The role of histidine in the anemia of folate deficiency

The amino acid histidine is metabolized to glutamic acid in mammalian tissue. Formiminoglutamic acid (FIGLU) is an intermediary in this reaction, and tetrahydrofolic acid is the coenzyme that converts it to glutamic acid. A test for folate deficiency concerns the measurement of urinary FIGLU excretion after a histidine load. It was observed that folate-deficient individuals receiving the histidine for the FIGLU test made hematological response that alleviated the anemia associated with this deficiency. This was unusual in that a biochemical test to determine the deficiency results in a beneficial effect for one aspect of the deficiency. The studies reported in this paper give a metabolic explanation for this phenomenon. Urine was collected for 24 hr from 25 folate-deficient subjects, 10 vitamin B(12)-deficient subjects, and 15 normal controls. Urinary excretion of histidine was a mean of 203 mg with a range of 130-360 mg for the folate-deficient subjects; 51.5 mg with a range of 30-76.6 mg for normal subjects; and 60.0 mg with a range of 32.3-93.0 mg for the vitamin B(12)-deficient subjects. All the folate-deficient subjects subsequently made a hematological response to the histidine administered for the FIGLU test. No hematological response was observed in the vitamin B(12)-deficient individuals. When folic acid was given to folate-deficient subjects who received no histidine, urinary histidine levels returned to normal levels rapidly and this was followed by a hematological response. Others have shown that volunteers fed a histidine-free diet developed anemia. In normal subjects, histidine is excreted much more in the urine than other essential amino acids are. Hemoglobin protein contains 10% histidine. Under normal conditions, dietary histidine can supply sufficient histidine to prevent anemia. When the dietary intake is diminished or the urinary excretion is greatly increased, anemia results. It is concluded that folate deficiency causes histidine depletion through increased urinary excretion of this amino acid. Feeding histidine replenishes tissue levels of histidine, resulting in hemoglobin regeneration. Folic acid administration results in return of histidine to normal urinary levels. Thus, a combination of folic acid histidine would be beneficial for folate deficient individuals.     

Effect of acetylsalicylic acid on urinary excretion of prostaglandin E in stroke patients

In 12 of 76 stroke patients complicated by the syndrome of inappropriate secretion of antidiuretic hormone (SIADH), a significant increase in urinary prostaglandin E (PGE) (p less than 0.005), and a significant positive relationship between the plasma arginine vasopressin (AVR) level and urinary PGE excretion were observed (r = 0.72, p less than 0.05). The experimental results are consistent with the view that renal PGE acts as a modulator of ADH. Nowadays acetylsalicylic acid (ASA), an inhibitor of prostaglandin biosynthesis, is widely used in ischemic stroke, it was felt necessary to study the effect of this drug on urinary PGE excretion. Therefore various daily doses of ASA were given orally for 3 days to patients with ischemic stroke. PGE values in 24-hour urine samples were measured every day for 3 days before administration of the drug and for 3 days during ASA administration. In 10 patients who took 75 mg of ASA, the decrease in urinary PGE excretion was not statistically significant. On the other hand when ASA was administered 300 mg once in 19 patients or 300 mg 4 times in 11 cases, urinary PGE excretion decreased significantly (p less than 0.05 and p less than 0.05 respectively). In another group of 8 patients who were observed before, during and after the ASA administration, a daily oral dose of 300 mg for 3 days caused a significant decrease in urinary PGE excretion during these 3 days (p less than 0.05). The urinary PGE excretion returned to the control level within 3 days after cessation of the ASA administration.     

Effect of exogenous carnitine on carnitine homeostasis in the rat

The interaction of exogenous carnitine with whole body carnitine homeostasis was characterized in the rat. Carnitine was administered in pharmacologic doses (0-33.3 mumols/100 g body weight) by bolus, intravenous injection, and plasma, urine, liver, skeletal muscle and heart content of carnitine and acylcarnitines quantitated over a 48 h period. Pre-injection urinary carnitine excretion was circadian as excretion rates were increased 2-fold during the lights-off cycle as compared with the lights-on cycle. Following carnitine administration, there was an increase in urinary total carnitine excretion which accounted for approx. 60% of the administered carnitine at doses above 8.3 mumols/100 g body weight. Urinary acylcarnitine excretion was increased following carnitine administration in a dose-dependent fashion. During the 24 h following administration of 16.7 mumols [14C]carnitine/100 g body weight, urinary carnitine specific activity averaged only 72 +/- 4% of the injection solution specific activity. This dilution of the [14C]carnitine specific activity suggests that endogenous carnitine contributed to the increased net urinary carnitine excretion following carnitine administration. 5 min after administration of 16.7 mumol carnitine/100 g body weight approx. 80% of the injected carnitine was in the extracellular fluid compartment and 5% in the liver. Plasma, liver and soleus total carnitine contents were increased 6 h after administration of 16.7 mumols carnitine/100 g body weight. 6 h post-administration, 37% of the dose was recovered in the urine, 12% remained in the extracellular compartment, 9% was in the liver and 22% was distributed in the skeletal muscle. In liver and plasma, short chain acylcarnitine content was increased 5 min and 6 h post injection as compared with controls. Plasma, liver, skeletal muscle and heart carnitine contents were not different from control levels 48 h after carnitine administration. The results demonstrate that single, bolus administration of carnitine is effective in increasing urinary acylcarnitine elimination. While liver carnitine content is doubled for at least 6 h following carnitine administration, skeletal muscle and heart carnitine pools are only modestly perturbed following a single intravenous carnitine dose. The dilution of [14C]carnitine specific activity in the urine of treated animals suggests that tissue-blood carnitine or acylcarnitine exchange systems contribute to overall carnitine homeostasis following carnitine administration.     

The effect of total body gamma-irradiation on mortality, egg production and egg weight of Japanese quails

Male and female Japanese quail 21 weeks old, that were given total body doses of 60Co gamma-rays ranging from 0 to 30 Gy, showed a peak in mortality at 6-8 days post-irradiation. The LD 50/30 was 22.5 Gy, and the LD 90/30 was 26.7 Gy. No differences were evident in mortality between males and females. The reduction in egg production by 30 days post-irradiation was related linearly to the dose, for doses above 6 Gy. The reduction in egg weight (30 days post-irradiation laying period) was also related linearly to the dose.     

Effect of tobramycin and gentamicin on the activity of some glycosidases in rat serum and urine

beta-Galactosidase, alpha-D-mannosidase, alpha-L-fucosidase and N-acetyl-beta-D-glucosaminidase activities were assayed in serum and urine from rats treated with three different doses of the nephrotoxic antibiotic tobramycin (100 mg/kg/day for 5 days, 10 mg/kg/day for 10 days and 5 mg/kg/day for 20 days) and gentamicin (100 mg/kg/day for 5 days). A significant increase of beta-galactosidase, N-acetyl-beta-D-glucosaminidase and alpha-L-fucosidase activities occurred in urine following the administration of high doses of antibiotic. The enzyme activity was dependent on the dose level used. The excretion of alpha-D-mannosidase was atypical and elevated activities were observed on some days but no pattern of excretion of this enzyme was established. No change in any of the four glycosidase activities was found in serum of treated rats. The results obtained when high doses of gentamicin were employed are similar to those obtained with a similar dose of tobramycin. These results indicate that the assay of urinary glycosidase activities provides a useful method for monitoring the nephrotoxicity of antibiotics.     

Plasma immunoreactive N-terminal parathyroid hormone and cyclic AMP and cyclic GMP urinary levels in man after I. M. administration of two different doses of porcine calcitonin

The effects of acute porcine calcitonin (pCT) administration were studied in 11 healthy volunteers with no metabolic disease. Each subject was given, intramuscularly, 1 MRC unit of pCT in glycine vehicle, 160 units of pCT in gelatine vehicle, and placebo, according to a crossover design. The following parameters were studied: blood calcium, phosphorus and immunoreactive parathyroid hormone (iPTH); urine calcium, phosphorus, cyclic AMP and GMP. Both the pCT preparations produced, at the same time after administration, a hypocalcemic effect (P less than 0.01) which was not dose related, without any modification of urinary calcium excretion, implying that both doses are able to inhibit completely bone destruction. Despite the blood calcium decrease, no significant modifications in plasma iPTH levels were observed. pCT administration did not modify the urinary excretion of cyclic AMP, while it increased the urinary levels of cyclic GMP, particularly at the higher dose employed. Blood phosphorus decrease and urinary phosphate excretion increase were observed only after the administration of 160 MRC units of pCT. These observations suggest that the effects on urinary cyclic GMP and on blood and urine phosphorus are not mediated by PTH but could be the result of a direct action of calcitonin seen only when high doses are employed. In conclusion, one MRC unit of pCT is sufficient to inhibit bone resorption.     

Effects of intranasal administration of atrial natriuretic hormone on spontaneously hypertensive rats

The effects of the intranasal administration of synthetic alpha-human atrial natriuretic polypeptide (alpha-hANP) were investigated in 14 anesthetized spontaneously hypertensive rats (SHR; Okamoto-Aoki strain). They were given intranasally synthetic alpha-hANP in distilled water at doses of 10 micrograms/kg, 50 micrograms/kg and 100 micrograms/kg. Intranasal application of 200 microliter of distilled water as a control was also performed in 3 anesthetized SHR. Sixteen anesthetized SHR were examined for the effects of intravenous administration of alpha-hANP at doses of 4 micrograms/kg, 10 micrograms/kg, 20 micrograms/kg and 40 micrograms/kg. Urinary volume and the urinary excretion of sodium increased 2- to 3-fold during the 50 minutes following intranasal administration of a single dose of 50 micrograms/kg or 100 micrograms/kg, although neither the urinary volume nor the urinary excretion of sodium increased after intranasal administration of 10 micrograms/kg of alpha-hANP or 200 microliter of distilled water. There were no significant changes in arterial pressure or heart rate after the intranasal administration of synthetic alpha-hANP or distilled water. In contrast, arterial pressure was decreased and urinary volume and urinary excretion of sodium were increased, in a dose dependent manner, within 5 minutes after intravenous bolus-injection of alpha-hANP and returned to their baseline levels within 20 minutes. These results indicate that intranasal administration of synthetic alpha-hANP exerts its diuretic effect without concomitant changes in arterial pressure or heart rate in SHR.     

Urinary excretion of lignans after administration of isolated plant lignans to rats: the effect of single dose and ten-day exposures

The difference in urinary excretion of mammalian and plant lignans in rats was determined after oral administration of equivalent doses (25 mg/kg of body weight) of 7-hydroxymatairesinol (HMR), lariciresinol (LAR), matairesinol (MR), and secoisolariciresinol (SECO). Twenty-four hours-urine samples were collected after a single dose and after administration of one dose/day for 10 days. Eight lignans were analysed in urine extracts using a high-performance liquid chromatography-tandem mass spectrometry method showing good sensitivity and repeatability. After a single dose of HMR, LAR, MR, and SECO, the main metabolites were 7-hydroxyenterolactone (HENL), cyclolariciresinol (CLAR), enterolactone (ENL), and enterodiol (END), respectively, but after 10-day exposure ENL was the main metabolite of all the tested lignans, showing a considerably higher excretion than after a single dose. Metabolic transformations of plant lignans into each other could also be observed.     

Quantifying translocation of Listeria monocytogenes in rats by using urinary nitric oxide-derived metabolites

The urinary nitric oxide metabolites NO(2)(-) and NO(3)(-) (summed as NO(x)) are a noninvasive, quantitative biomarker of translocation of salmonella from the intestinal lumen to systemic organs. Listeria monocytogenes is a food-borne gram-positive pathogen that can also cross the intestinal epithelium. In this study, we tested the efficacy of urinary NO(x) as a marker of listeria translocation. Rats (eight per group) were orally infected with increasing doses of L. monocytogenes; control rats received heat-killed listeria. The kinetics of urinary NO(x) and population levels of listeria in feces were determined for 7 days. Another group of rats was killed 1 day after infection to verify translocation by culturing viable listeria from systemic organs. Oral administration of increasing doses of L. monocytogenes resulted in a time- and dose-dependent increase in urinary NO(x) excretion. Translocation was a prerequisite for inducing a NO(x) response, since heat-killed L. monocytogenes did not elevate NO(x) excretion in urine. Fecal counts of listeria also showed dose and time dependency. Moreover, the number of viable L. monocytogenes cells in mesenteric lymph nodes also increased in a dose-dependent manner and correlated with urinary NO(x). In conclusion, urinary NO(x) is a quantitative, noninvasive biomarker of listeria translocation.     

Effect of dietary protein, alfalfa, and zeolite on excretory patterns of 5',5',7',7'-[3H]zearalenone in rats

A series of experiments was conducted to determine how dietary protein, alfalfa, or zeolite influence the excretory patterns of zearalenone (Z), a uterotropic mycotoxin synthesized by Fusarium fungi. Rats were fed diets containing 16.3% casein, 40% casein, 11.2% casein + 25% alfalfa, or 25% casein + 25% alfalfa. Also fed were diets containing 0, 1, 2, or 5% anion exchange zeolite. Tracer doses of [3H]Z were administered either as a constituent of the diet or as a topical application on the skin at the base of the skull. When Z was administered orally, no differences were seen in the fraction of the dose excreted in urine or feces as a result of varying dietary levels of alfalfa and protein. Topical doses resulted in rats fed 25% casein + 25% alfalfa or 40% casein excreting more Z in urine than those fed 25% alfalfa or 16.3% casein. Fecal excretion of Z was greatest for rats fed 25% casein + 25% alfalfa whereas rats fed 40% casein excreted more fecal Z than those fed 16.3% casein. Feeding Z to rats receiving dietary zeolite resulted in a positive correlation between dietary zeolite and fecal excretion of Z but a negative correlation with urinary excretion of Z. Topical administration of Z produced a positive correlation between dietary zeolite and fecal Z excretion but no effect on urinary excretion. It may be concluded that protein and alfalfa treatments alleviate Z toxicosis through increased metabolism whereas zeolite binds Z in the digestive tract to prevent absorption.     

Effect of cicletanine on renal cGMP production.

The aim of the present study was to assess the effect of cicletanine on renal cGMP production. To do so we measured mean arterial pressure (MAP), creatinine clearance (CC), and urinary excretion of electrolytes and cGMP under basal conditions and after 6 h of cicletanine administration (10 and 15 mg/kg body weight by oral gavage) in conscious Wistar rats. Also, the in vitro effect of cicletanine was assessed by incubating renal slices and isolated rat glomeruli with two concentrations of cicletanine (0.1 and 1 mM) for different times (1, 2, 5, and 30 min) in the presence of 3-isobutyl-1-methylxanthine. Oral administration of cicletanine induced an increase in urinary flow (V) and the urinary excretion of electrolytes and cGMP, with no changes in CC. In addition, a significant decrease in MAP was observed, but only with the lower dose. Incubation with cicletanine did not induce significant changes in cGMP production in glomeruli or renal slices. These results show that cicletanine, administered in vivo at diuretic and antihypertensive doses, induces an increase in urinary cGMP excretion.     

Influence of oral dehydroepiandrosterone (DHEA) on urinary steroid metabolites in males and females

Oral dehydroepiandrosterone (DHEA) replacement therapy may have a multitude of potential beneficial effects and exerts its action mainly via peripheral bioconversion to androgens (and estrogens). A daily dose of 50-mg DHEA has been shown by us and others to restore low endogenous serum DHEA concentrations to normal youthful levels followed by an increase in circulating androgens and estrogens. As the hepatic first-pass effect may lead to a non physiological metabolism of DHEA after oral ingestion we studied the influence of two single DHEA doses (50 and 100 mg) on the excretion of steroid metabolites in 14 elderly males [age 58.8+/-5.1 years (mean +/- SEM)] with endogenous DHEAS levels <1500 ng/ml and in 9 healthy females (age 23.3+/-4.1 years) with transient suppression of endogenous DHEA secretion induced by dexamethasone (dex) pretreatment (4x0.5 mg/day/4 days). Urinary steroid profiles in the elderly males were compared to the steroid patterns found in 15 healthy young men (age 28.9+/-5.1 years). In the females the results were compared to their individual baseline excretion without dex pretreatment. Urinary steroid determinations were carried out by semiautomatic capillary gas-liquid chromatography. In both genders DHEA administration induced significant increases in urinary DHEA (females: baseline vs. 50 mg vs. 100 mg: 361+/-131 vs. 510+/-264 vs. 1541+/-587 microg/day; males: placebo vs. 50 mg vs. 100 mg: 434+/-154 vs. 1174+/-309 vs. 4751+/-1059 microg/day) as well as in the major DHEA metabolites androsterone (A) and etiocholanolone (Et). Fifty mg DHEA led to an excretion of DHEA and its metabolites only slightly above baseline levels found in young females and in young men, respectively, whereas 100 mg induced clearly supraphysiological values. After 50 mg DHEA the ratios of urinary DHEA metabolites (A/DHEA, Et/DHEA) were not significantly different between elderly males vs. young male volunteers and young healthy females versus their individual baseline levels. In conclusion, an oral dose of 30 to 50 mg DHEA restores a physiological urinary steroid profile in subjects with DHEA deficiency without evidence for a relevant hepatic first-pass effect on urinary metabolites.     

The effect of a weight-reducing diet on the nitrogen metabolism of obese adolescents

Rates of whole body amino nitrogen flux were measured in 16 obese adolescents undergoing weight reduction with a high protein low energy diet. The subjects received approximately 2.5 g of animal protein per day per kilogram ideal body weight and maintained nitrogen balance throughout the 18 days on the diet. Flux rates were calculated separately from the cumulative excretion of 15N in urinary ammonia and urea following the administration of a single dose of [15N]glycine. The pattern of 15N label appearance in urinary ammonia and urea nitrogen was followed for 72 h after the administration of [15N]glycine. Significant amounts of label continued to be excreted in both urinary ammonia and nitrogen for 36-48 h after label administration. The weight-reducing diet accelerated 15N cumulative excretion in urinary urea, but not in ammonia nitrogen compared with the control diet. Whole body nitrogen flux rates increased rapidly and significantly on the diet. Using the urea end product, this increase was evident on the 4th diet day, but not by the 7th or subsequent days. On the other hand, using the ammonia end product, flux rate increased markedly (p less than 0.0001) and remained elevated throughout the whole study. Our results demonstrate adaptive changes in whole body amino-nitrogen metabolism in response to the reducing diet. Different patterns of change are seen depending upon whether an ammonia or a urea end product is used. Our data thus add to the evidence for compartmentation of the body's amino-nitrogen pools.     

A comparative study of the effects of nicotinamide and diethylnicotinamid on hepatic monooxygenase, glucuronyl and glutathione conjugating systems

The nicotinamide administration to rats (50 mg/kg, subcutaneously, over 5 days) increased the concentration of liver cytochrome b5, the activities of cytosol and microsomal glutathione S-transferase, UDP-glucuronosyltransferase and urinary excretion of bound glucuronic acid by 26.7, 33.1, 33.3, 53.0 and 31.0%, respectively. The chloral hydrate-induced sleep time in mice was reduced by 65%. Under similar experimental conditions the administration of equimolar amounts of diethylamide of nicotinic acid (75 mg/kg) exerted a more pronounced enzyme-stimulating effect. The cytochrome P-450 concentration, the activities of cytosol and microsomal glutathione S-transferase, UDP-glucuronosyltransferase as well as the sulphobromophthalein elimination from blood plasma and urinary excretion of bound glucuronic acid were increased by 37.0, 33.1, 54.6, 80.5, 24.5 and 49.0%, whereas the chloral hydrate-induced sleep time decreased by 75%. The nicotinamide and diethylamide of nicotinic acid stimulating effects on xenobiotic biotransformation in rat liver are assumed to be due to enhanced NADPH, glutathione and UDP-glucuronic acid biosynthesis as well as their antioxidant properties.     

Mechanism of reduced binding capacity of plasma corticosteroid-binding globulin in acute radiation sickness

Injection of various doses of thyroxin to rats was shown to increase a binding capacity of corticosteroid-binding globulin (CSG) of blood plasma after irradiation with doses of 650 and 800 R. The effect of thyroxin was most pronounced at a mid-lethal dose of 650 R and at the early stage of radiation sickness.     

Inhibitory effects of 1 alpha, 25-dihydroxycholecalciferol on parathyroid hormone secretion in rats

In an attempt to study the influence of vitamin D metabolites on PTH secretion, serum calcium and urinary excretion of cAMP were sequentially measured in conscious perfused rats, and the effects of a single iv injection of the metabolites on these parameters were examined. Four hours after the administration of 0.25 microgram/kg (0.6 nmol/kg, probably a physiological dose) of 1 alpha, 25-dihydroxycholecalciferol [1 alpha, 25 (OH)2D3], the urinary excretion of cAMP decreased to a level compatible with that of parathyroidectomized rats (approximately 60% of the initial value; P less than 0.05) and this level was sustained for nearly 24 h. Serum concentrations of calcium (total and ionized) did not change. In parathyroidectomized rats which were continuously infused with bovine PTH (1 U/h), the vitamin D metabolite had no significant effect on the urinary excretion of cAMP. 24 R, 25-dihydroxcholecalciferol (12.5 microgram/kg) had no significant effect either on the urinary excretion of cAMP or on serum calcium. These results suggest that in rats, a physiological dose of 1 alpha, 25(OH)2D3 inhibits PTH secretion without causing a significant rise iu serum calcium, reflecting a feed-back mechanism between active vitamin D metabolite, 1 alpha, 25(OH)2D3 and the parathyroid glands.     

Effect of a cysteine prodrug, L-2-oxothiazolidine-4-carboxylic acid, on the metabolism and toxicity of bromobenzene: an acute study

The effect of a cysteine prodrug, L-2-oxothiazolidine-4-carboxylic acid (OTCA), on certain aspects of the metabolism and toxicity of bromobenzene administered acutely to mice was investigated by (i) characterizing the influence of OTCA on the metabolic profile of low and high bromobenzene dose at 0-6, 6-12, and 12-24 h, (ii) determining the effective doses range and administration time for OTCA, as well as the optimum period for urine sampling; and (iii) measuring the efficacy of OTCA for protection against bromobenzene induced toxicity. Coadministration of OTCA and bromobenzene enhanced the urinary excretion of mercapturic acid and phenolic metabolites, during 6-12 h, by approximately 152 and 193%, respectively. Maximum efficacy was observed when OTCA (16.0 mmol/kg) was administered concomitantly with bromobenzene (4.0 mmol/kg). Finally, OTCA administration was found to afford substantial protection against elevation of plasma transaminases used as indices of bromobenzene-induced hepatotoxicity. N-acetylcysteine, another cysteine prodrug, had essentially similar effects on the metabolism and toxicity of bromobenzene. Thus, administration of cysteine prodrugs enhances the urinary excretion of several metabolites of bromobenzene and affords protection against bromobenzene-induced hepatotoxicity.     

The influence of endogenous mineralocorticoids on the composition of fetal urine

Experiments were carried out in 10 chronically catheterised fetal sheep aged 121-128 days. In 3 animals infusion of aldosterone (5 micrograms/h) caused a fall in fetal urinary Na/K ratio; an effect that was reversed by spironolactone 2.5 mg/kg followed by an infusion of 100 micrograms/h per kg. In 9 fetal sheep which had no previous treatment the same doses of spironolactone had no effect on fractional sodium excretion although the fractional excretion of potassium decreased (P less than 0.05) and the urinary sodium potassium (Na/K) ratio rose (P less than 0.05). Amiloride had a variable effect on sodium excretion but the fractional excretion of potassium decreased markedly (P less than 0.05). Thus in chronically catheterised fetal sheep, endogenous mineralocorticoid activity altered urinary potassium excretion and the urinary Na/K ratio. However this activity was low, as distal blockade with amiloride further decreased the fractional excretion of potassium and increased the urinary Na/K ratio.     

Lead increases urinary zinc excretion in rats

The major purpose of this study was to determine whether acute or chronic Pb exposure would increase urinary excretion of zinc in the rat. Four groups of unanesthetized rats were given 0, 0.03, 0.3, or 3 mg Pb (as acetate) kg intravenously, and urinary excretion of zinc, sodium, and potassium was monitored for 6 h. Only at the highest dose was urinary Zn excretion significantly elevated; there were no significant changes in sodium and potassium excretion at any dose. Two other groups of rats were studied for 9 weeks in metabolism cages before and during administration of either 500 ppm Pb (as acetate) or equimolar Na acetate in the drinking water. Two days after Pb treatment and continuing through day 35, Zn excretion was elevated in the Pb-exposed animals; beyond this day, zinc excretion became similar in the two groups. The difference in Zn excretion was not the result of lower water intake by the Pb-treated animals. At sacrifice (70 days after starting Pb exposure), Pb-exposed animals had lower Zn content of the plasma and testis, but there was no difference in kidney Zn. Plasma renin activity was significantly higher in Pb-exposed animals. We conclude that chronic Pb exposure in rats can result in some degree of decreased tissue zinc, which is, at least in part, secondary to increased urinary losses of zinc.     

Role of some biogenic amines in the pathomechanism of glomerulonephritis. II. Adrenaline, noradrenaline and serotonin in acute serum sickness in rabbits

In acute serum sickness induced with one intravenous dose of bovine serum albumin (BSA) in 40 rabbits the patterns of excretion of adrenaline (A), noradrenaline (NA), serotonin (5HT) and 5-hydroxyindole-acetic acid (5HIAA) were studied in 24-hour urine, and the 5HT level was determined at intervals of three days. The urinary levels of biogenic amines were determined daily. Some rabbits immunized with BSA received also additionally 5HT, reserpine or parachlorphenylalanine (PCPA). Administration of BSA to rabbits caused a significant increase in the excretion of A and NA and a less evident increase in 5HT level in the blood. The greatest correlation with the course of the immune reaction was shown by the increase in NA excretion observed on the 2nd and 3rd days after BSA administration, and then between the 5th and the 12th days of the experiment. Daily subcutaneous injections of 5HT during 15 days caused a significant rise of its level in the blood and urine, and an increase of 5HIAA excretion. After reserpine or PCPA administration a significant decrease of the levels of all these amines was observed. Taking into account the results of histological examination of the kidneys, that is intensification of the inflammatory changes after 5HT administration and evident inhibition of the inflammatory process after administration of reserpine and PCPA it must be accepted that the studied amines have an important role in the pathomechanism of glomerulonephritis in acute serum sickness.