Method of determining sources of acetyl-CoA under nonsteady-stat

Details Method of determining sources of acetyl-CoA under nonsteady-stat Method of determining sources of acetyl-CoA under nonsteady-stat

1990-07-18

1995-05-09

Wityshyn, Michael G.

Chemistry: molecular biology and microbiology

Measuring or testing process involving enzymes or...

Involving viable micro-organism

435 4, 435 14, 435 29, 435 30, 436 56, 436 57, 436 63, 436173, 424 93, 424 935, C12Q 100, C12Q 102, C12Q 104

Patent

active

054139171

ABSTRACT:
The present invention relates to a method of measuring the contribution of one or more exogenously administered .sup.13 C-labeled substrates to acetyl-CoA. The measurement can be made in a tissue or cell using .sup.13 C NMR without the constraint of metabolic or isotopic steady-state. Furthermore, the method permits the determination even when spectral lines are broad due to B.sub.0 inhomogeneity, thereby opening the way for substrate utilization studies in vivo. The method does not require many of the simplifying assumptions involved in .sup.11 C or .sup.14 C methods, and, since a stable isotope, .sup.13 C, is used a wide variety of compounds with complex labeling patterns may be synthesized and studied.

REFERENCES:
Cerdan J. Biol. Chem. v. 265 n. 22 pp. 12916-12926 (1990).
Behr et al Magnetic Resonance in Medicine 3 pp. 911-920 1986.
Williamson, J. R. and Krebs, H. A., Biochem. J. vol. 80, "Acetoacetate as Fuel of Respiration in the Prefused Rat Heart" pp. 540-547 (1961).
Williamson, J. R., Biochem. J. vol. 83, "Effects of Insulin and Diet on the Metabolism of L(+)-Lactate and Glucose by the Perfused Rat Heart" pp. 377-383 (1962).
Neely et al., Biochem. J. vol. 128, "The Effects of Increased Heart Work on the Tricarboxylate Cycle and its Interactions with Glycolysis in the Perfused Rat Heart", pp. 147-159 (1972).
Mickle et al., Cardiovascular Research vol. 20, "Exogenous Substrate Preference of the Post-Ischaemic Myocardium" pp. 256-263 (1986).
Myears et al., American Physiological Society, "Substrate Use in Ischemic and Reperfused Canine Myocardium: Quantitative Considerations" pp. H107-H114 (1987).
Liedtke et al., Circulation Research vol. 62, No. 3, "Changes in Substrate Metabolism and Effects of Excess Fatty Acids in Reperfused Myocardium" pp. 535-542 (Mar. 1988).
Wyns et al., Circulation Research vol. 65, No. 6, "Effects of Inhibition of Fatty Acid Oxidation on Myocardial Kinetics of .sup.11 C-Labeled Palmitate" pp. 1787-1797 (Dec. 1989).
Keijo J. Peuhkurinen, J. Mol. Cell. Cardiol. vol. 16, "Regulation of the Tricarboxylic Acid Cycle Pool Size in Heart Muscle" pp. 487-495 (1984).
H. L. Kornberg, Essays in Biochem. vol. 2, "Anaplerotic Sequences and their Role in Metabolism" pp. 1-31 (1966).
Chatzidakis, C. and Otto, David A., LIPIDS, vol. 22, No. 9, "Labeled Oxidation Products from [1-.sup.14 C], [U-.sup.14 C] and [16-.sup.14 C] Palmitate in Hepatocytes and Mitochondria" pp. 620-627 (1987).
Veerkamp et al., Biochemical Medicine and Metabolic Biology vol. 35, ".sup.14 CO.sub.2 Production Is No Adequate Measure of [.sup.14 C] Fatty Acid Oxidation" pp. 248-259 (1986).
Lerch et al., Circulation vol. 64, No. 4, "Localization of Viable, Ischemic Myocardium by Positron-emission Tomography with .sup.11 C-Palmitate" pp. 689-699 (Oct. 1981).
Schwaiger et al., JACC vol. 6, No. 2, "Sustained Regional Abnormalities in Cardiac Metabolism After Transient Ischemia in the Chronic Dog Model" pp. 336-347 (Aug. 1985).
Brown et al., Circulation vol. 76, No. 3, "Delineation of Myocardial Oxygen Utilization With Carbon-11-Labeled Acetate" pp. 687-696 (Sep. 1987).
London, Robert E. Prog. in NMR Spectroscopy, vol. 20, ".sup.13 C Labeling in Metabolic Regulation Studies" pp. 337-383 (1988).
Walker et al., J. of Biolog. Chem. vol. 257, No. 3, ".sup.13 C Nuclear Magnetic Resonance Studies of the Biosynthesis by Microbacterium ammoniaphilum of L-Glutamate Selectively Enriched with Carbon-13" pp. 1189-1195, Feb. 10, 1982.
Chance et al., The J. of Biolog. Chem. vol. 258, No. 22 "Mathematical Analysis of Isotope Labeling in the Citric Acid Cycle with Applications to .sup.13 C NMR Studies in Perfused Rat Hearts" pp. 13785-13794 (Nov. 25, 1983).
Sheila M. Cohen, The J. of Biolog. Chem. vol. 258 No. 23, "Simultaneous .sup.13 C and .sup.31 P NMR Studies of Perfused Rat Liver" pp. 14294-14308 (Dec. 10, 1983).
Walker, T. E. and London, R. E., Applied and Environmental Microbiology, vol. 53, No. 1, "Biosynthetic Preparation of L-[.sup.13 C]- and [.sup.15 N]Glutamate by Brevibacterium flavum" pp. 92-98 (Jan. 1987).
Malloy et al., J of Biolog Chem vol. 263 No. 15 "Evaluation of Carbon Flux and Substrate Selection Through Alternate Pathways Involving the Citric Acid Cycle of the Heart by .sup.13 C NMR Spectroscopy" pp. 6964-6971 (May 25, 1988).
Sherry et al., Biochem. J. vol. 254, "Propionate metabolism in the rat heart by .sup.13 C n.m.r. spectroscopy" pp. 593-598 (1988).
Craig R. Malloy in Structural and Organizational Aspects of Metabolic Regulation, "Analysis of Substrate Utilization by .sup.13 C NMR Spectroscopy" (Alan R. Liss, Inc., 1990, pp. 363-374).
Moreleand, C. G. and Carroll, F. I., J. of Magnetic Resonance vol. 15, ".sup.13 C-.sup.13 C Dipolar Interactions as a Relaxation Mechanism" pp. 596-599 (1974).
LeCocq, C. and Lallemand, J-Y, J.C.S. Chem. Comm., "Precise Carbon-13 N.M.R. Multiplicity Determination" pp. 150-152 (1981).
Patt, S. L. and Shoolery, J. N., J. or Magnetic Resonance vol. 46, "Attached Proton Test for Carbon-13 NMR", pp. 535-539 (1982).
Malloy et al., FEBS Letters, vol. 212, No. 1, "Carbon flux through citric acid cycle pathways in perfused heart by .sup.13 C NMR spectroscopy" pp. 58-62 (Feb. 1987).
Sheila M. Cohen, Biochemistry vol. 26, No. 2, "Effects of Insulin on Perfused Liver from Streptozotocin-Diabetic and Untreated Rates: .sup.13 C NMR Assay of Pyruvate Kinase Flux" pp. 573-580 (1987).
Sheila M. Cohen, Biochemistry vol. 26, No. 2, ".sup.13 C NMR Study of Effects of Fasting and Diabetes on the Metabolism of Pyruvate in the Tricarboxylic Acid Cycle and of the Utilization of Pyruvate and Ethanol in Lipogenesis in Perfused Rat Liver" pp. 581-589 (1987).

Affiliated with

Also associated with

Rating

Method of determining sources of acetyl-CoA under nonsteady-stat does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Method of determining sources of acetyl-CoA under nonsteady-stat, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method of determining sources of acetyl-CoA under nonsteady-stat will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-1704816