synthesis in galactosemic rats. 44 68

Because the dietary requirement for ascorbic acid is similar in humans and guinea pigs, galactose-induced cataract research with the guinea pig as an experimental model instead of the rat might be appropriate and may represent a closer analogy to galactosemic cataract formation in humans. In this study, dietary ascorbic acid was found in all guinea pigs to have a retarding or delaying effect on the development of galactose-induced cataracts.
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PMID:Use of guinea pigs as model to study galactose-induced cataract formation. 70 9

In Part I1 of this study, the thermolability of lens hexokinase was implicated in the development of an experimental "hypoglycemic" cataract. After eight hours of glucose deprivation, there is a precipitous loss of lens hexokinase. This occurs approximately nine hours prior to the disorganization of the other enzymatic steps in glycolysis. Epithelial hexokinase, as an immediate response to glucose deficiency, shifts from the soluble to the insoluble phase. There is no such shift in the cortex-nucleus where only soluble hexokinase is found. After eight hours of glucose deprivation, both soluble and insoluble hexokinases throughout the lens undergo rapid deactivations. During the first eight hours of glucose deprivation the loss of lenticular ATP and K+ and the gain in wet weight can be reversed by restoring normal glucose levels; beyond eight hours the changes are irreversible. During the period of reversibility, hexokinase activity levels are normal; during the period of irreversibility hexokinase activity is 10 to 20 per cent of normal. Of the substances tested (mannose, galactose, fructose, glutamine, adenosine) only mannose could sustain the lens in the absnece of glucose. Neither endogenous free glucose nor glycogen could sustain the lens in the face of glucose deprivation. There appear to be no alternative exogenous or endogenous energy yielding substrates. The younger the animal, the more susceptible is its lens to glucose deprivation. This most certainly is a reflection of the increased susceptibility of younger lenses to osmotic stress, since lenses in each age group manifested similar changes in hexokinase activity, ATP, Na+, and K+ level.
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PMID:Mechanism of "hypoglycemic" cataract formation in the rat lens. II. Further studies on the role of hexokinase instability. 93 98

The influence of daily subcutaneous injections of 5 different corticosteroids (15 mg/kg body weight) on the development of galactose opacities in young rats of approximately 60g body weight was investigated. Progress of cataracts was evaluated by planimetry of lens photos. The three glucocorticosteroids used (cortisol, prednisolone, fluocortolone) induced a slight acceleration of cataract development, while a mineralocorticoid (desoxy-corticosterone) caused a marked retardation. A temporary retardation was also observed with fluocortinbutyl, a rapidly metabolized steroid for topical use.
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PMID:Investigations on the influence of different corticosteroids on the development of galactose cataracts in rats. 108 23


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