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:C0036474 (scurvy)
685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homo sapiens' gene pool contains a defective gene for the synthesis of the active enzyme protein, L-gulonolactone oxidase(GLO). The absence of GLO in the human liver blocks the normal mammalian conversion of blood sugar into ascorbate, leading to the potentially-fatal "inborn error of carbohydrate metabolism", the genetic disease, Hypoascorbemia (in the older nomenclature- scurvy). To survive, humans need exogenous sources of daily ascorbate. Most mammals have the intact gene for GLO synthesis and produce generous daily amounts of the liver metabolite, ascorbate; for instance, an unstressed 70 Kg goat is capable of producing over 13 grams of ascorbate daily and much more under stress. The recommended dietary allowance of 45 milligrams of ascorbate a day for human adults, now proposed and used by nutritionists, is grossly inadequate to restore Homo sapiens to a normal mammalian ascorbate physiology. To correct fully this human genetic defect and banish epidemic chronic subclinical scurvy requires daily intakes of ascorbate equivalent to, at least, the amounts synthesized by the other mammals. Humans kept on a long term regime of full correction of this birth defect show great salutary benefits in health maintenance, disease therapy and slowing of the aging process. This can be regarded as the creation of a new and more robust, longer-living, tough human sub-species, Homo sapiens ascorbicus, by the biochemical reversal of a primate mutation occurring some 60 million years ago. Some of the practical benefits and pathways of future clinical research are discussed.
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PMID:Homo sapiens ascorbicus, a biochemically corrected robust human mutant. 49 97

L-Gulono-gamma-lactone oxidase (L-gulono-gamma-lactone:oxygen 2-oxidoreductase, EC 1.1.3.8) is the enzyme that catalyzes the terminal step of L-ascorbic acid biosynthesis in mammalian liver. The absence of the oxidase activity in primates and guinea pigs is the reason why these animals are subject to scurvy, which must be considered an inborn error of metabolism. Attempts were made to determine if a protein immunologically crossreactive with L-gulono-gamma-lactone oxidase is present in these animals. Detergent-solubilized microsomal preparations from guinea pig and African green monkey liver did not precipitate the antisera directed to either rat or goat enzyme, nor did any of the other cell fractions obtained from guinea pig liver react with either antiserum. No crossreactive protein was detectable in guinea pig microsomes even with the sensitive procedure or micro-complement fixation. On the other hand, extracts of all 10 other mammalian (4 orders) liver microsomes tested were shown to contain L-gulono-gamma-lactone oxidase activity that did crossreact with antibodies to the rat and goat enzymes. One explanation of these findings is that, in the guinea pig, and perhaps in primates too, the structural gene for L-gulono-gamma-lactone oxidase is not expressed.
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PMID:Immunologic evidence that the gene for L-gulono-gamma-lactone oxidase is not expressed in animals subject to scurvy. 81 30

The osteogenic disorder Shionogi (ODS) rat is a mutant Wistar rat that is subject to scurvy, because it lacks L-gulono-gamma-lactone oxidase, a key enzyme in L-ascorbic acid biosynthesis. Sequencing of polymerase chain reaction-amplified cDNAs for mutant and normal rat L-gulono-gamma-lactone oxidases demonstrated that the mutant cDNA has a single base mutation from G to A at nucleotide 182, which mutation alters the 61st amino acid residue from Cys to Tyr. To test the effect of this mutation on the expression of L-gulono-gamma-lactone oxidase, we inserted a region of the cDNAs coding for normal and mutant L-gulono-gamma-lactone oxidases into an expression vector, pSVL, and transfected COS-1 cells with such vectors. The result indicated that the defined amino acid substitution does decrease both the amount of immunologically detectable protein and the level of enzyme activity to about one-tenth of their normal values, while it does not affect the amount of the mRNA produced in the transfected cells. This situation is similar to our previous observation that L-gulono-gamma-lactone oxidase is expressed in the liver of the ODS rat at a very low level irrespective of the presence of a normal amount of L-gulono-gamma-lactone oxidase-specific mRNA of a normal size (Nishikimi, M., Koshizaka, T., Kondo, K., and Yagi, K. (1989) Experientia (Basel) 45, 126-129). Thus it became clear that the Cys-->Tyr substitution is responsible for the L-gulono-gamma-lactone oxidase deficiency in the ODS rat.
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PMID:A missense mutation of L-gulono-gamma-lactone oxidase causes the inability of scurvy-prone osteogenic disorder rats to synthesize L-ascorbic acid. 140 May 8

The Osteogenic Disorder Shionogi (ODS) rat, Clea Inc., Tokyo, Japan lacks the ability to synthesize L-ascorbic acid (AA). As with man, monkey and the guinea pig, this rat lacks L-gulonolactone oxidase necessary for the synthesis of AA from glucose. This study shows this animal to be an alternative to the guinea pig in AA studies. The anti-scorbutic potency of Ester C (EC), a calcium ascorbate and calcium threonate mixture, was compared with an AA dose of equal ascorbate activity equivalents (AAE) for anti-scorbutic activity in the ODS rat. The minimal anti-scorbutic dose of EC was determined to be 0.44 mg/kg/day (AAE), while an AA dose of 0.51 mg/kg/day (AAE) was not anti-scorbutic in a 24 day study. At 24 days EC rats gained 125% of initial body weight (BW) and the AA rats only 45% BW. Scorbutic signs at 24 days were scored on a 0 (min) to 3 (max) scale. The EC/AA ratio scores were: hemorrhage 0/1.4, behavior change 0/2.0, piloerection 0/2.2, mobility 0.4/2.2, dysbasia 0.6/2.8 and ataxia 0.4/1.0. Pearson's correlation coefficient for BW versus AAE was r = .34 for the AA group and r = .90 for the EC group. The morbidity index for EC was 0/5 and for the AA group 2/5. The AAE dose of AA which was 16% higher/day than the EC AAE dose was not anti-scorbutic, while the EC dose was anti-scorbutic. EC rats had 3.5X greater weight gain, a sensitive indicator of scurvy, than the AA rats. EC rats had 3-4 times less, if any, scorbutic signs than AA rats. The results clearly show that, based on ascorbate activity equivalents, EC has more available ascorbate activity/potency than AA. The mechanism of this increased potency is believed to be due to the facilitated transport of AAE into the cell by the threonate (a normal in vivo metabolite of AA) present in the EC product. In addition, previous studies have shown EC (AAE) to be higher in plasma and excreted less rapidly than the AAE derived from AA administered orally.
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PMID:Comparison of the anti-scorbutic activity of L-ascorbic acid and Ester C in the non-ascorbate synthesizing Osteogenic Disorder Shionogi (ODS) rat. 190 22

Guinea pigs fed an ascorbic acid-deficient diet develop scurvy because of the absence of the enzyme L-gulonolactone oxidase. In theory if this enzyme is provided and its substrate L-gulonolactone is present at adequate concentrations ascorbic acid will be synthesized and the development of scurvy prevented. Using this model we tested whether a viable segment of intestine could be used to contain the administered enzyme and act as an artificial organ for the production of ascorbic acid. A surgical procedure was developed to prepare an externalized pouch of intestine with its circulation left intact. When enzyme is inserted in this intestinal bag it is not toxic and not antigenic in some animals, whereas, enzyme injected intraperitoneally is clearly antigenic. Synthesis of ascorbic acid by this artificial organ could not, however, be detected by elevation of plasma concentrations of the vitamin.
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PMID:Feasibility of using an isolated intestinal segment as an artificial organ for enzyme replacement therapy. 710 31

Transfer of the gene for L-gulono-gamma-lactone oxidase, the missing enzyme in L-ascorbic acid biosynthesis in scurvy-prone animals, into medaka (Oryzias latipes) was successfully done. The expression plasmid pSVL-GLO, carrying rat liver L-gulono-gamma-lactone oxidase cDNA, was microinjected into the cytoplasm of fertilized eggs during the one-cell stage. Four male F0 fish having the transgene in their germ cells came to maturity, and F1 progeny derived from one of the F0 fish possessed L-gulono-gamma-lactone oxidase activity, indicating that the transgene was functionally expressed in the fish. Genomic Southern blot analysis demonstrated that the transgene existed in both chromosome-integrated and extrachromosomal forms.
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PMID:Transgenic expression of L-gulono-gamma-lactone oxidase in medaka (Oryzias latipes), a teleost fish that lacks this enzyme necessary for L-ascorbic acid biosynthesis. 868 50

The ability of rainbow trout liver and kidney preparations to produce L-ascorbic acid with an added source of L-gulono-gamma-lactone oxidase (GLO) and the absence of their own GLO activity suggested that the reason for the absence of L-ascorbic acid biosynthesis in fish and in guinea pig, a scurvy-prone mammal, can be similar. Nevertheless, results of rat GLO cDNA expression in guinea pig cells and in rainbow trout proved different. In guinea pig cells, rat GLO was expressed in a functional form. Regardless of recombinant GLO transcripts detected in rainbow trout embryos, alevins and in juvenile fish, neither GLO protein nor GLO activity were found. Furthermore, production of L-ascorbic acid in transgenic rainbow trout was not revealed in feeding tests with vitamin C-free diets or after direct administration of L-gulono-gamma-lactone. These results indicate that conditions required for translation or stability of rat GLO are absent in rainbow trout tissues.
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PMID:Expression of rat gene for L-gulono-gamma-lactone oxidase, the key enzyme of L-ascorbic acid biosynthesis, in guinea pig cells and in teleost fish rainbow trout (Oncorhynchus mykiss). 968 63

The reviewed studies addressed the possibility of using gene transfer for correction of L-ascorbic acid biosynthesis and carbohydrate utilization in rainbow trout. Analyses of enzymatic activities in the L-AAB pathway indicated that reasons for the lack of L-AA production can be common in fish and scurvy-prone animals. Rat gulonolactone oxidase cDNA was transferred into trout. Regardless of the fact that rGLO transcription occurred in embryos, neither GLO protein, nor enzyme activity were detected. There was no production of L-AA in transgenic fish raised on vitamin C-free diets or injected with L-gulonolactone. These results indicated that the conditions required for translation or stability of rGLO were not present in trout tissues. To augment carbohydrates utilization, human glucose transporter 1 and rat hexokinase II cDNAs were tested. In the transfected embryos. HK activity, rates of hexose uptake and glucose oxidation were increased. The effect of hGLUT1 on glucose metabolism was greater than that of rHKII. Trout carrying hGLUT1 and rHKII with viral or piscine promoters were created. Though interpretation of the metabolic effects of the transgenes was complicated with mosaicism, a tendency to improved carbohydrate utilization was revealed in some of the transgenic individuals.
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PMID:Gene transfer for targeted modification of salmonid fish metabolism. 1059 49

To investigate the effects of ascorbic acid deficiency on the pathogenesis of hypertension and/or its complications, we established a rat strain with both genetic hypertension and a defect of ascorbic acid biosynthesis. The od gene (L-gulono-gamma-lactone oxidase gene) of the ODS (Osteogenic Disorder Shionogi) rat, which is a rat mutant unable to synthesize ascorbic acid, was introduced into spontaneously hypertensive rats (SHR), and a novel congenic strain, SHR-od, was established. SHR-od showed scurvy when fed an ascorbic acid-free diet. Systolic blood pressure of male SHR-od began to increase at 9 weeks of age and reached 190-200 mmHg at 20 weeks of age. In 25-week-old SHR-od, ascorbic acid deficiency when fed an ascorbic acid-free diet for 6 weeks caused a remarkable reduction of blood pressure to lower than 110 mmHg. The wall to lumen ratio of the testicular artery in ascorbic acid-deficient SHR-od was lower than that of the control rats. When rats were fed a diet supplemented with ascorbic acid (300 mg/kg), ascorbic acid concentration in SHR-od was lower in the serum and liver than that in ODS rats. These results indicate that ascorbic acid could be closely related to the development of hypertension in SHR-od. We believe that SHR-od will be a useful model for experimental studies on hypertension and its complications, since all of them suffer from hypertension spontaneously and the level of ascorbic acid deficiency in these rats could be controlled at will both in concentration and duration.
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PMID:A newly established strain of spontaneously hypertensive rat with a defect of ascorbic acid biosynthesis. 1169 68

The influences of chronic deficiency of L-ascorbic acid (AsA) on the differentiation of osteo-chondrogenic cells and the process of endochondral ossification were examined in the mandibular condyle and the tibial epiphysis and metaphysis by using Osteogenic Disorder Shionogi (ODS) rats that bear an inborn deficiency of L-gulonolactone oxidase. Weanling male rats were kept on an AsA-free diet for up to 4 weeks, until the symptoms of scurvy became evident. The tibiae and condylar processes of scorbutic rats displayed undersized and distorted profiles with thin cortical and scanty cancellous bones. In these scorbutic bones, the osteoblasts showed characteristic expanded round profiles of rough endoplasmic reticulum, and lay on the bone surface where the osteoid layer was missing. Trabeculae formation was deadlocked, although calcification of the cartilage matrix proceeded in both types of bone. Scorbutic condylar cartilage showed severe disorganization of cell zones, such as unusual thickening of the calcification zone, whereas the tibial cartilage showed no particular alterations (except for a moderately decreased population of chondrocytes). In condylar cartilage, hypertrophic chondrocytes were encased in a thickened calcification zone, and groups of nonhypertrophic chondrocytes occasionally formed cell nests surrounded by a metachromatic matrix in the hypertrophic cell zone. These results indicate that during endochondral ossification, chronic AsA deficiency depresses osteoblast function and disturbs the differentiation pathway of chondrocytes. The influence of scurvy on mandibular condyle cartilage is different from that on articular and epiphyseal cartilage of the tibia, suggesting that AsA plays different roles in endochondral ossification in the mandibular condyle and long bones.
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PMID:Morphological influence of ascorbic acid deficiency on endochondral ossification in osteogenic disorder Shionogi rat. 1222 15


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