Waterborne vs. dietary copper uptake in rainbow trout and the effects of previous waterborne copper exposure

Juvenile rainbow trout (Oncorhynchus mykiss) were exposed to waterborne Cu (22 microg/l) in moderately hard water for up to 28 days. Relative to control fish kept at background Cu levels (2 microg/l), Cu-preexposed fish displayed decreased uptake rates of waterborne Cu via the gills but not of dietary Cu via the gut during 48-h exposures to (64)Cu-radiolabeled water and diet, respectively. At normal dietary and waterborne Cu levels, the uptake rates of dietary Cu into the whole body without the gut were 0.40-0.90 ng. g(-1). h(-1), >10-fold higher than uptake rates of waterborne Cu into the whole body without the gills, which were 0.02-0.07 ng. g(-1). h(-1). Previously Cu-exposed fish showed decreased new Cu accumulation in the gills, liver, and carcass during waterborne (64)Cu exposures and in the liver during dietary (64)Cu exposures. A 3-h gill Cu-binding assay showed downregulation of the putative high-affinity, low-capacity Cu transporters and upregulation of the low-affinity, high-capacity Cu transporters at the gills in Cu-preexposed fish. Exchangeable Cu pools in all the tissues were higher during dietary than during waterborne (64)Cu exposures, and previous Cu exposure reduced waterborne exchangeable Cu pools in gill, liver, and carcass. Overall, these results suggest a quantitatively greater role for the dietary than for the waterborne route of Cu uptake, a key role for the gill in Cu homeostasis, and important roles for the liver and gut in the normal metabolism of Cu in fish.     

Peripheral PYY inhibits intracisternal TRH-induced gastric acid secretion by acting in the brain

The site of action of peripheral peptide YY (PYY)-induced inhibition of vagally stimulated gastric acid secretion was studied using immunoneutralization with PYY antibody in urethan-anesthetized rats. Gastric acid secretion (59+/-7 micromol/90 min) stimulated by intracisternal injection of the stable thyrotropin-releasing hormone (TRH) analog RX-77368 (14 pmol/rat) was dose-dependently inhibited by 52%, 69%, and 83% by intravenous infusion of 0.25, 0.5, and 1.0 nmol. kg(-1) x h(-1) PYY, respectively. PYY or PYY(3-36) (2.4 pmol/rat) injected intracisternally also inhibited the acid response to intracisternal RX-77368 by 73% and 80%, respectively. Intravenous pretreatment with PYY antibody (4.5 mg/rat), which shows a 35% cross-reaction with PYY(3-36) by RIA, completely prevented the inhibitory effect of intravenously infused PYY (1 nmol x kg(-1) x h(-1)). When injected intracisternally, the PYY antibody (280 microg/rat) reversed intracisternal PYY (2.4 pmol)- and intravenous PYY (1 nmol x kg(-1) x h(-1))-induced inhibition of acid response to intracisternal RX-77368 by 64% and 93.5%, respectively. These results provide supporting evidence that peripheral PYY inhibits central vagal stimulation of gastric acid secretion through an action in the brain.     

A note on copper bioaccumulation in Mozambique tilapia,Oreochromis mossambicus (Osteichthyes: Cichlidae)

Copper (Cu) is one of the most commonly reported metal pollutants in African water bodies, but there are few studies on African freshwater fish species of copper accumulation and copper toxicity. Adult O. mossambicus were exposed to 0mg l^?1 (control) and 0.75mg l^?1 Cu for 96h and 0 (control), 0.11, 0.29 and 0.47mg l^?1 copper for 64 days. Samples of liver and gills were collected after 96h, and after 1, 32 and 64 days, respectively. There were significant differences in the mean Cu accumulation values in the liver and gills between the control and the Cu-exposed fish after the 96-h exposure. In fish exposed to 0.11 and 0.29mg l^?1 Cu for 64 days there was an increase in copper level in the tissues. In fish exposed to 0.47mg l^?1 Cu the concentration in the gill and liver tissue did not increase between Day 1 and Day 32. At this time, Cu accumulation in the liver was higher than for fish exposed to 0.11 and 0.29mg l^?1 Cu for 64 days. Exposure to approximately 0.47mg l^?1 Cu for more than 32 days induced mortality.     

Unusual physiology of scale-less carp,Gymnocypris przewalskii,in Lake Qinghai: a high altitude alkaline saline lake

The scale-less carp (Gymnocypris przewalskii) inhabits Lake Qinghai located on the Qinghai-Tibet plateau (elevation, 3200 m) in western China. The lake waters are alkaline (pH 9.4, titratable alkalinity=30 mmol l(-1)), Mg(2+)-rich (18.7 mmol l(-1)), Ca(2+)-poor (0.30 mmol l(-1)) and saline (9 per thousand ). These fish make annual spawning migrations into freshwater rivers. We investigated the physiology of nitrogen excretion and ionoregulation of fish from the lake and river. Fish from both waters were ammonotelic, although ammonia-N excretion rates were lower in lake fish (175 vs. 344 micromol kg(-1) h(-1), P<0.05) resulting in unusually high levels of ammonia in blood plasma (2.23 vs. 0.32 mmol l(-1)), bile, liver, muscle and brain. Exposure to 0.4 mmol l(-1) total ammonia in lake water ([NH(3)]=0.16 mmol l(-1)) killed fish within 8 h. River fish survived exposure to 1.0 mmol l(-1) total ammonia in river water at pH 8.0 ([NH(3)]=0.023 mmol l(-1)) for 24 h suggesting high ammonia tolerance in lake fish. High glutamate dehydrogenase and glutamine synthetase activities in tissues probably allow the fish to alleviate ammonia toxicity by amino acid accumulation. Neither lake nor river fish relied on urea excretion to remove excess N. Urea-N excretion rates were below 20 micromol kg(-1) h(-1) for both groups, and levels of urea in plasma and tissues were moderate. When exposed to elevated ammonia, urea-N excretion increased slightly (approximately 50 micromol kg(-1) h(-1)) and liver and muscle urea levels increased in the river fish. Plasma ion levels were within the range typical of cyprinids, but river fish had significantly higher plasma [Na(+)] and [Cl(-)] and lower [K(+)] than fish from the lake. During 48-h lake-to-river water transfer, plasma Na(+) and Cl(-) levels rose significantly. Significantly higher Na(+)/K(+)-ATPase activity in the gills of river fish may be related to the higher plasma ion levels. Plasma [Mg(2+)] and [Ca(2+)] were tightly regulated despite the great differences in the lake and river water levels.     

Excretion of copper complexed with thiomolybdate into the bile and blood in LEC rats

Copper (Cu) accumulating in a form bound to metallothionein (MT) in the liver of Long-Evans rats with a cinnamon-like coat color (LEC rats), an animal model of Wilson disease, was removed with ammonium tetrathiomolybdate (TTM), and the fate of the Cu complexed with TTM and mobilized from the liver was determined. TTM was injected intravenously as a single dose of 2, 10 or 50 mg TTM/kg body weight into LEC and Wistar (normal Cu metabolism) rats, and then the concentrations of Cu and molybdenum (Mo) in the bile and plasma were monitored with time after the injection. In Wistar rats, most of the Mo was excreted into the urine, only a small quantity being excreted into the bile, while Cu excreted into the urine decreased. However, in LEC rats, Cu and Mo were excreted into the bile and blood, and the bile is recognized for the first time as the major route of excretion. The Cu excreted into both the bile and plasma was accompanied by an equimolar amount of Mo. The relative ratio of the amounts of Cu excreted into the bile and plasma was 40/60 for the low and high dose groups, and 70/30 for the medium dose group. The systemic dispositions of the Cu mobilized from the liver and the Mo complexed with the Cu were also determined for the kidneys, spleen and brain together with their urinal excretion. Although Mo in the three organs and Cu in the kidneys and spleen were increased or showed a tendency to increase, Cu in the brain was not increased at all doses of TTM.     

Biliary excretion of [14C]taurocholate by rainbow trout (Salmo gairdneri) is stimulated at warmer acclimation temperature

Sexually immature Shasta strain rainbow trout (Salmo gairdneri) of either sex were acclimated at 10, 14 or 18 degrees C for at least 4 weeks and plasma pharmacokinetics and biliary excretion of i.p. injected [14C]taurocholate (TC) examined in spinally transected or free-swimming fish, respectively. Plasma elimination half-lives but not absorption rate constants for [14C]TC (10 mumol/kg) were about two-fold reduced in 18 as compared to 10 or 14 degrees C acclimated fish. Distribution of [14C]TC to tissues other than plasma, liver, bile and small intestine was not different in 10, 14 or 18 degrees C acclimated free-swimming fish at 1 or 4 hr post-injection. Biliary excretion of [14C]TC (7.5-10 mumol/kg) at 1 hr post-injection was significantly higher in 14 and 18 as compared to 10 degrees C acclimated fish.     

Differential effects of in vivo and in vitro lactate treatments on liver carbohydrate metabolism of rainbow trout

The aim of this study was to obtain in rainbow trout evidence for the role of lactate in liver carbohydrate metabolism. In the first experiment fish were injected intraperitoneally (n=8) with 5 mL x kg(-1) of Cortland saline alone (control) or saline containing L-(+)-lactate (22.5 mg x kg(-1) or 45 mg x kg(-1)) with samples being obtained 6 h after treatment. In the second experiment, to isolate the effects of increased lactate levels alone from the possible in vivo interaction of increased lactate levels with the effect of hormones and metabolites other than glucose, small liver pieces were incubated in vitro for 1 h at 15 degrees C in modified Hanks' medium containing 2, 4 or 8 mM L-(+)-lactate alone (control) or with 50 mM oxamate, 1 mM DIDS, 1 mM dichloroacetate (DCA), 10 mM 2-deoxyglucose (2-DG), 1 mM alpha-cyano 4-hydroxy cinnamate (4-CIN) or 10 mM D-glucose. The response of parameters assessed (metabolite levels and enzyme activities) provided evidence for some characteristics of lactate metabolism in fish liver that were not present when specific inhibitors were used. The main in vivo effects of lactate treatment were increased levels of lactate (approx. 100% increase) and glucose (30-70%) in plasma, as well as decreased glycogen (50%) and lactate (30%) levels, and increased gluconeogenic (20%) and glycolytic (50%) potentials in liver. Those actions, however, were probably the result of an indirect action with other substrates (glucose) and/or hormones since in vitro experiments did not provide similar results for those parameters.     

Antisecretory effects of galanin and its putative antagonists M15, M35 and C7 in the rat stomach.

The neuropeptide galanin has been reported to have a wide range of biological actions both in the central nervous system and in the gastrointestinal tract. Recent works led to the discovery of selective galanin receptor antagonists including M15 (galanin(1-12)-Pro-substanceP(5-11)-amide), M35 (galanin(1-12)-Pro-bradykinin(2-9)-amide) and C7 (galanin(1-12)-Pro-spantide-amide). These antagonists were shown to competitively inhibit actions of galanin in the central nervous system. The present study was designed to investigate the effect of galanin, M15, M35 and C7 on gastric acid secretion and gastric emptying. Pentagastrin-stimulated gastric acid secretion was inhibited by galanin (0.1-9 nmol x kg(-1) x h(-1), i.v.) in a dose-dependent manner (ID50 = 1.8 +/- 0.3 nmol x kg(-1) x h(-1)). When 9 nmol x kg(-1) x h(-1) galanin infusion was given, inhibition became almost complete. M15, M35 and C7 (1-9 nmol x kg(-1) x h(-1)) did not modify responses of the stomach to galanin, but acted as agonists of galanin on acid secretion. Neither galanin nor its putative antagonists affected the emptying of non-caloric liquids from the stomach. In conclusion, galanin may play an antisecretory role in the regulation of gastric acid secretion but not in the control of gastric emptying of liquids in rats. Its antisecretory action on the stomach is mediated by galanin receptors that are distinct from those in the central nervous system.     

Discriminative uptake of metals by the liver and its relation to induction of metallothionein by cadmium, copper and zinc

1. Disappearance from plasma and uptake by the liver of cadmium (Cd), copper (Cu) and zinc (Zn) were examined with a view to studying the biological discrimination between essential and non-essential heavy metals. 2. Cd injected intravenously at a single dose of 0.8 mg/kg body wt disappeared from rat plasma rapidly within about 10 min, while Cu and Zn injected at the same dose disappeared slowly in plasma and decreased to the control level after about 3 hr. 3. Uptake of Cd by the liver corresponded well with the rapid disappearance from plasma, while Cu and Zn accumulated slowly in the liver and their concentrations started to increase after their plasma concentrations had decreased. 4. Metallothionein was induced in the liver at a similar time course for the three metals, suggesting the presence of discriminative uptake processes by the liver with similar or the same detoxification mechanisms through induction of metallothionein.     

Excessive hepatic copper accumulation in jaundiced rats fed a high-copper diet

The response of copper metabolism to dietary copper challenge was investigated in jaundiced rats with elevated plasma concentrations of conjugated bilirubin as a result of impaired canicular transport of bilirubin glucuronides. Control and jaundiced rats were fed purified diets with either normal (64 μmol Cu/kg) or high (640 μmol Cu/kg) concentration of added copper. Copper loading produced a greater increase in hepatic copper concentrations in the jaundiced than in control rats. The greater dietary-copper-induced increase in hepatic copper in the jaundiced rats can be explained by the observed smaller rise in biliary copper excretion and a greater efficiency of dietary copper absorption. In individual rats, there was a positive relationship between hepatic copper concentrations and biliary copper concentrations. It is suggested that not the transport of copper from liver cells to bile but that from plasma to bile is diminished in the jaundiced rats. The elevated plasma copper concentrations in the jaundiced rats may support this suggestion.     

Copper transporter 1, metallothionein and glutathione reductase genes are differentially expressed in tissues of sea bream (Sparus aurata) after exposure to dietary or waterborne copper

The high affinity copper transporter 1 (Ctr1), metallothionein (MT) and glutathione reductase (GR) are essential for copper uptake, sequestration and defense respectively. Following rearing on a normal commercial diet (12.6+/-0.2 mg kg(-1) Cu), sea bream were fed an experimental control diet lacking mineral mix (7.7+/-0.3 mg kg(-1) Cu), an experimental diet enhanced with Cu (135+/-4 mg kg(-1) Cu) or an experimental diet (7.7+/-0.3 mg kg(-1) Cu) whilst exposed to Cu in water (0.294+/-0.013 mg L(-1)). Fish were sampled at 0, 15 and 30 days after exposures. Fish fed the Cu-enhanced experimental diet showed lower levels of expression of Ctr1 in the intestine and liver compared to fish fed control experimental diets, whilst Ctr1 expression in the gill and kidney was unaffected by excess dietary Cu exposure. Waterborne-Cu exposure increased Ctr1 mRNA levels in the intestine and the kidney compared to experimental controls. Excess dietary Cu exposure had no effect on levels of metallothionein (MT) mRNA, and the only effect of dietary excess Cu on glutathione reductase (GR) mRNA was a decrease in the intestine. Both MT mRNA and GR were increased in the liver and gill after waterborne-Cu exposure, compared to levels in fish fed experimental control low Cu diets. Thus, Ctr1, MT and GR mRNA expression in response to excess Cu is dependent on the route of exposure. Furthermore, the tissue expression profile of sea bream Ctr1 is consistent with the known physiology of copper exposure in fish and indicates a role both in essential copper uptake and in avoidance of excess dietary and waterborne copper influx.     

Effect of chemical sympathectomy on renal hydroelectrolytic handling in dogs with chronic caval constriction

The effect of renal selective chemical sympathectomy by intrarenal infusion of 6-hydroxydopamine (6-OHDA, 5 mg/kg body weight) on the renal excretion of water and electrolytes was studied in 7 dogs in whom a syndrome of sodium and water retention and ascites formation was induced by partial constriction of thoracic inferior vena cava. Propranolol (1 mg) and phentolamine (3 mg) were also injected to obviate acute systemic hemodynamic changes. Sympathectomy was performed once in 4 dogs and three times in 3 dogs. Sympathectomy induced an abrupt and transient increase in urinary flow (from 170 +/- 30 to 890 +/- 60 ml/24 h) and sodium excretion (from 4.5 +/- 1.5 to 178 +/- 21 mEq/24 h). This was accompanied by an important fall in plasma renin activity (from 2.2 +/- 0.2 to 0.5 +/- 0.1 ng angiotensin I/ml/h) and aldosterone, and disappearance of ascites. It is concluded that chemical sympathectomy, by increasing renal sodium and water excretion, mobilizes the ascites induced by chronic caval constriction, a fact that highlights the role of the renal sympathetic system in the pathogenesis of sodium and water retention by the kidney.     

Characterization of chylomicron remnant clearance by retinyl palmitate label in normal humans.

To characterize chylomicron remnant clearance by the liver, plasma elimination of retinyl palmitate-labeled chylomicron remnants was studied in 18 healthy subjects, ages 21-42 years. Autologous plasma containing retinyl palmitate-labeled chylomicrons and their remnants was injected intravenously, and retinyl palmitate disappearance was measured in serial plasma samples in all subjects and in lipoprotein fractions in 11 subjects. The injected doses (n = 18) ranged from 0.34 to 7.11 mumol retinyl palmitate in d less than or equal to 1.006 g/ml particles with an average molar ratio of 330/1 of retinyl palmitate/apoB-48 (n = 8). The label distributed in the intravascular space and exhibited apparent first order elimination, monoexponential in 6 and biexponential in 12 subjects. The first rapid component k1 (t1/2 18.8 +/- 11.4 min, n = 18) was shown to represent retinyl palmitate in particles of d less than or equal to 1.006 g/ml, i.e., chylomicron remnants, and the second slow component k2 (t1/2 123 +/- 62 min, n = 12) small amounts of retinyl palmitate (11 +/- 7%) injected in d greater than 1.006 g/ml particles (therefore excluded from analysis). Assuming a single-compartment model, initial rates of elimination (= dose x k1) of labeled chylomicron remnants obeyed (P = 0.06) Michaelis-Menten saturation kinetics: Km was 921 +/- 305 nmol retinyl palmitate label and Vmax 124 +/- 14 nmol/min corresponding to 0.88 nM apoB-48 for Km and 0.25 x 10(-3) nmol apoB-48.min-1.g-1 liver for Vmax. Their elimination was limited neither by the injected triglyceride dose nor theoretically by the liver blood flow. After the intake of 70 g of fat (cream) containing retinyl palmitate, the plasma retinyl palmitate concentration exceeded the estimated saturation concentration for 7 h. In conclusion, physiological chylomicron remnant catabolism by the liver appears to be saturable by ordinary lipid intake in healthy humans.     

AMPK activation with AICAR provokes an acute fall in plasma [K+

AMP-activated protein kinase (AMPK), activated by an increase in intracellular AMP-to-ATP ratio, stimulates pathways that can restore ATP levels. We tested the hypothesis that AMPK activation influences extracellular fluid (ECF) K(+) homeostasis. In conscious rats, AMPK was activated with 5-aminoimidazole-4-carboxamide-1-beta-d-ribofuranoside (AICAR) infusion: 38.4 mg x kg bolus then 4 mg x kg(-1) x min(-1) infusion. Plasma [K(+)] and [glucose] both dropped at 1 h of AICAR infusion and [K(+)] dropped to 3.3 +/- 0.04 mM by 3 h, linearly related to the increase in muscle AMPK phosphorylation. AICAR treatment did not increase urinary K(+) excretion. AICAR lowered [K(+)] whether plasma [K(+)] was chronically elevated or lowered. The K(+) infusion rate needed to maintain baseline plasma [K(+)] reached 15.7 +/- 1.3 micromol K(+) x kg(-1) x min(-1) between 120 and 180 min AICAR infusion. In mice expressing a dominant inhibitory form of AMPK in the muscle (Tg-KD1), baseline [K(+)] was not different from controls (4.2 +/- 0.1 mM), but the fall in plasma [K(+)] in response to AICAR (0.25 g/kg) was blunted: [K(+)] fell to 3.6 +/- 0.1 in controls and to 3.9 +/- 0.1 mM in Tg-KD1, suggesting that ECF K(+) redistributes, at least in part, to muscle ICF. In summary, these findings illustrate that activation of AMPK activity with AICAR provokes a significant fall in plasma [K(+)] and suggest a novel mechanism for redistributing K(+) from ECF to ICF.     

Evaluation of 64Cu-labeled acridinium cation: a PET radiotracer targeting tumor mitochondria

This report presents the synthesis and evaluation of (64)Cu(DO3A-xy-ACR) (DO3A-xy-ACR = 2,6-bis(dimethylamino)-10-(4-((4,7,10-tris(carboxymethyl)-1,4,7,10-tetraazacyclododecan-1-yl)methyl)benzyl)acridin-10-ium) as a radiotracer for imaging tumors in athymic nude mice bearing U87MG glioma xenografts by PET (positron emission tomography). The biodistribution data suggested that (64)Cu(DO3A-xy-ACR) was excreted mainly through the renal system with >65% of injected radioactivity being recovered from urine samples at 1 h postinjection (p.i.). The tumor uptake of (64)Cu(DO3A-xy-ACR) was 1.07 ± 0.23, 1.58 ± 0.55, 2.71 ± 0.66, 3.47 ± 1.19, and 3.52 ± 1.72%ID/g at 0.5, 1, 2, 4, and 24 h p.i., respectively. (64)Cu(DO3A-xy-ACR) had very high liver uptake (31.90 ± 3.98, 24.95 ± 5.64, 15.20 ± 4.29, 14.09 ± 6.82, and 8.18 ± 1.27%ID/g at 0.5, 1, 2, 4, and 24 h p.i., respectively) with low tumor/liver ratios. MicroPET studies showed that the tumors were clearly visualized as early as 30 min p.i. in the glioma-bearing mouse administered with (64)Cu(DO3A-xy-ACR). The high liver radioactivity accumulation was also seen. (64)Cu(DO3A-xy-ACR) had a relatively high metabolic stability during excretion via both renal and hepatobiliary routes, but it was completely decomposed in the liver homogenate. We explored the localization mechanism of Cu(DO3A-xy-ACR) using both U87MG human glioma and the cultured primary U87MG glioma cells. The results from the cellular staining assays showed that (64)Cu(DO3A-xy-ACR) is able to localize in the mitochondria of living U87MG glioma cells due to the enhanced negative mitochondrial potential as compared to normal cells. Although (64)Cu(DO3A-xy-ACR) is not an ideal PET radiotracer for tumor imaging due to its high liver uptake, the results from this study strongly suggest that (64)Cu-labeled acridinium cations are indeed able to localize in the energized mitochondria of tumor cells.     

Strain- and sex-dependent differences in response to a single high dose of copper in the rat

Rats of either sex of the strains +/rnu, WAG/Cpb and Fischer-344 were injected i.v. with a single dose of Cu (2.5 mg/kg body weight). Hemolysis was observed in the female +/rnu and Fischer rats. Males accumulated more Cu than females in all strains. WAG/Cpb rats had higher kidney Cu concentrations. The lower hepatic Cu concentration in female Fischer rats was not caused by an increased biliary Cu excretion but by a diminished release of Cu from the blood to the liver. In both sexes the degree of hemolysis did not correlate to the Cu concentration of the erythrocytes. It is concluded that a sex-related difference exists in the metabolism of a large dose of Cu and that the Cu-induced hemolysis in females may be related to a prolonged exposure of erythrocytes to an increased Cu concentration of the plasma.     

Immunological parameters of Javanese carp Puntius gonionotus (Bleeker) exposed to copper and challenged with Aeromonas hydrophila.

This study was to determine the median lethal concentration (LC50) of copper to Javenese carp, Puntius gonionotus (Bleeker), and the immune response after the fish were exposed to sublethal levels of copper and challenged with formalin killed Aeromonas hydrophila. The LC50 of copper on P. gonionotus at 24, 48, 72, 96 and 120 h were estimated as 2.17, 0.91, 0.57, 0.53 and 0.42 mg l(-1), respectively. To determine the effect of copper on the immune system, fish were exposed for 66 days to 0.05, 0.10 and 0.15 mg Cu l(-1). After 56 days of initial exposure to copper, fish were challenged with 0.1 ml of 4.5 x 10(5) cfu ml(-1) formalin killed A. hydrophila and maintained in the same concentration of copper. After the challenge, the immune response was monitored for 2 weeks using haematological and serological assays. During the initial phase of exposure to copper, significant changes were noted in the white blood cell, lysozyme, potential killing activity, total plasma protein, total immunoglobulin and haematocrit levels between the control and treated fish. One week after challenge with A. hydrophila, there was a significant increase in the values of white blood cells, total protein and total immunoglobulin compared to the values before the challenge. However, these values were not significantly different (P>0.05) between the control and the treated fish. In contrast, NBT and lysozyme assays exhibited a significant difference (P<0.05) in fish exposed to 0.10 mg Cu l(-1) (0.525 +/- 0.17; 24.42 +/- 3.35 x 10(2) micromg ml(-1)) and 0.15 mg Cu 1(-1) (0.536 +/- 0.19; 21.78 +/- 1.29 x 10(2) micromg ml(-1)) compared to the control (0.746 +/- 0.31; 30.73 +/- 5.42 x 10(2) micromg ml(-1)) after the bacterial challenge (day 61). There was however no significant difference (P>0.05) in NBT and lysozyme levels in fish exposed to lower level of copper (0.05 mg Cu l(-1)), suggesting the absence of immunosuppressive effects at lower level of exposure.     

Biliary excretion of copper in fischer rats treated with copper salt and in long-evans cinnamon (LEC) rats with an inherently abnormal copper metabolism

Increased biliary Cu excretion was found in Fischer rats injected with Cu. The biliary Cu was located at the void (large-molecule region) and total (small-molecule region) volume of a Sephadex G-75 column. The most Cu was found in the total volume. The two Cu peaks comigrated with absorbance at 280 nm. Although the bile from Cu-untreated Fischer rats did not show Cu absorbance in the total volume, absorbance at 280 nm was also found in this region. Even though Long-Evans Cinnamon (LEC) rats deposited a gross amount of Cu (194.0±27.8 μg/g liver) in the liver, they conversely showed reduced Cu excretion into the bile. LEC bile did not show Cu absorbance but rather absorbance at 280 nm in the total volume. Therefore, it seems unlikely that the small molecules found in the Sephadex G-75 regulate biliary Cu excretion in Cu-loaded rats, although the molecules bind to Cu. When the bile from Cu-untreated fischer and LEC rats was incubated with CuCl₂ solution, the most Cu was recovered in the total volume of this column. Our results suggest that reduced biliary Cu excretion in LEC rats is not related to the small molecules, and that Cu cannot be excreted in the form of macromolecules in rats to decrease Cu from the Cu-loaded liver.     

Uptake of copper from the bloodstream and its relation to induction of metallothionein synthesis in the rat

1. Female rats of the Wistar strain (12 weeks old; body wt, 200 g) were injected intravenously with a single dose of cupric chloride (0.8 mg Cu/kg body wt) and the uptake of copper (Cu) by the liver and kidneys was determined in relation to the disappearance of Cu from the bloodstream and the excretion to bile and urine. 2. Serum Cu level decreased rapidly within 30 min and then returned slowly to the control level by 3 hr post-injection, while the hepatic uptake of Cu continued linearly after the injection up to 4 hr post-injection. 3. The time lag between the disappearance of Cu from the blood serum and the uptake of Cu by the liver was not explained by the temporal distribution to red blood cells or by the enterohepatic circulation. 4. Cu taken up by the liver and distributed to its soluble fraction was bound to metallothionein, suggesting that the uptake of Cu by the liver depends on the induction of metallothionein synthesis. 5. Rapid uptake of Cu by the kidneys was observed at the beginning, which may indicate the role of the existing metallothionein in the control rat.