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)

The case is reported of a 29-year-old previously healthy female patient who developed the typical clinical picture of scurvy eight months after changing to a diet exclusively containing cooked cereals. Serum levels of B12, folic acid, and calcium were lowered and the alkaline phosphatase was slightly raised due to the dietary lack of vitamins A, D, B12 and folic acid. No clinical signs of these deficiencies could be observed. Addition of vitamin C to this diet resulted in complete cure in a matter of days. Signs and symptoms of scurvy are discussed in the light of the recent literature. This rare disease is particularly worth considering if one of the following situations is encountered: hemorrhages in the skin, muscles, joints or mucous membranes without apparent cause; therapy-resistant ulcers of mucous membranes in elderly patients; Sicca syndrome and/or wounds exhibiting poor healing.
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PMID:[Scurvy in an adult]. 91 80

The vitamin C activity of 2-O-alpha-D-glucopyranosyl-L-ascorbic acid (AA-2G), which is one of chemically stable derivatives of L-ascorbic acid (AsA), in guinea pigs was investigated. Male guinea pigs were divided into 9 groups and fed AsA-deficient diet for 24 days with the following supplement: AA-2G- or AsA-supplemented groups were orally supplemented with 0.96, 1.92, 9.6 and 192 AA-2G mg/animal/day or equimolar amounts of AsA (0.5, 1, 5 and 100 mg/animal/day, respectively); AsA-deficient group received neither of them. The body weight gain, serum alkaline phosphatase activity, and the concentration of AsA and AA-2G in the liver, adrenals and urine of the guinea pigs were measured at the end of the experimental period. The AA-2G-supplemented guinea pigs showed similar body weight gain to the animals supplemented with equimolar amount of AsA. Serum alkaline phosphatase activity in both AA-2G- and AsA-supplemented groups was significantly higher than that of AsA-deficient group. But there was no significant difference between the groups supplemented with AA-2G and the equimolar amount of AsA. AA-2G-supplemented guinea pigs showed no apparent symptoms of scurvy. In AA-2G-supplemented groups, AA-2G was not detected in the liver, adrenals and urine, but AsA was found and the AsA concentration increased with increasing AA-2G dosage. The AsA concentration in the tissues of each AA-2G-supplemented groups was higher than that of AsA-deficient group, which was similar to that of the groups supplemented with equimolar amount of AsA. These results showed that AA-2G has the same vitamin C activity as AsA on a molar basis for the orally supplemented guinea pigs.
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PMID:Vitamin C activity of 2-O-alpha-D-glucopyranosyl-L-ascorbic acid in guinea pigs. 145 34

The effect of vitamin C deficiency on various enzymes of the intestinal epithelium has been studied in guinea pigs. Brush border sucrase and alkaline phosphatase activities were considerably enhanced (p less than 0.001), but leucine aminopeptidase levels were reduced in scorbutic animals compared to the control group. There was essentially no change in the activity of maltase under these conditions. Kinetic studies with sucrase and alkaline phosphatase in control and scorbutic animals revealed that augmentation of the enzyme activities in scurvy is due to enhanced enzyme contents. Lactate dehydrogenase, succinate dehydrogenase, glucose-6-phosphatase and Mg+2 ATPase also exhibited reduced activities in the intestine of vitamin-C-deficient animals. Observed alterations in the activities of intestinal enzymes in scurvy were restored to control levels upon feeding of vitamin C to scorbutic guinea pigs.
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PMID:Alterations in the activities of intestinal enzymes in vitamin-C-deficient guinea pigs. 627 90

The effect of vitamin C deficiency on the digestive and absorptive functions of the gut has been investigated in guinea pigs. The absorption of D-glucose was significantly elevated, but that of L-leucine, L-alanine and L-lysine considerably depressed in the intestine of scorbutic guinea pigs compared to controls. The intestinal transport of vitamin B12 was also diminished. Activities of sucrase and alkaline phosphatase on the brush border were enhanced, but that of leucine aminopeptidase markedly reduced in scorbutic animals compared to controls. Maltase activity was unaffected in vitamin C deficient animals. Chemical analysis of the brush borders isolated from scorbutic animals revealed a considerable decrease in membrane protein, total lipids, phospholipids, and free cholesterol contents compared to control animals. In vivo 2-(14)C-acetate incorporation into membrane lipids suggested that the observed decrease in lipid components of the scorbutic membranes is due to reduced synthesis. Administration of ascorbic acid to scorbutic animals ameliorated the intestinal aberrations observed in scurvy.
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PMID:Effect of vitamin C deficiency in guinea pigs on intestinal functions and chemical composition of brush border membrane. 730 86

Female guinea pigs were fed a scorbutigenic diet supplemented with either L-ascorbic acid or D-isoascorbic acid or combinations of these. Their responses were judged by changes in body weight, serum alkaline phosphatase levels, wound healing, and tooth structure. Large additions (100 mg daily) of D-isoascorbic acid to the scorbutigenic diet resulted in normal growth over a 7-wk period and normal serum alkaline phosphatase levels, tooth structure development, and collagen formation after wounding. The addition of 0.5 or 5.0 mg of L-ascorbic acid to this high D-isoascorbic diet improved neither growth rate nor collagen deposition during wound healing. On the basis of changes in tooth structure, D-isoascorbic acid has 1/20 the potency of L-ascorbic acid. Its effect is additive to subminimal maintenance levels of L-ascorbic acid implying that there is no competitive inhibition in the utilization of the two compounds. The relatively weak activity of D-isoascorbic acid is probably due to poor transport to the tissues and ineffective binding to functional sites. This explains why the onset of scurvy is much more rapid after withdrawal of D-isoascorbic acid from the diet when it had been the sole antiscorbutic dietary constituent. It is concluded that D-isoascorbic acid is a "weakly" antiscorbutic agent on the basis that it is both poorly absorbed and retained by the tissue; that in fact it may, to the degree that it is taken up by the tissues and retained, be equal in antiscorbutic potency to L-ascorbic acid.
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PMID:The antiscorbutic action of L-ascorbic acid and D-isoascorbic acid (erythorbic acid) in the guinea pig. 744 56

The goal of this study was to test the hypothesis that the ratio of liver to bone alkaline phosphatase in blood plasma reflects the ascorbate status in scurvy-prone teleost fish (rainbow trout [Oncorhynchus mykiss]). The studies focused on finding a method for distinguishing bone alkaline phosphatase present in blood plasma from other alkaline phosphatase isoforms. We tested temperature optima and thermostability of liver, kidney, gill cartilage, and intestinal alkaline phosphatases. We did not observe differences among liver, bone, and kidney enzymes with respect to temperature optima and thermostability. We partially purified alkaline phosphatase from juvenile rainbow trout vertebrae and liver using n-butanol solubilization and ammonium sulfate fractionation. We found a difference between bone alkaline phosphatase, which precipitated in 0%-20% ammonium sulfate saturation, and liver enzyme, which required 40%-50% ammonium sulfate saturation to precipitation. We conducted a series of urea inactivation studies on partially purified enzymes from liver and vertebrae. Urea differentially inhibited the enzymes with t 1/2 = 1.1 and 0.4 min, for bone and liver, respectively. Subsequently, we subjected blood plasma alkaline phosphatase to urea inhibition, and using regression analysis we calculated the ratio of liver to bone alkaline phosphatase. We found that thus obtained ratios of bone enzyme in blood plasma correlated with liver ascorbate concentration. Bone alkaline phosphatase declined in ascorbate deficiency 10-fold, whereas low ascorbate status resulted in a 3.5-fold decrease. In order to draw a general conclusion on the linearity of the response of blood plasma/bone alkaline phosphatase as an indicator of ascorbate deficiency in fish, further studies must include analysis of individual fish followed in the process of developing avitaminosis.
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PMID:Utilization of the bone/liver alkaline phosphatase activity ratio in blood plasma as an indicator of ascorbate deficiency in salmonid fish. 861 50

The precise physiological role of alkaline phosphatase is unknown, although evidence suggests it is involved in bone mineralization. Previous studies showed that serum and bone alkaline phosphatase activity is decreased during vitamin C deficiency. Some effects of scurvy, such as inhibition of collagen synthesis, are related to weight loss and subsequent induction of insulin-like growth factor binding proteins and they can be duplicated in fasted guinea pigs receiving vitamin C. We found that decreased alkaline phosphatase activity in bone and serum during scurvy was not completely due to the "fasting effect" and that the decrease in serum was due to loss of bone isoenzyme activity. There also was a decrease in immunoreactive enzyme protein and alkaline phosphatase mRNA concentrations in bone of scorbutic animals, indicating that synthesis of the enzyme was inhibited. Sialylation and addition of the glycosylphosphatidylinositol anchor to the enzyme in bone tissue were not affected by scurvy. The concentration of mRNA for osteocalcin, a bone-specific marker, also fell during scurvy and to a much greater extent than either alkaline phosphatase or type I collagen mRNAs, while osteopontin mRNA concentrations increased. These results differ from the reported role of ascorbic acid on the pattern of expression of these proteins during differentiation of osteoblasts in culture. The decreased expression of collagen, alkaline phosphatase, and osteocalcin could explain the defects in bone caused by scurvy.
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PMID:Regulation and properties of bone alkaline phosphatase during vitamin C deficiency in guinea pigs. 895 Oct 38

Pigs with hereditary ascorbate deficiency (OD pigs) were depleted of, or supplemented with, ascorbic acid by respective diets. Depletion of young (i.e. 5-7 weeks old) animals for at least three weeks had a negative effect on growth, body temperature and levels of bone alkaline phosphatase and induced symptoms of scurvy. Doses of 5 mg ascorbic acid kg-1 body weight day-1 were sufficient to reverse these effects. The level of ascorbic acid sharply decreased in plasma within one week of depletion, whereas in leukocytes it declined more slowly and to a lower extent. Bone alkaline phosphatase levels substantially declined in ascorbic acid depleted animals. Supplementation with > 100 mg ascorbic acid kg-1 body weight day-1 did not improve growth. Dietary ascorbic acid was absorbed from the intestinal lumen into the blood within less than 1 hour and reached a peak 5-6 hours after the meal. The extent of this absorption depended on the systemic ascorbic acid level. Ascorbic acid influenced leukocyte function, since the production of reactive oxygen intermediates by polymorphonuclear leukocytes decreased in supplemented animals. Thus, this animal model permits to establish the level of dietary ascorbic acid that is critical for growth of pigs as well as to study its absorption into the blood and the associated alterations in polymorphonuclear leukocytes and bone metabolism.
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PMID:Dependence of growth, bone metabolism and functions of polymorphonuclear leukocytes on ascorbic acid in pigs. 950 48

A reduction of dehydroerythorbic acid (DERA) to erythorbic acid (ERA) in vitamin C-deficient guinea pigs was evaluated and compared with that of dehydroascorbic acid (DASA). Thirty-six guinea pigs were fed with vitamin C-deficient diets for 18 days. On day 19, the guinea pigs were divided into four groups for the administration of 100 mg of DERA, ERA, ascorbic acid (ASA), or DASA every day. After 12 days of oral administration, the concentration of DERA, ERA, ASA, and DASA in the liver, adrenal, spleen, kidney, and plasma of guinea pigs was determined by HPLC. A recovery from scurvy was measured in terms of weight gain and serum alkaline phosphatase activity. All four groups showed similar recovery, indicating that the oral administration of relatively high concentrations of DERA reversed the effects of scurvy in vitamin C-deficient guinea pigs. In spite of DERA or DASA administration, ERA or ASA was mainly detected in the tissues. The reduction ratios of DEAR and DASA were similar (approximately 80%) in all tissues except spleen. These results suggest that both DASA and DERA are taken up and reduced to ASA or ERA in vivo.
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PMID:Reduction of dehydroerythorbic acid in vitamin C-deficient guinea pigs. 1176 14

Slein, Milton W. (Fort Detrick, Frederick, Md.) and Gerald F. Logan, Jr. Mechanism of action of the toxin of Bacillus anthracis. II. Alkaline phosphatasemia produced by culture filtrates of various bacilli. J. Bacteriol. 83:359-369. 1962.-A factor which produces hyperphosphatasemia after intravenous injection into animals has been found in culture filtrates of several bacilli. The factor appears not to be lecithinase, although it has been found only in culture filtrates of microorganisms, such as Bacillus cereus variants and B. thuringiensis, which are known to produce lecithinase. The factor has been shown to be different from the protective antigen fraction of the toxin of B. anthracis. The phosphatasemic response can be prevented by mixing the factor with antiserum before injection. Immunological tests indicate that the centers of ossification may be a principal source of the excess alkaline phosphatase which is liberated into the bloodstream. However, moderate changes in bone alkaline phosphatase activity levels, brought about by the development of scurvy in guinea pigs or by treatment of scorbutic guinea pigs with ascorbic acid, did not seem to affect the phosphatasemic response of the animals. Marked release of alkaline phosphatase occurs when slices of rabbit epiphyseal bone or kidney cortex, or suspensions of leukocytes, are incubated with small amounts of the phosphatasemia factor.
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PMID:MECHANISM OF ACTION OF THE TOXIN OF BACILLUS ANTHRACIS II. : Alkaline Phosphatasemia Produced by Culture Filtrates of Various Bacilli. 1656 30


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