Production of tyrosine and other aromatic compounds from phenylalanine by rumen microorganisms

Summary Rumen contents from three fistulated Japanese native goats fed Lucerne hay cubes (Medicago sativa) and concentrate mixture were collected to prepare the suspensions of mixed rumen bacteria (B), mixed protozoa (P) and a combination of the two (BP). Microbial suspensions were anaerobically incubated at 39°C for 12h with or without 1 MM ofl-phenylalanine (Phe). Phe, tyrosine (Tyr) and other related compounds in both supernatant and microbial hydrolysates of the incubations were analyzed by HPLC. Tyr can be produced from Phe not only by rumen bacteria but also by rumen protozoa. The production of Tyr during 12h incubation in B (183.6 mol/g MN) was 4.3 times higher than that in P. One of the intermediate products between Phe and Tyr seems to bep-hydroxyphenylacetic acid. The rate of the net degradation of Phe incubation in B (76.O mol/g MN/h) was 2.4 times higher than in P. In the case of all rumen microorganisms, degraded Phe was mainly (>53%) converted into phenylacetic acid. The production of benzoic acid was higher in P than in B suspensions. Small amount of phenylpyruvic acid was produced from Phe by both rumen bacteria and protozoa, but phenylpropionic acid and phenyllactic acid were produced only by rumen bacteria.     

Simultaneous measurement of phenylalanine and tyrosine in phenylketonuric plasma and dried blood by high-performance liquid chromatography

Phenylketonuria (PKU) is a disorder characterized by an interruption in the conversion of phenylalanine to tyrosine, a reaction catalyzed by phenylalanine hydroxylase (PAH). Animal models of PKU used in this study were induced by daily subcutaneous injections of pups with alpha-methylphenylalanine plus phenylalanine in utero and postnatally from day 4 to day 14. Dry blood and plasma were utilized to measure phenylalanine concentration in PKU rats. The results indicated that the concentration of phenylalanine is higher and more stable in plasma than dry blood. Precolumn derivatization of dried blood and plasma free amino acids were conducted with phenylisothiocyanate (PITC). The phenylthiocarbamyl (PTC) derivatives were separated on a reversed-phase C-18 column (15 cm x 4.6 mm). A gradient high-performance liquid chromatography method with two eluents, 0.1 M sodium acetate buffer and 100% acetonitrile was developed to facilitate the separation of nine amino acids within 11 min. Tyrosine and phenylalanine eluted the column at 5.4 and 9.4 min, respectively. This method provides a quick and reliable technique for neonatal screening.     

The effect of ovariectomy of serum amino acids and cholesterol in the rat

Summary As steroid hormones are known to influence amino acid metabolism we tested the hypothesis that ovariectomy should lead to significant changes in this system.We found that after ovariectomy serum alanine was significantly decreased (p = 0.0006) in contrast to serum glycine and branched chain amino acids (BCAA). The ratio of glycine/BCAA, a parameter for anabolism or catabolism was not changed after ovariectomy. If, however, the amino acid alanine as the link to carbohydrate and lipid metabolism was introduced the alanine/BCAA ratio was significantly altered (p = 0.01).Although serum cholesterol was altered as well (increased,p = 0.03), no significant correlation with alanine was found. We can therefore assume that there are two independent mechanisms for lipid and amino acid changes after ovariectomy.The most prominent finding was that estradiol replacement after ovariectomy restored increased cholesterol levels but did not restore alanine levels. Other ovarial hormones must be incriminated for the regulation of alanine metabolism. The anabolic effects of estradiol as decreasing glycine and BCAA were noticed which rules out insufficient estradiol replacement.     

Gas chromatographic–mass spectrometric method for quantitation of phenylalanine and tyrosine in serum

A validated gas chromatographic–mass spectrometric method for quantitation of phenylalanine and tyrosine in serum is described. Quantitation of phenylalanine and tyrosine with a non-labelled non-endogenous internal standard, -2-chlorophenylalanine, compared favourably with isotope dilution mass spectrometric quantitation. The 95% reference ranges for phenylalanine, tyrosine and the phenylalanine–tyrosine molar ratio in neonate cord blood serum were determined by isotope dilution mass spectrometry and were found to be 77.1–144.7, 33.3–109.3 μmol/l and 1.1–3.0, respectively.     

Thin layer chromatographical detection of tyrosine produced from <Emphasis Type="SmallCaps">l</Emphasis>-[U-<Superscript>14</Superscript>C]phenylalanine by ruminal microbes

Summary.  Thin layer chromatographical detection of tyrosine (Tyr) synthesized from l-[U-¹⁴C]phenylalanine (Phe) (1 mM) by rumen bacteria (B) and protozoa (P) collected from fistulated Japanese Goat was carried out. About 16 and 12% of the added Phe was converted to Tyr by B and P, respectively. Large amount of radioactivity in ether fractions indicated an abundant production of aromatic acids from Phe. Small amount of radioactivity found in CO₂ fractions implied an occurrence of considerable decarboxylation reaction(s) by rumen bacteria and protozoa. Received July 18, 2001 Accepted December 3, 2001     

Action of the phosphonic analogue of tyrosine and of other tyrosine derivatives on rat liver tyrosine aminotransferase

Summary Tyrosine transamination has been investigatedin vitro with a preparation of rat liver tyrosine aminotransferase in the presence of several structural derivatives of the substrate, including the phosphonic analogue. The transamination by tyrosine aminotransferase (TAT) needs the presence in the substrate molecule of free amino and carboxylic groups, a three-carbon aliphatic chain, a para-phenolic hydroxylic function and al-configuration. Some tyrosine analogues can markedly disturb the Tyr-TAT association: the chief structural modifications are (i) the removal of the free amine function in a compound still possessing a para-hydroxylic and a carboxylic group, (ii) the change of the carboxylic function by another acidic group, especially a phosphonic one, (iii) a disubstitution in positions 3 and 5. In every situation, the presence of a parahydroxylic group is compulsory to observe an inhibitory effect.     

Amino acids and the kidney

Summary The kidney has an important role in the metabolism of amino acids and control of plasma concentrations. Reabsorption by the tubules recovers about 70g/day of amino acids, derived from both the diet and metabolism in other tissues. Amino acids regulate haemodynamics and proteolysis and maintain integrity of the kidney. Abnormal plasma and muscle amino acid profiles in chronic renal failure (i.e. low essentials and tyrosine with high nonessentials) first indicated malnutrition, which can be partially corrected by supplementation. The loss of effective kidney tissue and uraemia, in addition to nutrition, have been considered in studies of phenylalanine hydroxylation used to investigate low tyrosine. Investigations in normal kidney have shown that glutamine uptake maintains acid-base homeostasis, glycine and citrulline are removed, and serine and arginine are released into the circulation. These metabolic processes are impaired in chronic renal failure. Uraemia affects most tissues and causes malnutrition, whilst acidosis activates catabolism of amino acids and proteins in muscle. Hyperinsulinaemia probably depresses plasma branchedchain amino acids and particularly valine. These abnormalities are less likely to respond to dietary supplementation.     

Absence of an effect of aspartame on seizures induced by electroshock in epileptic and non-epileptic rats

Summary Seizure facilitation has been proposed as a possible adverse effect of dietary consumption of aspartame. The conversion of this sweetener to phenylalanine and aspartate in the gastrointestinal tract, and subsequent absorption, elevates plasma levels of these two amino acids. Absorbed phenylalanine competes with other large neutral amino acids, including tyrosine and tryptophan, for transport into brain. Theoretically, this competition might reduce brain tyrosine and tryptophan which could decrease synthesis of norepinephrine, dopamine and serotonin. Diminished synaptic release of these monoaminergic neurotransmitters facilitates seizures in many seizure models. Our present study evaluates effects of oral aspartame on amino acids and electroshock seizures in normal and seizure predisposed rats. Heroic doses of aspartame produced preditable changes in plasma amino acids. However, none of the aspartame doses altered seizure indices. We conclude that aspartame does not alter maximal electroshock seizures in normal rats or in rats predisposed to seizures.Preliminary data were presented at the annual meeting of the Federation of American Societies for Experimental Biology (Jobe et al., 1988).This work was supported, in part, by a grant from the NutraSweet Company.     

Effect of the phosphonic analogue of tyrosine on tyrosine iodination

Summary Depositing ofdl-1-amino-2-(p-hydroxyphenyl)-ethylphosphonic acid (Tyr-P) on the chicken embryo induced a dose dependent decrease of the iodine uptake by the embryonic thyroid. Tyr-P interfered on iodination of tyrosine when tested with hog thyroid peroxidase (TPO) and with bovine lactoperoxidase (LPO); the analogue was recognized by the two enzymes but its affinity for TPO and LPO was respectively 3 and 7 fold higher compared with that of the natural substrate, suggesting that Tyr-P may act as an iodine trap.     

Destabilization of tyrosine aminotransferase by amino acids

Summary Several L-amino acids (tyrosine, glutamate, methionine, tryptophan, and phenylalanine) and penicillamine destabilized purified tyrosine aminotransferase by removing enzyme-bound pyridoxal 5-phosphate. The destabilization was measured as a progressive loss of enzyme activity in samples taken at intervals from a primary mixture that was incubated at 37°C. Each destabilizing amino acid either served as a substrate for this enzyme or was a product of transamination. In contrast, L-cysteine destabilized the enzyme only if liver homogenate was added, which generated polysulfide by desulfuration. Cysteine complexed free pyridoxal-5-phosphate but did not remove it from the enzyme. Other amino acids did not destabilize tyrosine aminotransferase at the concentrations tested.Abbreviations TyrAT tyrosine aminotransferase (E.C. 2.6.1.5) - PLP pyridoxal-5-phosphate     

Brain D-serine and tyrosine levels in ataxic mutant mice

Summary Since D-serine occurs at high concentrations in mammalian forebrains, the brain D-serine content was analyzed in hyperkinetic and ataxic mutant mice as well as normal control mice in a search for a physiological role. The concentrations of free D-serine (nmol/g wet weight) were 392 ± 114 (mean ± S.D.), 43 ± 17 and 18 ± 8.4 in the cerebrum, brain stem and cerebellum of the BUS mouse, respectively; and 336 ± 93,58 ± 11 and 18 ± 8.5 in the cerebrum, brain stem and cerebellum of the Rolling mouse, respectively. These values were not significantly different from those for each control animal. The present results suggest that brain D-serine may not be a cause of the abnormal movements of the mutant mice. On the contrary, among many amino acids examined, tyrosine level was found to be lower in the brain stem of BUS mouse compared to the normal control animal by amino acid analysis.     

Differential diagnosis of (inherited) amino acid metabolism or transport disorders

Summary Disorders of amino acid metabolism or transport are most clearly expressed in urine. Nevertheless the interpretation of abnormalities in urinary amino acid excretion remains difficult. An increase or decrease of almost every amino acid in urine can be due to various etiology. To differentiate between primary and secondary aminoacido-pathies systematic laboratory investigation is necessary. Early diagnosis of disorders of amino acid metabolism or transport is very important, because most of them can be treated, leading to the prevention of (further) clinical abnormalities. In those disorders, which cannot be treated, early diagnosis in an index-patient may prevent the birth of other siblings by means of genetic counseling and prenatal diagnosis.Primary aminoacidopathies can be due to genetically determined transport disorders and enzyme deficiencies in amino acid metabolism or degradation. Secondary aminoacidopathies are the result of abnormal or deficient nutrition, intestinal dysfunction, organ pathology or other metabolic diseases like organic acidurias.A survey of amino acid metabolism and transport abnormalities will be given, illustrated with metabolic pathways and characteristic abnormal amino acid chromatograms.     

The end products of the metabolism of aromatic amino acids by clostridia

The end products of the metabolism of phenylalanine, tyrosine and tryptophan by growing cultures of clostridia have been identified. The species used were Clostridium aminovalericum; C. bifermentans; C. botulinum proteolytic type A; C. botulinum proteolytic type B; C. cochlearium; C. difficile; C. ghoni; C. histolyticum; C. lentoputrescens; C. limosum; C. lituseburense; C. malenomenatum; C. mangenoti; C. propionicum; C. putrefaciens; C. sordellii; C. sporogenes; C. sporosphaeroides; C. sticklandii; C. subterminale; C. tetani; C. tetanomorphum. The mixture of aromatic compounds formed, which depended upon the species, included phenyl acetic acid, phenyl propionic acid, phenyl lactic acid, phenol, p-cresol, p-hydroxy phenyl acetic acid, p-hydroxy phenyl propionic acid, indole, indole acetic acid and indole propionic acid.Abbreviation GLC gas liquid chromatography     

The effect of ovariectomy on broodiness and plasma prolactin levels in turkey hens during a photo-induced reproductive cycle

The effects of ovariectomy on broody behavior and plasma prolactin levels were examined in turkey hens that had previous histories of broodiness. Ovariectomy eliminated all nesting behavior and blocked the photostimulated increase in plasma prolactin observed in sham-operated hens. Sham-operated hens demonstrated egg-laying patterns and nesting behavior typical of broody hens. A large increase in plasma prolactin preceded broody behavior which continued as long as the elevated amounts of plasma prolactin persisted. It was concluded that the ovary is essential in expressing broody nesting behavior, the large increase in plasma prolactin associated with this behavior, and the prolactin increase in hens that did not demonstrate nesting behavior.     

alpha-Cyclodextrin-modified infrared chemical sensor for selective determination of tyrosine in biological fluids

In this paper, we propose an evanescent wave-based infrared (IR) spectroscopic sensing method for the selective and sensitive detection of tyrosine in aqueous solution. In this approach, alpha-cyclodextrin (alpha-CTD) was chemically immobilized onto the surface of an IR-sensing element to attract tyrosine specifically to the surface of the sensing element. Theoretical equations were developed for the quantitative analysis of tyrosine. Based on its IR spectra, the synthesized alpha-CTD phase was stable in water. Optimal detection with this system occurred when the pH of the solution was ca. 10.5. Based on the absorption bands, we confirmed that alpha-CTD was most effective at attracting tyrosine under basic conditions. Using the unique absorption band of tyrosine at 1500 cm(-1), the alpha-CTD phase allowed the detection of tyrosine selectively from among a range of potentially interfering amino acids and other species commonly present in biological samples. For quantitative analysis, this CTD-modified phase was most suitable for sensing tyrosine at concentrations below 100 microM because of limits in the surface adsorption mechanism. The detection times were, in some instances, lower than 5 min. For a detection time of 10 min, the detection limit of tyrosine was ca. 0.4 microM.     

Measurement of hepatic phenylalanine metabolism in children using the [(13)C]-phenylalanine breath test and gas chromatography-mass spectrometry

The essential amino acid, phenylalanine (PA), is known to be metabolized mainly in the liver of human adults. Because the liver is still in the developmental phase, the PA-related metabolic events in infants remain unsolved. In this study, evaluations of development in hepatic PA metabolism in 37 children and 16 adults were attempted using the (13)C -PA breath test (PBT). The subjects were categorized into four groups according to their ages in years and months: 2 years and 0 month to 3 years and 5 months (group I; n = 12); 3 years and 6 months to 4 years and 11 months (group II, n = 12); 5 years and 0 month to 6 years and 11 months (group III, n = 13); and healthy adults (group IV; n = 16). Changes in CO(2) level of exhaled gas at various time intervals after oral administration of (13)C -PA were monitored using gas chromatography-mass spectrometry to derive the (13)C excretion rate, cumulative excretion curve and time maximum [(13)C excretion rate (T(MAX)). In the present investigation involving children, significant increases of maximum(13)C excretion rate and cumulative excretion at 120 min after administration were established in group III. Furthermore, differences in PBT were not established between groups III and IV. The index for first-pass effect, T(MAX), did not change with time. From the above findings, the (13)C excretion rate increased with time although hepatic PA metabolism in infants remained underdeveloped, and children at the age of 5-7 years manifested PA metabolism similar to that of adults.     

Activation of caspases and cleavage of Bid are required for tyrosine and phenylalanine deficiency-induced apoptosis of human A375 melanoma cells

Deprivation of tyrosine (Tyr) and phenylalanine (Phe) inhibits growth and induces programmed cell death (apoptosis) of human A375 melanoma cells. Herein, we found that activation of caspases and release of mitochondrial cytochrome c are required for this process. Culturing A375 cells in Tyr/Phe-free medium, containing 10% dialyzed fetal bovine serum, results in activation of caspase-3-like activity. This is accompanied by decreased cell viability and increased apoptosis. Tyr/Phe deprivation also stimulates proteolytic cleavage of the DNA repair enzyme, poly(ADP-ribose) polymerase (PARP). Western blot analysis showed that caspases 3, 7, 8, and 9 are activated by deprivation of Tyr/Phe. Tyr/Phe deprivation decreases mitochondrial membrane potential, induces cleavage of Bid, increases translocation of Bax from the cytosol to mitochondria, and results in release of cytochrome c from the mitochondria to the cytosol. Apoptosis due to Tyr/Phe deprivation is almost completely inhibited by the broad-spectrum cell-permeable caspase inhibitor, benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone (Z.VAD.fmk). This inhibitor suppresses the cleavage of Bid, the release of cytochrome c from the mitochondria to the cytosol, and the cleavage of PARP. Decylubiquinone, a mitochondrial permeability transition pore inhibitor, does not suppress the activation of caspase 8 but suppresses release of cytochrome c, activation of caspase 9, and induction of apoptosis. These results indicate that activation of caspases, cleavage of Bid, and mitochondrial release of cytochrome c are required for apoptosis induced by Tyr/Phe deprivation.