Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0003969 (vitamin C deficiency)
 625 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been suggested that early features of scurvy (fatigue and weakness) may be attributed to carnitine deficiency. Ascorbate is a cofactor for two alpha-ketoglutarate-requiring dioxygenase reactions (epsilon-N-trimethyllysine hydroxylase and gamma-butyrobetaine hydroxylase) in the pathway of carnitine biosynthesis. Carnitine concentrations are variably low in some tissues of scorbutic guinea pigs. Ascorbic acid deficiency in guinea pigs resulted in decreased activity of hepatic gamma-butyrobetaine hydroxylase and renal but not hepatic epsilon-N-trimethyllsine hydroxylase when exogenous substrates were provided. It remains unclear whether vitamin C deficiency has a significant impact on the overall rate of carnitine synthesis from endogenous substrates. Nevertheless, results of studies of enzyme preparations and perfused liver in vitro and of scorbutic guinea pigs in vivo provide compelling evidence for participation of ascorbic acid in carnitine biosynthesis.
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PMID:Ascorbic acid and carnitine biosynthesis. 196 62

The effects of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and kidney carnitine levels were not affected by the deficiency, but scorbutic animals had 50% less carnitine in heart and skeletal muscle than control animals. Labeled carnitine precursors, 6-N-tri-methyl-L-lysine and 4-N-trimethylaminobutyrate, both of which require ascorbate for their enzymatic hydroxylation, were injected into the vena cava of control, pair-fed and scorbutic animals. The distribution of isotope in compounds present in the liver and kidney after 1 h was determined. The uptake of trimethyllysine by the liver was less than 2% in 1 h, while the kidney took up approx. 20% of the 14C. Control and pair-fed animals converted trimethyllysine to kidney trimethylaminobutyrate 8--10 times as well as did scorbutic animals. Trimethylaminobutyrate hydroxylase, present in the liver but almost absent from the kidney, converted nearly all of substrate taken up by the liver to carnitine in both the scorbutic and control animals.
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PMID:Effect of ascorbic acid deficiency on the in vivo synthesis of carnitine. 678 20

Experimental vitamin C deficiency in guinea pigs is associated with low carnitine concentrations in blood and some tissues. Ascorbic acid is a cofactor for two enzymes in the pathway of carnitine biosynthesis. The effect of experimental vitamin C deficiency on the ability of guinea pigs to synthesize carnitine was in animals fed a vitamin C-deficient diet for 28 days. On days 19 to 28, supplements (0.5 mmol.kg body weight-1.d-1) of the carnitine precursors epsilon-N-trimethyllysine or gamma-butyrobetaine were administered orally. Ascorbate-supplemented, ascorbate-deficient, and pair-fed (to ascorbate-deficient) animals showed an increase in the rate of carnitine biosynthesis (as estimated from measured rates of carnitine excretion) of 32 to 40 mumol.kg body weight-1.d-1 following supplementation with epsilon-N-trimethyllysine. Likewise, animals in each experimental group showed an increase in the rate of carnitine biosynthesis of 41 to 50 mumol.kg body weight-1.d-1 after supplementation with gamma-butyrobetaine. These results indicate that scorbutic guinea pigs are able to synthesize carnitine at a normal or above-normal rate. For guinea pigs not given a carnitine precursor supplement, rates of free and total carnitine excretion for ascorbate-deficient (but not pair-fed) animals were threefold higher than for ascorbate-supplemented animals during days 19 to 28 of the feeding regimen. Thus, carnitine depletion in vitamin C deficiency likely is due to excessive urinary excretion of carnitine and not to a decreased rate of carnitine biosynthesis.
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PMID:The ability of guinea pigs to synthesize carnitine at a normal rate from epsilon-N-trimethyllysine or gamma-butyrobetaine in vivo is not compromised by experimental vitamin C deficiency. 775 11