L-[U-14C] Tyrosine Metabolism of the Perfused Cat Brain with High Plasma Phenylalanine or without Plasma Tyrosine

1. Rates of appearance and oxidation of plasma L-leucine, L-phenylalanine and L-tyrosine, as well as conversion of plasma phenylalanine into plasma tyrosine, were determined in 90-120 g rats after overnight starvation and while receiving 115-120 mumol of L-phenylalanine/h. 2. In the post-absorptive state, plasma tyrosine and phenylalanine appearances were similar, despite the fact that 22% of plasma tyrosine appearance could be attributed to the hydroxylation of phenylalanine. 3. A constant infusion of 115-120 mumol of L-phenylalanine/h did not significantly alter plasma leucine kinetics, but increased appearance of plasma phenylalanine and tyrosine. The percentage of phenylalanine and tyrosine appearance that was oxidized increased from 12.1% and 24.4% to 37.3% and 48.0% respectively. In phenylalanine-loaded rats, 72% of plasma tyrosine appearance could be attributed to the conversion of phenylalanine. 4. Whole-body tyrosine oxidation measured from a continuous infusion of either L-[14C]tyrosine or L-[14C]phenylalanine differed by 165%. 5. It can be concluded that, in the post-absorptive state, phenylalanine hydroxylation makes a substantial contribution to the plasma appearance of tyrosine and is significantly increased when phenylalanine is administered. The disposal of excess infused phenylalanine is a result of a greater percentage of plasma phenylalanine being converted into tyrosine and a greater proportion of tyrosine being further oxidized. However, apparent tyrosine oxidation rates estimated from plasma tyrosine specific radioactivities and appearance of expired 14CO2 during administration of [14C]tyrosine are underestimates of true rates, in part because tyrosine generated from phenylalanine hydroxylation is catabolized without freely equilibrating with the plasma compartment.

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Tyrosinaemia type II: an easily diagnosed metabolic disorder with a rewarding therapeutic response

Eastern Mediterranean Health Journal ◽

10.26719/1999.5.6.1204 ◽

1999 ◽

Vol 5 (6) ◽

pp. 1204-1207

Author(s):

M. A. Al Essa ◽

M. S. Rashed ◽

P. T. Ozand

Keyword(s):

Mass Spectrometry ◽

High Pressure ◽

Liquid Chromatography ◽

Therapeutic Response ◽

High Plasma ◽

Tandem Mass ◽

Type Ii ◽

Tyrosinaemia Type ◽

Plasma Phenylalanine ◽

Plasma Tyrosine

We retrospectively reviewed clinical and biochemical data of four patients diagnosed with tyrosinaemia type II. Diagnosis was established by high plasma tyrosine and normal plasma phenylalanine levels using plasma high-pressure liquid chromatography and tandem mass spectrometry. All patients were mildly mentally retarded and had painful non-pruritic and hyperkeratotic plaques on the soles and palms. There were no ophthalmic symptoms. The patients dramatically responded clinically and biochemically to a diet restricted in tyrosine and phenylalanine

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Aromatic amino acid metabolism of neonatal piglets receiving TPN: effect of tyrosine precursors

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.1994.267.5.e672 ◽

1994 ◽

Vol 267 (5) ◽

pp. E672-E679 ◽

Cited By ~ 3

Author(s):

L. J. Wykes ◽

J. D. House ◽

R. O. Ball ◽

P. B. Pencharz

Keyword(s):

Amino Acid ◽

Aromatic Amino Acid ◽

Amino Acid Metabolism ◽

Acid Metabolism ◽

Central Line ◽

High Plasma ◽

Control Group ◽

Neonatal Piglets ◽

Aromatic Amino Acid Metabolism ◽

Plasma Tyrosine

Low tyrosine solubility in total parenteral nutrition (TPN) solutions complicates meeting the aromatic amino acid needs of infants. This study compared the effectiveness of two tyrosine precursors to supply the aromatic amino acid needs of TPN-fed neonatal piglets with a control group in which total aromatic acid needs were met by the addition of phenylalanine (Phe). Eighteen 3-day-old male Yorkshire piglets (6/group) received TPN for 8 days by central line. The solution was supplemented with Phe or one of the following two tyrosine precursors: N-acetyltyrosine (N-AcTyr) or glycyltyrosine (GlyTyr). Aromatic amino acid metabolism, growth, and nitrogen utilization were measured. Average amino acid and energy intakes were 14.6 g.kg-1.day-1 and 1,050 kJ.kg-1.day-1. Nitrogen balance and utilization were significantly higher (P < 0.05) in piglets in the control Phe group and on the GlyTyr regimen. The high urinary excretion of N-AcTyr (65%) confirms its low bioavailability. Flux and oxidation were significantly higher (P < 0.05) in the Phe group. High plasma Phe levels and excretion of Phe catabolites, as well as the high plasma tyrosine in the GlyTyr group, indicate that current strategies employed to meet the aromatic amino acid needs of neonates on TPN need further refinement.

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Detection of heterozygotes for phenylketonuria by constant intravenous infusion of L-phenylalanine.

Clinical Chemistry ◽

10.1093/clinchem/23.9.1661 ◽

1977 ◽

Vol 23 (9) ◽

pp. 1661-1665 ◽

Cited By ~ 17

Author(s):

R Jagenburg ◽

S Rödjer

Keyword(s):

Intravenous Infusion ◽

Elimination Rate ◽

Mean Value ◽

Negative Family History ◽

Plasma Phenylalanine ◽

Fixed Concentration ◽

The Mean ◽

Tyrosine Concentration ◽

Plasma Tyrosine ◽

Straight Lines

Abstract We measured the rate of elimination of phenylalanine by constant intravenous infusion of L-phenylalanine in 14 parents of children with phenylketonuria and in 21 subjects with a negative family history for this disease. When reciprocals of the observed elimination rates were plotted against the reciprocals of the increase in the plasma phenylalanine concentrations, approximately straight lines resulted. The theoretical maximum elimination rate, the mean value for which was 32 mmol/h in the reference subjects, was reduced by 41% in the phenylketonuric heterozygotes. The elimination rate at an increase in plasma phenylalanine concentration of 0.5 mmol/liter discriminated the phenylketonuric heterozygotes from normal homozygotes, with no overlap between the groups. A lower plasma tyrosine concentration in the phenylketonuric heterozygotes than in the reference subjects at the same rate of elimination of phenylalanine indicated an increased rate of elimination of tyrosine at a fixed concentration of this amino acid in these subjects.

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TYROSINOSIS: A PATIENT WITHOUT LIVER OR RENAL DISEASE

PEDIATRICS ◽

10.1542/peds.48.3.393 ◽

1971 ◽

Vol 48 (3) ◽

pp. 393-400

Author(s):

James L. Holston ◽

Harvey L. Levy ◽

Gary A. Tomlin ◽

Ruby J. Atkins ◽

T. H. Patton ◽

...

Keyword(s):

Acetic Acid ◽

Mental Retardation ◽

Renal Disease ◽

Urinary Excretion ◽

Hepatic Disease ◽

Severe Mental Retardation ◽

Primary Defect ◽

Biochemical Evidence ◽

Tyrosine Metabolism ◽

Plasma Tyrosine

A child institutionalized because of severe mental retardation was found to have biochemical evidence of tyrosinosis. He has had no evidence of hepatic disease. In addition, he has had no hyperaminoaciduria, glycosuria, or rickets. Plasma tyrosine concentrations while he was on a regular diet ranged from 16.0 to 25.6 mg per 100 ml. Urinary excretion of tyrosine and tyrosine metabolites, including p-hydroxyphenylpyruvic acid, p-hydroxyphenyllactic acid, and p-hydroxyphenyl-acetic acid, were markedly increased. This patient appears to have a primary defect in tyrosine metabolism and represents individuals with persisting tyrosinemia and tyrosyluria in whom no hepatorenal disease is found.

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Hawkinsinuria in two unrelated Greek newborns: identification of a novel variant, biochemical findings and treatment

Journal of Pediatric Endocrinology and Metabolism ◽

10.1515/jpem-2015-0132 ◽

2016 ◽

Vol 29 (1) ◽

Cited By ~ 3

Author(s):

Georgia Thodi ◽

Kleopatra H. Schulpis ◽

Yannis Dotsikas ◽

Christiane Pavlides ◽

Elina Molou ◽

...

Keyword(s):

Novel Mutation ◽

Brain Mri ◽

Liver Function Tests ◽

Blood Levels ◽

Chromatographic Techniques ◽

Expanded Newborn Screening ◽

Novel Variant ◽

Tyrosine Metabolism ◽

Plasma Tyrosine ◽

Rare Inborn Error

AbstractHawkinsinuria is a rare inborn error of tyrosine metabolism.To study novel hawkinsinuria cases by monitoring their biochemical profile and conducting a mutation analysis.Among 92,519 newborns that underwent expanded newborn screening, two unrelated cases with high tyrosine blood levels were further investigated by chromatographic techniques and via genetic testing for 4-hydroxyphenylpyruvate dioxygenase (HPD) gene.Elevated levels were monitored for blood/plasma tyrosine and for the specific diagnostic markers in urine. The two newborns were put on a special low tyrosine diet. Till completion of the 1st year of their life, liver function tests and brain MRI were normal. The mutation A33T was identified in both cases, while one neonate carried an additional novel mutation ofTwo mutations of

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Untreated PKU Patients without Intellectual Disability: What Do They Teach Us?

Nutrients ◽

10.3390/nu11112572 ◽

2019 ◽

Vol 11 (11) ◽

pp. 2572 ◽

Cited By ~ 2

Author(s):

Danique van Vliet ◽

Annemiek M.J. van Wegberg ◽

Kirsten Ahring ◽

Miroslaw Bik-Multanowski ◽

Kari Casas ◽

...

Keyword(s):

Intellectual Disability ◽

Behavioral Problems ◽

High Plasma ◽

Target Range ◽

Relative Importance ◽

Psychosocial Dysfunction ◽

Plasma Phenylalanine ◽

Neurocognitive Outcomes ◽

Normal Outcome ◽

The Brain

Phenylketonuria (PKU) management is aimed at preventing neurocognitive and psychosocial dysfunction by keeping plasma phenylalanine concentrations within the recommended target range. It can be questioned, however, whether universal plasma phenylalanine target levels would result in optimal neurocognitive outcomes for all patients, as similar plasma phenylalanine concentrations do not seem to have the same consequences to the brain for each PKU individual. To better understand the inter-individual differences in brain vulnerability to high plasma phenylalanine concentrations, we aimed to identify untreated and/or late-diagnosed PKU patients with near-normal outcome, despite high plasma phenylalanine concentrations, who are still alive. In total, we identified 16 such cases. While intellectual functioning in these patients was relatively unaffected, they often did present other neurological, psychological, and behavioral problems. Thereby, these “unusual” PKU patients show that the classical symptomatology of untreated or late-treated PKU may have to be rewritten. Moreover, these cases show that a lack of intellectual dysfunction despite high plasma phenylalanine concentrations does not necessarily imply that these high phenylalanine concentrations have not been toxic to the brain. Also, these cases may suggest that different mechanisms are involved in PKU pathophysiology, of which the relative importance seems to differ between patients and possibly also with increasing age. Further research should aim to better distinguish PKU patients with respect to their cerebral effects to high plasma phenylalanine concentrations.

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The role of tyrosine metabolism in the pathogenesis of chronic migraine

Cephalalgia ◽

10.1177/0333102413480755 ◽

2013 ◽

Vol 33 (11) ◽

pp. 932-937 ◽

Cited By ~ 35

Author(s):

Giovanni D’Andrea ◽

Domenico D’Amico ◽

Gennaro Bussone ◽

Andrea Bolner ◽

Marco Aguggia ◽

...

Keyword(s):

Chronic Migraine ◽

Plasma Levels ◽

High Plasma ◽

Tension Type Headache ◽

Predisposing Factor ◽

Tyrosine Metabolism ◽

Potent Agonist ◽

Type Headache

Objective: The pathogenesis of chronic migraine (CM) remains largely unknown. We hypothesized that anomalies of tyrosine metabolism, found in migraine without aura (MwwA) patients, play an important role in the transformation of MwwA into CM, since the increase in the number of MwwA attacks is the most predisposing factor for the occurrence of CM. Methods: To test our hypothesis we measured the plasma levels of dopamine (DA), noradrenaline (NE) and trace amines, including tyramine (TYR) and octopamine (OCT), in a group of 73 patients with CM, 13 patients with chronic tension-type headache (CTTH) and 37 controls followed in the Headache Centers of the Neurology Departments of Asti, Milan and Vicenza hospitals in Italy. Results: The plasma levels of DA and NE were several-fold higher in CM patients compared with control subjects ( p > 0.001). The plasma levels of TYR were also extremely elevated ( p > 0.001); furthermore, these levels progressively increased with the duration of the CM. Conclusions: Our data support the hypothesis that altered tyrosine metabolism plays an important role in the pathogenesis of CM. The high plasma levels of TYR, a potent agonist of the trace amine associated receptors type 1 (TAAR1), may ultimately down-regulate this receptor because of loss of inhibitory presynaptic regulation, therein resulting in uncontrolled neurotransmitter release. This may produce functional metabolic consequences in the synaptic clefts of the pain matrix implicated in CM.

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Phenylketonuria: High plasma phenylalanine decreases cerebral protein synthesis

Molecular Genetics and Metabolism ◽

10.1016/j.ymgme.2008.12.019 ◽

2009 ◽

Vol 96 (4) ◽

pp. 177-182 ◽

Cited By ~ 46

Author(s):

Marieke Hoeksma ◽

Dirk-Jan Reijngoud ◽

Jan Pruim ◽

Harold W. de Valk ◽

Anne M.J. Paans ◽

...

Keyword(s):

Protein Synthesis ◽

High Plasma ◽

Plasma Phenylalanine ◽

Cerebral Protein Synthesis

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Evidence for Hypertyraminemia in Reye's Syndrome

PEDIATRICS ◽

10.1542/peds.64.1.76 ◽

1979 ◽

Vol 64 (1) ◽

pp. 76-80

Author(s):

Bahjat A. Faraj ◽

Stephen L. Newman ◽

Daniel B. Caplan ◽

Farouk M. Ali ◽

Vernon M. Camp ◽

...

Keyword(s):

Amino Acid ◽

Liver Biopsy ◽

Hospitalized Patients ◽

Reye's Syndrome ◽

Positive Correlation ◽

Tyrosine Metabolism ◽

Plasma Tyrosine

Utilizing a specific and sensitive radioimmunoassay, plasma and urine tyramine were measured in 14 consecutive patients with liver biopsy-proven Reye's syndrome. Plasma tyrosine was measured in 11 of these patients. The results revealed significant (P < .003) elevation in plasma (3.4 ± .52 ng/ml) (mean ± SEM) and urine (1.00 ± .26 mg/24 hr) tyramine as well as plasma tyrosine (204 ± 52.5 µmole/liter) at the onset of the disease when compared to the levels of tyramine and tyrosine in a group of hospitalized patients without hepatic disorders. Furthermore, there was a positive correlation between plasma tyramine and days in coma (r = .86; P < .001), and between plasma tyramine and tyrosine (r = 0.80; P < .001). These data suggest that there is a substantial disturbance of tyrosine metabolism in Reye's syndrome and that the accumulation of this amino acid and its metabolite, tyramine, may contribute to the encephalopathy of this disease.

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