Assay of free and conjugated catecholamines by high-performance liquid chromatography with electrochemical detection

A rapid and simple method for the analysis of free and conjugated catecholamines in body tissues and fluids is described. The free catecholamines were isolated by standard alumina procedures before and after hydrolysis of the conjugated compounds to free compounds by heating the samples in perchloric acid. Free catecholamines were then separated by high-performance liquid chromatography and detected by electrochemical detection. Conjugated compound was the difference between the total and free amount in each sample. This method was utilized to measure free and conjugated norepinephrine, epinephrine, and dopamine in human urine and rat adrenal gland, and to measure free and conjugated dopamine in rat whole brain and kidney.     

Localization of enzymes of ureide biosynthesis in peroxisomes and microsomes of nodules

The intracellular location of enzymes involved in the synthesis of the ureides, allantoin and allantoic acid, was investigated in nodules of Glycine max L. Merr. Cellular organelles were separated on isopycnic sucrose density gradients. Xanthine dehydrogenase activity (270 nanomoles per min per gram fresh weight) was totally soluble, whereas approximately 15% of the total uricase and catalase activities (1 and 2000 micromoles per minute per gram fresh weight, respectively) was in the fraction containing intact peroxisomes. Allantoinase activity (680 nanomoles per minute per gram fresh weight) was associated with the microsomal fraction, which apparently originates from the endoplasmic reticulum.     

Determination of urine catecholamines by capillary electrophoresis with dual-electrode amperometric detection

Demonstrated in this study is that without pretreatment and preconcentration nanomolar-level catecholamines in human urine samples can be quantitatively determined with ease by utilizing capillary electrophoresis coupled with amperometric detection. The detector employs a parallel-opposed dual-electrode scheme assembled with an on-capillary electrode and a disk electrode and takes advantage of the redox cycling of analytes between the two working electrodes to improve the limit of detection. The matrix effect of urine samples significantly decreases the detection sensitivity from that obtained in standard solutions. Therefore, calibration curves derived from standard solutions cannot be used in quantitative determination of catecholamines. Methods of standard addition and internal standard have been studied. The results suggest that isoproterenol is a good internal standard to facilitate the measurements of dopamine, epinephrine, and norepinephrine in human urine samples.     

Method for analysis of dopamine sulfate isomers by high performance liquid chromatography

Conjugated dopamine occurs in the tissues and fluids of many species, and much of this is thought to occur as dopamine sulfate. This paper describes the development and use of a method utilizing reversed-phase paired-ion high performance liquid chromatography to separate and quantitate each of the two naturally occurring dopamine sulfate isomers. Use of the method permitted demonstration of dopamine-3-0-sulfate in human urine from drug-free control subjects. It was found that this compound accounted for 73.1 ± 27% of the total daily conjugated dopamine excretion in the four subjects studied.     

Gas chromatographic and mass spectrometric analysis of conjugated steroids in urine

This study was carried out qualitatively and quantitatively to investigate the presence and the concentrations of anabolic steroids in urine collected from orally administered humans. Microanalysis of conjugated steroids by gas chromatography and mass spectrometry (GC/MS) has been carried out. Following oral administration three major metabolites of anabolic steroid drugs have been detected and partially characterized. The six steroids can be analysed at the same time in 17 min. The lower detection limit was 10 ng/ml in 5 ml of urine. The conjugated steroids from urine were centrifuged to 2,430g for 10 min, the supernatant solution passed through Amberlite XAD-2 column and the steroids eluted fraction esterified by using MSTFA and TMSI. The rate of metabolism and urinary excretion seem to be reasonably fast.     

Dopamine production by the isolated perfused rat kidney

We used isolated perfused rat kidneys to examine dopamine (DA) production and its relation to renal function. Both innervated and chronically surgically denervated kidneys perfused with a solution containing neither albumin nor tyrosine, excreted 0.2 +/- 0.1 ng DA X min-1 X g wet weight-1 during the 10-min collection period between 30 and 40 min after starting perfusion. When perfused with 6.7% albumin, without tyrosine, innervated kidneys excreted 1.0 +/- 0.06 ng DA X min-1 X g-1 and denervated kidneys excreted 1.0 +/- 0.07 DA X min-1 X g-1. When 0.03 mM tyrosine was included in the albumin perfusate, innervated kidneys excreted 1.2 +/- 0.1 ng DA X min-1 X g-1 (p less than 0.1). Under these conditions DA excretion continued for at least 100 min at which time it was 0.6 ng X min-1 X g-1 and 86 ng/g kidney weight had been excreted. Denervated kidneys perfused with albumin + tyrosine excreted 0.9 +/- 0.13 ng DA X min-1 X g-1. Renal stores of free DA, conjugated DA, and dihydroxyphenylalanine (DOPA) could have provided at the most 30 ng/g of DA. Carbidopa inhibited DA excretion completely. DA excretion did not correlate with renal vascular resistance, inulin clearance, or fractional sodium excretion. In summary, nonneural tissue in isolated perfused kidneys produced DA at the same rate as denervated kidneys in vivo. Less than one-third of the DA produced by isolated kidneys could have come from intrarenal stores of DOPA, free DA, and conjugated DA; the rest was synthesized from unknown precursors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dopamine production by isolated glomeruli and tubules from rat kidneys

To locate the sites of dopamine (D) production in rat renal cortex, we separated glomeruli and proximal tubules by sieving or centrifugation in Percoll after collagenase digestion. After centrifugation layer I contained 60-80% glomeruli and 20-40% tubule fragments, half of which did not stain with alkaline phosphatase, layer II contained 0-5% glomeruli, 10-25% tubule fragments other than proximal tubules, and 70-85% proximal tubule fragments. Layer IV contained 85-95% proximal tubules. Gluconeogenic rates were (micromoles per hour per gram wet weight) as follows: I, 4 +/- 1; II, 7 +/- 2; and IV, 16 +/- 1. Norepinephrine (NE) content was (picomoles per gram wet weight) I, 310 +/- 30; II, 540 +/- 40; IV, 195 +/- 60. D content was (picomoles per gram wet weight) I, 26 +/- 6; II, 46 +/- 13; IV, 33 +/- 7. Surgical denervation 4-6 days previously reduced the norepinephrine content of layers I and II to 35 +/- 10 (p less than 0.001) and of IV to 60 +/- 20 (p less than 0.05) and the D content of layers I and II to 13 +/- 6 and 6 +/- 6 pmol/g, respectively (p less than 0.01); D content of layer IV was unchanged. D production from 10(-7) M 3,4-dihydroxyphenylalanine (DOPA) was (nanomoles per gram per minute) I, 0.2 +/- 0.03; II, 0.7 +/- 0.1; IV, 1.0 +/- 0.04. DOPA consumption was (nanomoles per gram per minute) I, 0.6 +/- 0.1; II, 1.4 +/- 0.3; and IV, 1.8 +/- 0.2. Denervation did not change D production or DOPA consumption.(ABSTRACT TRUNCATED AT 250 WORDS)     

Method for measuring endogenous 3-O-methyldopa in urine and plasma

The present report describes a method using column liquid chromatography with electrochemical detection for assaying concentrations of 3-O-methyldopa in urine and plasma. The technique combines a one-step sample preparation scheme with post-column flow-through electrodes in series, allowing adequate chromatographic separation of 3-O-methyldopa from other endogenous substances in urine. The validity of the method was confirmed by markedly decreased urinary 3-O-methyldopa levels after administration of an inhibitor of catechol-O-methyltransferase to rats, radioactivity in chromatographic fractions corresponding to 3-O-methyldopa in urine of rats undergoing infusion of [³H]-l-DOPA, and correlations between excretion rates of 3-O-methyldopa and catechols in humans. In healthy humans, urinary excretion of 3-O-methyldopa averaged 974 ± 707 (S.D.) nmol per day, and plasma levels of 3-O-methyldopa averaged 89 ± 32 nmol/l. The method should be useful in studies about the metabolism of endogenous and exogenous DOPA.     

Analysis of monoamines and their metabolites by high performance liquid chromatography with coulometric electrochemical detection

High performance liquid chromatography with coulometric electrochemical detection has been used to achieve simultaneous determination of norepinephrine, epinephrine, 5-hydroxytryptophan, normetanephrine, dopamine, metanephrine, 3,4-dihydroxyphenylacetic acid, N-acetyldopamine, tyramine, tryptophan, 5-hydroxyindoleacetic acid, 5-hydroxytryptamine, N-acetyl-5-hydroxytryptamine, homovanillic acid, tyrosine, p-octopamine, N-acetyl-p-octopamine, and p-synephrine. The procedure has been applied to study monoamine degradation in the insect brain and to demonstrate that N-acetylation rather than oxidative deamination is the primary route of monoamine catabolism in insects.     

Factors influencing the recovery of dopamine sulfate in the assay of phenol sulfotransferase

Phenol sulfotransferase activity is often measured by incubating dopamine with a source of the enzyme and the sulfate donor 35S-3'-phosphoadensine-5'-phosphosulfate and then separating the product, 35S-dopamine sulfate, from the substrates using precipitation with barium hydroxide and zinc sulfate. Using dopamine sulfate standards and high performance liquid chromatography with dual-electrode electrochemical detection, we investigated the effects of several parameters on product recovery obtained with this procedure. Amounts of precipitants needed to produce maximal sample-to-blank ratios were determined using crude enzyme preparations from rat brain and human platelets incubated under conditions generating approximately 3 nM dopamine sulfate. Under these conditions, recovery of 3H-DAS standards was 70-80%. Increasing either the concentration of dopamine sulfate or the amounts of precipitants used resulted in concentration-dependent decreases in dopamine sulfate recovery. These data indicate that the recovery of product in this assay may vary with assay conditions, and should be carefully monitored and optimized. Caution should be exercised when using substrates other than dopamine in this assay procedure, since similar factors might also contribute to variable recovery of other products.     

Levels of Free and Conjugated Abscisic Acid in Developing Floral Organs of the Navel Orange (Citrus sinensi [L.] Osbeck cv Washington)

The levels of abscisic acid (ABA) and alkaline-hydrolyzable ABA-conjugate (putatively identified as the glucosyl ester, abscisyl-β-d-glucopyranoside) were determined by enzyme immunoassay in the organs of developing navel orange (Citrus sinensis [L.] Osbeck cv Washington) flowers. Although both compounds were detected in every tissue, developmentally related differences between organs in the total and relative contents were observed. The highest ABA levels were observed in the stigma/style shortly after anthesis (11.5 ± 0.6 nanomoles ABA per gram fresh weight and 4.8 ± 0.6 nanomoles ABA-conjugate per gram fresh weight); whereas, the highest ABA-conjugate levels were observed at the same time in the floral disc (hypogynous disc plus calyx; 3.5 ± 0.1 nmol nanomols ABA per gram fresh weight and 11.8 ± 0.9 nanomoles ABA-conjugate per gram fresh weight). These results suggest that differences in ABA content reflect tissue-specific variation in the facility for ABA conjugation. Increased ABA levels were observed in the stigma/style near anthesis; however, a relationship with pollination is discounted, since `Washington' navel orange flowers are male sterile and devoid of pollen.     

Influence of augmentation of excretory renal mass on renal function after alpha-receptor blockade

The effect of renal function of an augmentation of the excretory renal mass was investigated in 10 dogs without drug treatment and in 10 animals with alpha-receptor blockade. In the untreated group, augmentation of excretory renal mass by transplantation into the neck of one pair of kidneys isolated from another animal caused the following changes in the kidneys in situ: marked elevation in CPAH, slight decrease in Cinulin, slight diminution of urine excretion and a pronounced fall in sodium excretion. The amount of urine and sodium excreted by the four kidneys was identical with that previously excreted by the two kidneys in situ. In animals with alpha-receptor blockade, augmentation of the excretory renal mass had the following consequences in the in situ kidneys, CPAH, and Cinulin remained unchanged while urine and sodium excretion decreased to the same extent as in the untreated control group. The amount of urine and of sodium excreted by the four kidneys was the same as that excreted by the kidneys in situ, prior to transplantation of isolated kidneys, i.e. before the augmentation of excretory renal mass. It seems that the decrease in sodium excretion of the kidneys in situ was not due to the haemodynamic changes evoked by the load on the circulation; it was rather consequence of some quick, presumably humoral, regulation. The diminution of sodium excretion in the kidneys in situ after augmentation of the excretory renal mass has been ascribed to an increased utilization by the four kidneys of the natriuretic factor(s), i.e. to a diminution in the plasma level of the natriuretic hormone.     

Free and conjugated catecholamines and metabolites in cat urine after hypoxia

Catecholamine and metabolite excretion was studied in the cat after 6 h of 7.5% O2 hypoxia. Norepinephrine (NE) release from sympathetic nervous endings was strongly activated, whereas epinephrine (E) excretion was only slightly increased. A noteworthy result was the increase of dopamine (DA) and its metabolites [3-methoxytyramine (MT); 3,4-dihydroxyphenylacetic acid (DOPAC)] in urine samples. This increased release does not seem to originate from the central nervous system, but rather from peripheral dopaminergic structures; available knowledge on peripheral DA suggests that the hypoxia-induced DA release might be partly related to chemosensory or renal function. Indeed, in addition to enhanced DA and NE excretion, we observed an increase in sodium excretion that correlated with both DA and NE. Analysis of free and conjugated urinary metabolites showed that only free NE and both free and conjugated normetanephrine were increased in urine after hypoxic stress. Among DA metabolites, conjugated DOPAC was the main DA metabolite in the basal state and after hypoxia. Both the free and the conjugated forms of DA, MT, and DOPAC were increased by hypoxia.     

Distribution of free and conjugated dopamine in rats and mice

Free and conjugated dopamine occurs in many tissues and fluids of mammals. We have used reversed phase liquid chromatography with electrochemical detection in sequence with an alumina adsorption procedure to separate and then detect amounts of free and conjugated dopamine in the major visceral organs and brain of the rat and mouse. We report those results here. Values for free and conjugated dopamine are given for all tissues studied. Conjugated DA was found in the rat kidney, liver and adrenal gland and in the kidney of the mouse. Those tissues which have a significant amount of conjugated dopamine will be studied further for the presence of dopamine sulfate.     

Renal uptake and excretion of epidermal growth factor from plasma in the rat

The rat excretes around 2 nmol epidermal growth factor (EGF) in the urine per 24 h. The urinary EGF might be derived from plasma and/or might be synthesized in the kidneys. We have used the rat to study the renal uptake and excretion of homologous EGF from plasma. I.v. injected 125I-EGF was removed from the circulation within a few minutes. 5 min after the injection, the kidneys contained 12% of the 125I-EGF. The kidneys seemed to degrade most of the 125I-EGF which they accumulated from blood, as only 4% of the injected label was excreted as intact 125I-EGF in the urine. The amount of endogenous EGF in plasma was under the detection limit of our enzyme-linked immunosorbent assay (0.03 nmol/l) and it remained so after bilateral nephrectomy. Even if plasma EGF was 0.03 nmol/l excretion of EGF from plasma could account for less than 5% of the urinary EGF. This study shows that the kidneys are able to accumulate EGF from plasma and excrete a part of it as intact EGF in the urine. However, excretion of immunoreactive EGF from plasma can only account for a minor part of the urinary EGF.     

De novo arginine biosynthesis in leaves of phosphorus-deficient citrus and poncirus species

Young, fully expanded leaves from 7-month-old P-deficient citrus rootstock seedlings had levels of nonprotein arginine that were 10- to 50-fold greater than those from P-sufficient control plants. Arginine content of the protein fraction increased 2- to 4-fold in P-deficient leaves. Total arginine content, which averaged 72 ± 6 micromoles per gram dry weight of P-sufficient leaf tissue (mean ± se, n = the four rootstocks) was 207, 308, 241, and 178 micromoles in P-deficient leaves from Citrus limon cv rough lemon, Poncirus trifoliata × C. sinensis cv Carrizo citrange and cv Troyer citrange, and P. trifoliata cv Australian trifoliate orange, respectively. For each rootstock, the accumulation of arginine paralleled an increase in the activity of the pathway for the de novo biosynthesis of arginine. The ratio of the nanomoles NaH¹⁴CO₃ incorporated into the combined pool of arginine plus urea per gram fresh weight intact leaf tissue during a 3-hour labeling period for P-deficient to P-sufficient plants was 91:34, 49:11, 35:11, and 52:41, respectively. When P-deficient plants were supplied with P, incorporation of NaH¹⁴CO₃ into arginine plus urea was reduced to the level observed for the P-sufficient control plants of the same age and arginine ceased to accumulate. Arginase and arginine decarboxylase activity were either unaffected or slightly increased during phosphorus deficiency. Taken together, these results provide strong evidence that arginine accumulation during phosphorus deficiency is due to increased activity of the de novo arginine biosynthetic pathway.     

Urinary excretion of dicarboxylic acids from patients with the Zellweger syndrome. Importance of peroxisomes in beta-oxidation of dicarboxylic acids

The urinary excretion of adipic acid, suberic acid and sebacic acid from two patients with the cerebrohepato-renal syndrome of Zellweger was studied. The patients had a complete lack of peroxisomes in the liver as judged by electron microscopy. In the non-ketotic state, the total excretion of free and conjugated adipic acid, suberic acid and sebacic acid was increased by about 100%, 200% and 350%, respectively, as compared to the corresponding excretion from six healthy infants of the same age. The excretion of free dicarboxylic acid was increased to a considerably lesser extent than the free + conjugated dicarboxylic acid. In view of the presence of adipic acid in urine of the Zellweger patients, it is concluded that peroxisomes are not obligatory for beta-oxidation of medium-chain dicarboxylic acids in vivo. The relative accumulation of suberic acid and sebacic acid as compared to adipic acid is, however, consistent with a relative block in the conversion of suberic acid and sebacic acid into adipic acid in patients with the Zellweger syndrome.     

Free and conjugated plasma catecholamines, DOPA and 3-O-methyldopa in humans and in various animal species

The aim of the present study was to determine the extent to which plasma catecholamines are conjugated in different animals compared to man and how widespread is the presence of dihydroxyphenylalanine (DOPA) and 3-methoxy-4-hydroxyphenylalanine (3-OMD) in plasma among the different animal species. Free and conjugated norepinephrine, epinephrine, and dopamine were measured in plasma in humans and in several animal species (dog, rat, Gunn rat, cat, rabbit, guinea pig, African green monkey, young pig, calf, and one American black bear) using HPLC with electrochemical detection. The same technique was used to measure free and conjugated DOPA and 3-OMD in plasma of man, dog, rat, Gunn rat, calf, and American black bear. Human plasma contains the highest concentration of total (free and conjugated) catecholamines (46.1 pmole/ml), while low concentrations (below 15 pmole/ml) were observed in unstressed rats, calves, cats, and young pigs. In man, 95.3% of total plasma catecholamines were conjugated. The extent to which plasma catecholamines were conjugated varied greatly between animal species. The conjugated fraction expressed as percentages of the total catecholamines is lowest in the young pig (4.7%) and highest in the bear (100%). Conjugated dopamine was present in the plasma of all species, varying between 3% of the total catecholamine pool in young pig to 90% in dog. Conjugated norepinephrine was also present in plasma of all species except in unstressed rats with access to food. Conjugated epinephrine was detected only in cat and rat. Free DOPA and 3-OMD were present in plasma of all tested species with especially high levels of 3-OMD being present in dog. Conjugated DOPA and 3-OMD were not consistently found in any species. Our results indicate that man, dog, bear, and African green monkey are particularly good catecholamine conjugators and that young pig, guinea pig, rabbit, and calf are poor conjugators.     

Determination of total dopamine, R- and S-salsolinol in human plasma by cyclodextrin bonded-phase liquid chromatography with electrochemical detection

A reliable and sensitive high-performance liquid chromatographic (HPLC) method is presented for the determination of total (free and conjugated) plasma dopamine and the enantiomers R- and S-salsolinol. Plasma is purified on two cartridges, containing primary and secondary amines and phenylboronic acid. Dopamine, R- and S-salsolinol are then separated by HPLC using a β-cyclodextrin-OH phase column. The eluate is monitored electrochemically, without further purification nor derivatization. The method is suited for routine analysis. It allows the detection of total (free and conjugated) dopamine and R- and S-salsolinol in human plasma in concentrations as low as 0.02 ng/ml plasma. The sensitivity is sufficient to measure the naturally occurring levels of salsolinol.     

Stimulation of ammonium ion excretion in the toad urinary bladder by an extract of human urine.

It is well known that ammonium ion excretion is increased during metabolic acidosis in mammals. The purpose of this study was to determine whether we could isolate from human urine during metabolic acidosis a factor that would stimulate NH+4 and/or H+ excretion in toad urinary bladder. Extracts of urine from six human subjects collected during NH4Cl-induced acidosis were prepared. These extracts were tested for their effect on NH+4 excretion in hemibladders mounted between plastic chambers. The extracts significantly increased NH+4 excretion in the toad urinary bladder. We found no effect on H+ excretion by these extracts. This ammoniuretic activity was not present in the urine when the same individuals were in metabolic alkalosis. We conclude that during metabolic acidosis a humoral factor is present which stimulates the excretion of NH+4. The factor could act as a permease in the bladder cell or as a stimulator of an NH+4 transport system.