The rationale for these experiments is that administration of L-carnitine and/or short-chain acylcarnitines attenuates myocardial dysfunction 1) in hearts from diabetic animals (in which L-carnitine levels are decreased); 2) induced by ischemia-reperfusion in hearts from nondiabetic animals; and 3) in nondiabetic humans with ischemic heart disease. The objective of these studies was to investigate whether imbalances in carnitine metabolism play a role in the pathogenesis of diabetic peripheral neuropathy. The major findings in rats with streptozotocin-induced diabetes of 4–6 weeks duration were that 24-h urinary carnitine excretion was increased ∼ twofold and L-carnitine levels were decreased in plasma (46%) and sciatic nerve endoneurium (31%). These changes in carnitine levels/excretion were associated with decreased caudal nerve conduction velocity (10–15%) and sciatic nerve changes in Na+-K+-ATPase activity (decreased 50%), Mg2+-ATPase (decreased 65%), 1,2-diacyl-sn-glycerol (DAG) (decreased 40%), vascular albumin permeation (increased 60%), and blood flow (increased 65%). Treatment with acetyl-L-carnitine normalized plasma and endoneurial L-carnitine levels and prevented all of these metabolic and functional changes except the increased blood flow, which was unaffected, and the reduction in DAG, which decreased another 40%. In conclusion, these observations 1) demonstrate a link between imbalances in carnitine metabolism and several metabolic and functional abnormalities associated with diabetic polyneuropathy and 2) indicate that decreased sciatic nerve endoneurial ATPase activity (ouabain-sensitive and insensitive) in this model of diabetes is associated with decreased DAG.
Original Articles|
December 01 1994
Neural Dysfunction and Metabolic Imbalances in Diabetic Rats: Prevention by Acetyl-L-Carnitine
Yasuo Ido;
Yasuo Ido
Departments of Pathology, Washington University School of Medicine
St. Louis, Missouri
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Jane McHowat;
Jane McHowat
Molecular Biology and Pharmacology, Washington University School of Medicine
St. Louis, Missouri
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Katherine C Chang;
Katherine C Chang
Departments of Pathology, Washington University School of Medicine
St. Louis, Missouri
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Edoardo Arrigoni-Martelli;
Edoardo Arrigoni-Martelli
Research and Development, Sigma-Tau S.pA
Pomezia, Rome, Italy
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Zaven Orfalian;
Zaven Orfalian
Research and Development, Sigma-Tau S.pA
Pomezia, Rome, Italy
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Charles Kilo;
Charles Kilo
Medicine, Washington University School of Medicine
St. Louis, Missouri
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Peter B Corr;
Peter B Corr
Medicine, Washington University School of Medicine
St. Louis, Missouri
Molecular Biology and Pharmacology, Washington University School of Medicine
St. Louis, Missouri
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Joseph R Williamson
Joseph R Williamson
Departments of Pathology, Washington University School of Medicine
St. Louis, Missouri
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Address correspondence and reprint requests to Dr. Joseph R. Williamson, Department of Pathology, Washington School of Medicine, Box 8118, 660 South Euclid Ave., St. Louis, MO 63110.
Diabetes 1994;43(12):1469–1477
Article history
Revision Received:
January 24 1994
Accepted:
January 24 1994
Received:
January 26 1994
PubMed:
7958501
Citation
Yasuo Ido, Jane McHowat, Katherine C Chang, Edoardo Arrigoni-Martelli, Zaven Orfalian, Charles Kilo, Peter B Corr, Joseph R Williamson; Neural Dysfunction and Metabolic Imbalances in Diabetic Rats: Prevention by Acetyl-L-Carnitine. Diabetes 1 December 1994; 43 (12): 1469–1477. https://doi.org/10.2337/diab.43.12.1469
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