Postmortem Changes of Normetanephrine Determined by a Mass-Fragmentographic Technique in Different Rat Brain Areas

Abstract: A specific and sensitive gas chromatographic–mass spectrometric assay for measurement of normetanephrine (NMN) in different rat brain regions is presented. The results show that hypothalamus contains the highest concentrations of the norepinephrine metabolite. An increase of NMN concentrations has been detected in animals killed by decapitation in comparison with microwave–irradiated rats. This finding has to be taken into consideration when NMN is measured in the brain in order to assess the functional activity of noradrenergic neurons.     

Increased catecholamine output in the hypertensive fawn-hooded rat

The total 24 hour urinary outputs of the catecholamines norepinephrine (NE), epinephrine (E), dopamine (DA) and the DA metabolite homovanillic acid (HVA) were measured in hypertensive fawn-hooded rats and compared to the ancestral strain of normotensive Wistar rats. The hypertensive fawn-hooded rats demonstrated significantly higher urinary outputs of the catecholamines NE and DA, and of the DA metabolite HVA. Following treatment with the antihypertensive, debrisoquin sulfate, the blood pressure of the fawn-hooded rats decreased until it approached the levels observed in normotensive Wistar rats. By inhibiting sympathetic nervous activity and monoamine oxidase, the debrisoquin treatment significantly decreased the output of DA, NE and HVA but not E. The data suggest the fawn-hooded rat is a model of neurogenic hypertension which is characterized by an increased sympathetic output.     

A radiotracer method for the measurement of central nervous system catecholamines in vivo.

A new strategy for measurement of brain catecholamines was tested in an animal model. [3H]Norepinephrine was infused intravenously in rabbits to label the peripheral norepinephrine pools. The specific activity of urinary 3-methoxy-4-hydroxymandelic acid was consistently higher than that for 3-methoxy-4-hydroxyphenyglycol (MHPG). Central sympathectomy with 6-hydroxydopamine abolished this difference. Using the formula we propose, it is estimated that 30-50% of urinary MHPG originates from the central nervous system.     

Rapid assay for catechol-O-methyltransferase activity by high-performance liquid chromatography-fluorescence detection

A rapid assay for measuring the activities of catechol-O-methyltransferase (COMT) is described. The method is based on high-performance liquid chromatography (HPLC)-fluorescence detection, and includes on-line extraction of catecholamines with a precolumn, separation of norepinephrine (NE) and normetanephrine (NMN) on an ODS column, electrochemical oxidation, and post-column fluorogenic derivatization using ethylenediamine. The method took less than 25 min for one sample, which is half that of the previous method and the sensitivity was similar. The intra-day assay precisions were 0.52-1.6%, and the inter-day assay precisions were 3.6-5.8% for rat liver and cerebral cortex (n = 5). The method is suitable for the rapid measurement of COMT activities of many biological samples.     

Urinary excretion of catecholamines in the night monkey (Aotus trivirgatus) (Primates, Cebidae)

A seasonal variation in the urinary catecholamines output has been demonstrated in two simians kept under constant ambient conditions : the nocturnal Aotus and the diurnal Sa?miri sciureus. In Aotus, catecholamines output (NA + A), in spring, is higher than in other Primates including man and even more so in winter. Cold exposure increases the NA + A excretion in Aotus as it does in squirrel monkey and rat but the A output is particularly prominent in Sa?miri. Fasting does not alter significantly the catecholamines excretion. Associated fasting and cold exposure do not modify the adrenosympathetic response observed in Aotus in cold conditions alone, but depresses the sympathetic activity and greatly enhance the adrenomedullary excretion in squirrel monkey, as it is the case in rat. Associated fasting and cold represents a highly stressful situation for squirrel monkey but not for night monkey. Catecholamines metabolites (MN, NMN, DOPAC, HVA, VMA and MHPG) are found in urine of both species, DOPAC and VMA being predominant in Aotus but DOPAC and MHPG in Sa?miri. The proportions of conjugated forms vary according to the metabolite : DOPAC and VMA are mainly under free form but NMN, MN and MHPG are mostly conjugated in both species. The daily output of pooled adrenergic metabolites (expressed as ng/mg creatinine) is higher in Aotus than in Sa?miri and man. Both monkey species display a high adrenosympathetic activity which does not correlate with their resting metabolic rate.     

A radioenzymatic assay for femtomole determination of catecholamines using α-methyldopamine as an internal standard

A radioenzymatic assay has been developed for the sensitive determination of plasma catecholamines in perchloric acid extracts using α-methyldopamine as an internal standard. With 25 μl of plasma extract in a total volume of 40 μl the assay gives blank values equivalent to approcximately 2 femtomoles (fmole) for epinephrine (E), norepinephrine (NE), 6 fmole for α-methyldopamine (MeDA) and approximately 15 femtomoles for dopamine (DA). Recoveries of 25 dpm/fmole NE, 40 dpm/fmole E, 56 dpm/fmole DA and 80 dpm/fmole MeDA have been obtained. The assay is linear to at least 1 picomole catecholamine (CA) and shows less than 0.5% crossover between E, NE and DA and a 4.7% crossover of αMeDA into DA. The interassay variability was ± 7% for DA, ± 4% for E and ±3% for NE.     

IAAT, catecholamines, and parity in African-American and European-American women

Objective: We have recently reported that parous European‐American (EA) women have disproportionately more intra‐abdominal adipose tissue (IAAT) than their nulliparous counterparts. Mediating mechanisms for IAAT accumulation remain unknown; however, some evidence suggests a possible catecholamine link. The objective of this study was to determine whether the IAAT‐parity relationship found in EA women exists in African‐American (AA) women and to determine whether catecholamines play a mediating role. Methods and Procedures: Subjects included 44 EA and 47 AA premenopausal women. Free‐living physical activity by doubly labeled water (activity‐related time equivalent (ARTE)), body composition (air plethysmography, computed tomography), and 24‐h fractionated urinary catecholamines were measured. Results: Repeated measures ANOVA revealed parous EA and AA women had significantly higher IAAT than their nulliparous counterparts (100.1 ± 28.5 and 76.2 ± 34.8 cm² vs. 75.9 ± 29.1 and 59.6 ± 15.0 cm²). In AA women and nulliparous women, 24‐h urinary dopamine was significantly higher (AA parous 260.8 ± 88; EA parous 197.2 ± 78.8; AA nulliparous 376.5 ± 81; EA nulliparous 289.6 ± 62). Multiple regression analysis for modeling IAAT indicated that race, parity, dopamine, ARTE, and VO_2max were all significant and independent contributors to the model (Unstandardized βs: race ?32.6 ± 7.4; parity (number of births) 10.0 ± 3.4; 24‐h urinary dopamine 0.08 ± 0.04; ARTE (min/day) ?0.09 ± 0.04; VO_2max (ml/kg/min) ?2.8 ± 1.0). Discussion: Independent of the potential confounders: age, race, percent body fat, IAAT, 24‐h fractionated urinary catecholamines, physical activity, and VO_2max, parous EA and AA women had more IAAT than their nulliparous counterparts. Of the catecholamines, dopamine was found to be significantly lower in parous women and higher in AA's. Dopamine, however, did not explain racial or parity differences in IAAT.     

Effect of submaximal muscular exercise of short duration on urinary excretion of catecholamines, DOPA and their metabolites]

Thirteen human subjects were submitted to a moderate muscular work on ergometric bicycle (at intensity corresponding to 80% of maximal oxygen uptake during 10 min). No modifications were observed in the urinary amounts of the three catecholamines (A, NA, DA), DOPA, DOPAC and 3-MT. On the contrary, the excretion of metadrenaline (MN) and normetadrenaline (NMN) was slightly increased, showing a mild stimulation of adrenergic system. Our result point out the interest of urinary methoxyamines as useful index of adrenergic activity in man. For experimental and physiopathological use, the metabolic alteration induced by a short submaximal muscular work is negligible for most adrenergic compounds, except for MN and NMN, the amounts of which are slightly modified.     

Assay of catecholamines in human plasma: Studies of a single isotope radioenzymatic procedure

The sensitive specific radioenzymatic procedure for determination of catecholamines originally described from our laboratory by Coyle and Henry (1) has been optimized for use in assay of human plasma levels of dopamine, norepinephrine and epinephrine. Dopamine and the total of norepinephrine and epinephrine are assayed by 0-methylation while norepinephrine is determined by N-methylation. Epinephrine is calculated from the difference between the 0-methylation and N-methylation procedures. In a group of 13 normal subjects, plasma levels of epinephrine were found to be 67 ± 9.2 pg/ml, norepinephrine 208 ± 16.9 pg/ml and dopamine 33 ± 8.1 pg/ml. Dopamine determinations are of low reliability because of relatively high blanks and necessary corrections.     

Plasma normetanephrine: A biochemical marker of sympathetic nerve function in man

The concentration of the catecholamines in plasma are regarded by many investigators as biochemical markers of sympathoadrenal activity in man. This study was designed to: 1) assess the relationship of normetanephrine (NMN), the metabolite of norepinephrine (NE) most likely to represent degration of newly synthesized and released “active” norepinephrine, to that of norepinephrine in plasma of normal volunteers and 2) to determine regional variations in plasma normetanephrine concentrations at venous and arterial sites of patients undergoing cardiac catherization. The findings suggest that 1) plasma normetanephrine reflects sympathoadrenal activity and neurotransmitter production at both peripheral neuronal and adrenal medullary sites and 2) there is net removal of normetanephrine by liver and kidney. Plasma normetanephrine should provide assistance in the biochemical assessment of sympathoadrenal tone in man and in patients with various autonomic disorders.     

Differences in regional brain catecholamine metabolism after a decrease in blood pressure

Using a sensitive radiometric assay for determination of catecholamines, the α-methyl-para-tyrosine-induced catecholamine disappearance was studied in discrete brain regions of rats after acute hypotension. The decrease in blood pressure was induced either by controlled haemorrhage or by the administration of guanethidine. In both cases an increase of the α-methyl-para-tyrosine-induced noradrenaline disappearance was observed in the nucleus commissuralis and the A₁-region in the medulla oblongata. In the paraventricular nucleus the disappearance of noradrenaline as well as that of adrenaline was enhanced. The results are in support for the involvement of catecholamines in particular brain regions in the regulation of blood pressure.     

Mouse brain concentrations of 3-methoxytyramine and normetanephrine: a comparison of methods of sacrifice

The identification of sacrifice methods that produce reliable measures of baseline central nervous system neurotransmitter concentrations poses a challenge to analytical neurochemical investigation. In the present study, microwave irradiation (MWVI) was compared with in situ freezing, cervical dislocation, and simple decapitation, in an effort to examine their effects on whole mouse brain concentrations of 3-methoxytyramine (3MT) and normetanephrine (NMN), the O-methylated catecholamine metabolites believed to be sensitive indicators of release of CNS dopamine and norepinephrine, respectively. Both high-energy (6 kW, 0.3 s) and low-energy (2.5 kW, 1.5 s) MWVI produced the lowest mouse brain concentrations of 3MT and NMN when compared with other methods of sacrifice within experiments. In situ freezing resulted in values of 3MT and NMN that were slightly, yet significantly, higher than MWVI within experiments. The concentrations of 3MT and NMN obtained following either cervicle dislocation or simple decapitation were up to 9-fold greater than those produced by either of the two previous methods.     

Three-minute high-performance liquid chromatographic assay for NMN adenylyltransferase using a 20-mm-long reversed-phase column

NMN adenylyltransferase (NAD pyrophosphorylase; NMNAT) reversibly catalyzes the synthesis of NAD from ATP and NMN. In this paper, we describe a rapid and sensitive high-performance liquid chromatographic assay for NMNAT, which uses a 20-mm-long C₁₈ reversed-phase (RP) column. The activity was measured by separating in less than 3 min the substrates (NMN and ATP) from the product (NAD) with 0.1 M potassium phosphate, pH 6.0, at a 2 ml/min flow-rate and 22°C. NAD was directly quantitated from its ultraviolet absorbance. Amounts of NAD as small as 25 pmol could be measured. The activity value closely agreed with that determined by the spectrophotometric assay. This method was successfully applied to the determination of NMNAT activity in human placental and bull testis extracts, as well as in rat pheochromocytoma (PC12) cells.     

Determination of cyclizine and norcyclizine in plasma and urine using gas—liquid chromatography with nitrogen selective detection

A rapid, sensitive and specific high-performance liquid chromatographic (HPLC) assay was developed for the determination of 8-chloro-6-(2-chlorophenyl)-4H-imidazo-[1,5-a]-[1,4]-benzodiazepine-3-carboxamide [I] and its 4-hydroxy metabolite, 8-chloro-6-(2-chlorophenyl)-4-hydroxy-4H-imidazo-[1,5-a][1,4]-benzodiazepine-3-carboxamide [II] in whole blood, plasma or urine. The assay for both compounds involves extraction into diethyl ether—methylene chloride (70:30) from blood, plasma, or urine buffered to pH 9.0. The overall recoveries of [I] and [II] are 92.0 ± 5.4% (S.D.) and 90.3 ± 4.9% (S.D.), respectively. The sensitivity limit of detection is 50 ng/ml of blood, plasma, or urine using a UV detector at 254 nm. The HPLC assay was used to monitor the blood concentration—time fall-off profiles, and urinary excretion profiles in the dog following single 1 mg/kg intravenous and 5 mg/kg oral doses, and following multiple oral doses of 100 mg/kg/day of compound [I].     

Measurement of plasma methoxyamines for the diagnosis of pheochromocytoma.

Urinary methoxyamine determination is considered as the most sensitive and specific parameter for the diagnosis of pheochromocytoma. Since blood sampling is easier to perform, we developed a new HPLC method to assay metanephrine (MN) and normetanephrine (NMN) in plasma. We now report the results for total (free and conjugated) MN and NMN in 22 cases of pheochromocytoma compared to 26 healthy subjects, 33 patients with essential hypertension, 14 with miscellaneous diseases and 4 patients with renal failure. The mean normal values (mean +/- SD) were 0.40 +/- 0.10 ng/ml for MN and 0.85 +/- 0.25 ng/ml for NMN. The sum of MN+NMN was 1.25 +/- 0.28 and the range 0.9-1.9. In essential hypertension, the range of NMN+MN was 1.2-6.0. In the 4 renal failures, both MN and NMN were drastically increased. In 49 samples drawn from 22 pheochromocytomas, MN was elevated over the hypertensive range in 34 samples and NMN in 47 samples. The total MN+NMN ranged from 6.2 to 436 ng/ml; this figure was observed whatever the clinical presentation even in silent tumors or in paroxysmal forms between the crisis. After tumor removal, the values dropped rapidly. In conclusion, plasma determination of MN and NMN provides a highly sensitive and specific biological pointer for the diagnosis of pheochromocytoma in patients without renal failure.     

Quantitative analysis of 6-hydroxymelatonin in human urine by gas chromatography-negative chemical ionization mass spectrometry

A method for assay of urinary 6-hydroxymelatonin, the major metabolite of the pineal hormone melatonin is described. After addition of an internal standard of deuterated 6-hydroxymelatonin sulfate, human urine was hydrolyzed enzymatically and free 6-hydroxymelatonin extracted, reacted to form a stable t-butyldimethylsilylpentafluoropropionyl derivative which was separated on silica gel column chromatography, and quantified using electron capture negative-ion chemical ionization mass spectrometry. Intrassay variability over an 18-h period was 5.4% [53.8 ng/3 ml urine ± 2.94 (SD)] and interassay variability over a 2-week period was 2.1% [51.8 ng/3 ml urine ± 1.08 (SD)].     

Quantification of the major urinary metabolite of prostaglandin D2 by a stable isotope dilution mass spectrometric assay

Prostaglandin D2 (PGD2) has been found to be an important pathophysiological mediator in a number of human disorders. Thus a means to assess the endogenous production of PGD2 is of considerable clinical value. To accomplish this goal, we developed a method for the quantification of the major urinary metabolite of PGD2, 9 alpha, 11 beta-dihydroxy-15-oxo-2,3,18,19-tetranorprost-5-ene-1,20-dioic acid, by gas chromatography/negative ion chemical ionization mass spectrometry. This metabolite was chemically synthesized and converted to an 18O4-labeled derivative for use as an internal standard. Novel derivatization and purification procedures were incorporated in the assay taking advantage of the ability of the lower side chain of this molecule to undergo cyclization at acidic pH to form a hemiketal, gamma-lactone, and uncyclization with methoximation. Precision of the assay is +/- 7% and accuracy is 96%. The lower limit of sensitivity is approximately 50 pg. Normal levels for the urinary excretion of this metabolite in 18 normal adults was found to be 1.08 +/- 0.72 ng/mg creatinine (mean +/- 2SD). Substantial elevations in the urinary excretion of the metabolite were found in clinical situations in which prostaglandin D2 has been shown to be released in increased quantities. Thus, this assay provides a sensitive and accurate method to assess endogenous production of prostaglandin D2 as a means to explore the pathophysiological role of prostaglandin D2 in human disease.     

Clonidine reduces elevated cerebrospinal fluid catecholamine levels in patients with essential hypertension

Cerebrospinal fluid (CSF) catecholamines were measured in normotensive patients and in patients with mild to moderate essential hypertension. CSF-norepinephrine (NE) concentrations were 50% lower in the normotensive individuals (127 ± 28 vs. 240 ± 23 pg/m1) (P<0.01). In hypertensive patients, CSF-NE was inversely related to age (r =-0.68; P<0.01) and directly related to plasma NE (r = 0.61; P<0.05). Clonidine (450 mcg/day for 2 weeks) significantly reduced CSF-NE (?40%) in hypertensive patients. In addition, it decreased blood pressure, plasma and urinary NE. Urinary VMA was not affected by clonidine. No correlation was observed between clonidine effects on BP and on plasma or CSF catecholamines. This study indicates that patients with essential hypertension have elevated levels of CSF-NE which are reduced after treatment with clonidine. The elevation of CSF-NE suggests that central (spinal?) noradrenergic activity may be increased in patients with mild to moderate essential hypertension, and that can be reduced by treatment with clonidine.     

Higher plasma catecholamine and metabolite levels in the early phase of nonsegmental vitiligo

The etiology of vitiligo is still being debated, although neural factors seem to play a pivotal role in its pathogenesis. In our search for a link between vitiligo and the activity of monoaminergic systems, we used high-pressure liquid chromatography and electrochemical detector (HPLC-ED) methods to measure the plasma levels of the following substances in 35 healthy subjects and in 70 patients suffering from nonsegmental vitiligo at the different stages of the disease: catecholamines [norepinephrine (NE), epinephrine (E), and dopamine (DA)], their precursor 3,4-dihydroxyphenylalanine (DOPA), their metabolites [3-methoxy-4-hydroxyphenylglycol (MHPG), normetanephrine (NMN), metanephrine (MN), and homovanillic acid (HVA)], and 5-hydroxyindolacetic acid (5-HIAA) as the major metabolite of serotonin. We found that the levels of NE, E, NMN, MN, HVA, and 5-HIAA were significantly higher in patients compared to controls. The patients at an active phase of the disease (n = 49/70) showed significantly higher levels of NE, NMN, MHPG, and HVA than ones at a stable phase. The patients with progressive vitiligo and at its more recent onset (< 1 year) showed significantly increased levels of E, NE, and MN in comparison with longer-term sufferers. No significant differences were observed when the patients were subdivided according to the type of vitiligo or their age at its onset. The higher catecholamine and metabolite levels in the early phase of the disease may reflect increased activity by monoaminergic systems, probably due to stressful events, including the onset of vitiligo itself.