Effect of ascorbic acid deficiency on the in vivo synthesis of carnitine

The effects of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and kidney carnitine levels werenot affected by the defficiency, but scorbutic animals had 50% less carnitine in heart and skeletal muscle than control animals. Labeled carnitine precursor...

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Published in	Biochimica et biophysica acta Vol. 672; no. 1; pp. 123 - 127
Main Authors	Nelson, Peter J., Pruitt, Robert E., Henderson, LaRhee L., Jenness, Robert, Henderson, LaVell M.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 07.01.1981
Subjects	Animals ascorbic acid Ascorbic Acid Deficiency - metabolism Body Weight Carnitine - biosynthesis gamma-Aminobutyric Acid - analogs & derivatives gamma-Aminobutyric Acid - metabolism Guinea Pigs Kidney - metabolism Liver - metabolism Lysine - analogs & derivatives Lysine - metabolism Male Muscles - metabolism Myocardium - metabolism Organ Size
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ISSN	0304-4165 0006-3002 1872-8006
DOI	10.1016/0304-4165(81)90286-5

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Abstract	The effects of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and kidney carnitine levels werenot affected by the defficiency, but scorbutic animals had 50% less carnitine in heart and skeletal muscle than control animals. Labeled carnitine precursors, 6-N- trimethyl- L-lysine and 4- N-trimethylaminobutt4yrate, 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 <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.
AbstractList	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. The effects of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and kidney carnitine levels werenot affected by the defficiency, but scorbutic animals had 50% less carnitine in heart and skeletal muscle than control animals. Labeled carnitine precursors, 6-N- trimethyl- L-lysine and 4- N-trimethylaminobutt4yrate, 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 <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. 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.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.
Author	Nelson, Peter J. Jenness, Robert Henderson, LaRhee L. Henderson, LaVell M. Pruitt, Robert E.
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Cites_doi	10.1016/0003-9861(78)90287-4 10.1016/S0021-9258(17)34915-3 10.1016/S0021-9258(18)62901-1 10.1021/jo01353a606 10.1016/0009-8981(72)90438-X 10.1016/0003-2697(76)90518-2 10.1016/0304-4165(80)90067-7 10.1016/0003-9861(67)90302-5 10.1079/BJN19800102
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Snippet	The effects of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and kidney carnitine levels werenot affected by... The effects of ascorbate deficiency on carnitine biosynthesis was investigated in young male guinea pigs. Liver and kidney carnitine levels were not affected...
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SubjectTerms	Animals ascorbic acid Ascorbic Acid Deficiency - metabolism Body Weight Carnitine - biosynthesis gamma-Aminobutyric Acid - analogs & derivatives gamma-Aminobutyric Acid - metabolism Guinea Pigs Kidney - metabolism Liver - metabolism Lysine - analogs & derivatives Lysine - metabolism Male Muscles - metabolism Myocardium - metabolism Organ Size
Title	Effect of ascorbic acid deficiency on the in vivo synthesis of carnitine
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