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Integration of amino acid and carbon intermediary metabolism: studies with uniformly labeled tracers and mass isotopomer analysis (1997)

Reeds, P. J. ; Berthold, H. K. ; Boza, J. J. ; [et al.]

Springer

European journal of pediatrics 156 (1997), S. S50

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ISSN: 1432-1076

Keywords: Key words Metabolism ; Glutamate ; Gluconeogenesis ; Stable isotopes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The central pathways of metabolism include glycolysis and gluconeogenesis, fatty acid synthesis and beta-oxidation, the citric acid cycle and ureagenesis. Because these pathways intersect, changes in one pathway, due to inborn error or disease, affect pathways that may seem remote from the initial metabolic defect. These metabolic interrelationships also present difficulties for isotopic studies, because once carbon derived from isotopic tracers is introduced into metabolism it is extensively recycled. The use of multiple labeled (especially uniformly 13C-labeled ([U-13C]), metabolic tracers, in conjunction with mass isotopomer distribution analysis of mass and nuclear magnetic spectra, has enabled the development of methods that resolve some of these difficulties. Suitable choices of tracers and analytes allow the simultaneous measurement of multiple pathways and, importantly, their kinetic interrelationships. We illustrate three uses of the technique: (1) the unequivocal determination of tracee fluxes; (2) the quantification of biosynthetic pathways; and (3) the dissection, in vivo, of the citric acid (Krebs) cycle. In each case, different combinations of [U-13C]tracer and metabolic end product have revealed metabolic phenomena that otherwise would remain unidentified. A particularly striking, and unexpected, observation that has emerged from recent studies using the technique, suggests that the key dehydrogenase reactions in the Krebs cycle may be reversible. Although this approach is of relatively recent development, it has already given a number of novel insights into the organization of the central metabolic pathways. It should provide a powerful method of investigating the metabolic impact of genetic disease and provide invaluable support of the assessment of new therapeutic interventions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00014272

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Quantitative assessment of whole body galactose metabolism in galactosemic patients (1997)

Berry, G. T. ; Nissim, I. ; Gibson, J. B. ; [et al.]

Springer

European journal of pediatrics 156 (1997), S. S43

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ISSN: 1432-1076

Keywords: Key words Galactosemia ; [13C]galactose (stable ; isotope) ; Breath test ; Endogenous galactose synthesis ; GALT genotype

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We employed [1-13C]galactose in isotope kinetic studies to delineate whole body galactose metabolism in vivo in patients with galactose-1-phosphate uridyltransferase (GALT) deficiency. The data in three control and three adult galactosemic subjects, homozygous for the most common GALT gene defect, the Q188R mutation, and with absent RBC GALT activity, revealed an apparent endogenous galactose synthesis rate of 0.53-1.05 mg/kg per hour. Unlike normal children and adults who eliminated 3%– 6% and 21%–47% of an intravenous bolus of [1-13C] galactose as 13CO2 in expired air in 1 and 5 h respectively, classic galactosemic patients, either Q188R/Q188R or Q188R/unknown, released almost none in 1h and 3%–6% in 5h. In contrast, an African-American galactosemic variant patient with a S135L/S135L mutation and no residual RBC GALT activity oxidized [1-13C]galactose to 13CO2 at a rate comparable to control subjects. Individuals homozygous for the Duarte mutation, N314D/N314D and Q188R/ N314D, Q188R/+ and S135L/+ subjects also had normal breath test results. Not surprisingly, the Q188R/Q188R classic galactosemic patient cannot handle an acute galactose load, failing to match a control subject in the rapid conversion of [1-13C]galactose to [13C]glucose and 13CO2. However, classic patients synthesize substantial quantities of galactose de novo and on a lactose-free diet must oxidize comparable amounts of galactose to maintain steady-state levels of galactose and galactose metabolites such as galactose-1-phosphate, galactitol and galactonate. In vivo isotope kinetic analyses may allow us to understand better these aspects of galactose metabolism and, through the use of studies in variant galactosemics, perhaps allow us to begin to unravel the pathophysiology of galactosemia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00014271

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