The mucous coat on gill lamellae of rainbow trout (Oncorhynchus mykiss)

The existence of a layer of mucus covering the gill lamellae of healthy rainbow trout (Oncorhynchus mykiss) was investigated. Using cryo-scanning electron microscopy, a smooth, undulating, thin layer was observed which completely covered gill filaments and lamellae, thereby obscuring epithelial microridges. After processing cryopreserved gill arches in glutaraldehyde for conventional scanning electron microscopy, the layer was no longer present and epithelial microridges were clearly visible. The identity of this layer was investigated using cryopreserved gills which were treated in one of two ways. First, gills were incubated with a rabbit antiserum to gill mucus, with normal rabbit serum, or with phosphate-buffered saline. Following fixation in glutaraldehyde and processing, only the gill tissue incubated with the mucus-specific antiserum was still covered with the smooth layer. The layer was also retained on the gills of fish anesthetized in a solution containing mucusspecific antiserum and then processes in glutaraldehyde for conventional scanning electron microscopy. The tenacious nature of the mucous layer was demonstrated by its stability following exposure to formalin and a cationic detergent. Second, the presence of this layer was confirmed on gill tissue which was cryopreserved, followed by freeze-substitution and vapor fixation, and then examined by transmission electron microscopy.     

The physiological responses of freshwater rainbow trout,Oncorhynchus mykiss,during acutely lethal copper exposure

Acutely lethal (24 h) exposure of adult rainbow trout (Oncorhynchus mykiss) to 4.9 mol copper·l^-1 in fresh water (pH 7.9, [Ca²⁺]0.8 mEq·l^-1) caused a rapid decline of plasma Na⁺ and Cl^- and arterial O₂ tension, and initially a pronounced tachycardia. The internal hypoxia probably resulted from histopathologies observed in the gills of fish exposed to copper, such as cell swelling, thickening and curling of the lamellae, and haematomas. Copper cannot therefore be considered purely as an ionoregulatory toxicant during acutely lethal conditions. Mortality during exposure to copper could not simply be explained by the plasma ionic dilution, nor by the internal hypoxia, since arterial O₂ content remained relatively unchanged. Secondary to the ionoregulatory and respiratory disturbances were a number of deleterious physiological responses which included a massive haemoconcentration (haematocrit values as high as 60%) and a doubling of the mean arterial blood pressure. The time-course of these changes suggest that cardiac failure was the final cause of death. In this respect copper exposure resembles low pH exposure in freshwater trout (Milligan and Wood 1982). Copper and H⁺ appear to be similar in both the primary site of their toxic action (the gills) and the secondary physiological consequences which result from acutely lethal exposures. Furthermore, the acute toxicity syndrome observed may be common to many metals which cause ionoregulatory and/or respiratory problems in freshwater fish.Abbreviations C _aO₂ arterial oxygen content - FR water flow rate - Hb haemoglobin - Hct haematocrit - H _m ⁺ net metabolic acid load - IU international unit - MABP mean arterial blood pressure - MCHC mean corpuscular haemoglobin content - MO₂ rate of oxygen consumption - P _aCO₂ arterial carbon dioxide tension - P _aO₂ arterial oxygen partial pressure - T _amm total ammonia (=NH₃+NH ₄ ⁺ ) - TCO₂ total carbon dioxide - TOC total organic carbon - %Hb–O₂ percentage of haemoglobin saturated with oxygen     

Inhibition of adrenergic proton extrusion in rainbow trout red cells by nitrite-induced methaemoglobinaemia

Summary The effects of nitrite-induced methaemoglobinaemia on adrenergic proton extrusion from rainbow trout red blood cells were studied using the pH-stat method. In control conditions adrenergic proton extrusion was completely inhibited by amiloride and was greater in deoxygenated than in oxygenated erythrocytes. Nitrite-induced methaemoglobinaemia was associated with a pronounced reduction in the catecholamine-stimulated proton efflux from both deoxygenated and oxygenated erythrocytes. In deoxygenated erythrocytes the initial proton efflux upon catecholamine stimulation decreased by 60–70%, while the percentage of methaemoglobin in the red cells increased from the control level of 1–3% to 20%. In oxygenated erythrocytes the decrease was 30% at the same methaemoglobin percentage range. It is suggested that the pronounced influence of nitriteinduced methaemoglobinaemia on adrenergic proton efflux results from an inhibition of the red cell sodium/proton exchanger by the R-like haemoglobin conformations.Abbreviations DIDS 4,4-diisothiocyanostilbene-2,2-disulfonic acid - DMO 5,5-dimethyloxazolidine-2,4-dione - RBC red blood cell     

Differential responses to copper in rainbow trout (Oncorhynchus mykiss) acclimated to sea water and brackish water

Rainbow trout, Oncorhynchus mykiss, acclimated to 33% sea water (12 mg·ml^-1 salinity) experienced significant (10 meq·1^-1) increases in plasma [Na⁺] and [Cl^-] within 5 h of exposure to 6.3 mol copper·1^-1 indicating severe impairment of branchial ionoregulatory capacity. All plasma ion levels subsequently stabilised once the transbranchial [Na⁺] gradient was reduced to zero. The similar ionic strength of the external medium and their body fluids appeared to protect trout maintained in 33% sea water from further ionoregulatory stress and any secondary physiological disturbances during exposure to copper. Despite three- and fourfold greater transbranchial [Na⁺] and [Cl^-] gradients, trout acclimated to full-strength sea water (35 mg·ml^-1 salinity) suffered no major changes in plasma Na⁺, Cl^-, K⁺, or Ca²⁺, blood gases or haematology during 24 h exposure to 6.3 mol copper·1^-1. This reduction in toxicity in full strength sea water cannot be explained by differences in copper speciation. We suggest that during acute exposure to waterborne copper, active NaCl extrusion is unaffected due to the basolateral location of the gill Na⁺/K⁺-ATPase, but that ionoregulatory disturbances can occur due to gill permeability changes secondary to the displacement of surface-bound Ca²⁺. However, in full strength sea water the three-fold higher ambient [Ca²⁺] and [Mg²⁺] appear to be sufficient to prevent any detrimental permeability changes in the presence of 6.3 mol copper·1^-1. Plasma [NH ₊ ⁴ ] and [HCO _- ³ ] were both significantly elevated during exposure to copper, indicating that some aspects of gill ion transport (specifically the apical Na⁺/NH ₊ ⁴ and Cl^-/HCO _- ³ exchanges involved in acid/base regulation and nitrogenous waste excretion) are vulnerable to inhibition in the presence of waterborne copper.Abbreviations C _aO₂ arterial oxygen content - Hb haemoglobin - Hct haematocrit - MABP mean arterial blood pressure - MCHC mean cell haemoglobin content - MO₂ rate of oxygen consumption - P _a CO₂ arterial carbon dioxide tension - P _aO₂ arterial oxygen partial pressure - S salinity - SW sea water - T _Amm total ammonia (=NH₃+NH ₊ ⁴ ) - T _{CO 2} total carbon dioxide - TEP transepithelial potential - TOC total organic carbon - %Hb-O₂ percentage of haemoglobin saturated with oxygen     

The effect of exogenous catecholamines on the ventilatory and cardiac responses of normoxic and hyperoxic rainbow trout,Oncorhynchus mykiss

Ventilation frequency, opercular pressure amplitude, heart rate, dorsal aortic pressure, arterial pH, arterial O₂ tension, and plasma catecholamine levels were recorded in rainbow trout, Oncorhynchus mykiss, during normoxia (19.7 kPa, 148 mmHg) or hyperoxia (51.2 kPa, 384 mmHg) after injection of various concentrations of catecholamines. In normoxic fish, adrenaline injection resulted in a depression of arterial O₂ tension, hypoventilation due to a drop in ventilation frequency, and a drop in heart rate, while dorsal aortic pressure increased. Noradrenaline depressed ventilation frequency, but opercular pressure amplitude increased to a far greater extent, and dorsal aortic pressure increased. During hyperoxia, adrenaline injection lowered ventilation frequency, opercular amplitude and heart rate, but dorsal aortic pressure increased. The stimulatory effects of noradrenaline on ventilation were abolished during hyperoxia, but the cardiac responses were similar to those seen during normoxia. These results indicate that catecholamines can modify the ventilatory output from the respiratory centre, and modification of ventilation frequency can occur independently of opercular pressure amplitude.Abbreviations f _g ventilation frequency - HPLC high performance liquid chromatography - P _op opercular pressure amplitude - f _h heart rate - P _DA dorsal aortic pressure - pH_a arterial pH - P _aO₂ arterial oxygen tension - PO₂ oxygen tension     

Calcium signalling in isolated single chromaffin cells of the rainbow trout (Oncorhynchus mykiss)

Chromaffin cells were isolated from the posterior cardinal vein of rainbow trout (Oncorhynchus mykiss) to assess their suitability as a model system for studying mechanisms of catecholamine secretion in fish and to evaluate intracellular calcium changes associated with cholinoreceptor stimulation. Immunocytochemistry in concert with fluorescence microscopy was employed to identify characteristic chromaffin cell proteins and thus to confirm the presence of these specific cells in suspensions and cultures. Dopamine-β-hydroxylase, an enzyme of the catecholamine-synthesising Blaschko pathway, was identified in cytoplasmic vesicles of the isolated chromaffin cells. The actin filament-severing protein, scinderin, was co-localized with actin in the sub-plasmalemmal membrane of these chromaffin cells. Intracellular calcium [Ca²⁺]_i was measured in single chromaffin cells by microspectrofluorometry using the fluorescent dye Fura-2. Significant increases in [Ca²⁺]_i were observed in chromaffin cells in response to depolarisation of the cell membrane by high concentrations of K⁺ or by the stimulation of the cell by the cholinergic receptor agonists, nicotine, acetylcholine or carbachol. The response to the reversible agonist, nicotine, was attenuated following addition of the nicotinic receptor blocker hexamethonium. Such attenuation, however, did not occur when hexamethonium was added after stimulation with the non-specific irreversible cholinergic agonist, carbachol. These results demonstrate the presence of functional cholinoreceptors, linked to intracellular calcium signalling, on isolated trout chromaffin cells and reveal the potential of these cells as a model system for studying aspects of catecholamine secretion in fish.     

The effects of endogenous or exogenous catecholamines on blood respiratory status during acute hypoxia in rainbow trout (Oncorhynchus mykiss)

Summary An extracorporeal circulation of rainbow trout (Oncorhynchus mykiss) was utilized to continuously monitor the rapid and progressive effects of endogenous or exogenous catecholamines on blood respiratory/acid-base status, and to provide in vivo evidence for adrenergic retention of carbon dioxide (CO₂) in fish blood (cf. Wood and Perry 1985). Exposure of fish to severe aquatic hypoxia (final P _wO₂=40–60 torr; reached within 10–20 min) elicited an initial respiratory alkalosis resulting from hypoxia-induced hyperventilation. However, at a critical arterial oxygen tension (P _aO₂) between 15 and 25 torr, fish became agitated for approximately 5 s and a marked (0.2–0.4 pH unit) but transient arterial blood acidosis ensued. This response is characteristic of abrupt catecholamine mobilization into the circulation and subsequent adrenergic activation of red blood cell (RBC) Na⁺/H⁺ exchange (Fievet et al. 1987). Within approximately 1–2 min after the activation of RBC Na⁺/H⁺ exchange by endogenous catecholamines, there was a significant rise in arterial PCO₂ (P _aCO₂) whereas arterial PO₂ was unaltered; the elevation of P _aCO₂ could not be explained by changes in gill ventilation. Pre-treatment of fish with the -adrenoceptor antagonist phentolamine did not prevent the apparent catecholamine-mediated increase of P _aCO₂. Conversely, pre-treatment with the -adrenoceptor antagonist sotalol abolished both the activation of the RBC Na⁺/H⁺ antiporter and the associated rise in P _aCO₂, suggesting a causal relationship between the stimulation of RBC Na⁺/H⁺ exchange and the elevation of P _aCO₂. To more clearly establish that elevation of plasma catecholamine levels during severe hypoxia was indeed responsible for causing the elevation of P _aCO₂, fish were exposed to moderate hypoxia (final P _wO₂=60–80 torr) and then injected intraarterially with a bolus of adrenaline to elicit an estimated circulating level of 400 nmol·l^-1 immediately after the injection. This protocol activated RBC Na⁺/H⁺ exchange as indicated by abrupt changes in arterial pH (pHa). In all fish examined, P _aCO₂ increased after injection of exogenous adrenaline. The effects on P _aO₂ were inconsistent, although a reduction in this variable was the most frequent response. Gill ventilation frequency and amplitude were unaffected by exogenous adrenaline. Therefore, it is unlikely that ventilatory changes contributed to the consistently observed rise in P _aCO₂. Pretreatment of fish with sotalol did not alter the ventilatory response to adrenaline injection but did prevent the stimulation of RBC Na⁺/H⁺ exchange and the accompanying increases and decreases in P _aCO₂ and P _aO₂, respectively. These results suggest that adrenergic elevation of P _aCO₂, in addition to the frequently observed reduction of P _aO₂ are linked to activation of RBC Na⁺/H⁺ exchange. The physiological significance and the potential mechanisms underlying the changes in blood respiratory status after addition of endogenous or exogenous catecholamines to the circulation of hypoxic rainbow trout are discussed.Abbreviations P _aCO₂ arterial carbon dioxide tension - P _aO₂ arterial oxygen tension - P _da dorsal aortic pressure - pHa arterial pH - P _wO₂ water oxygen tension - RBC red blood cell - V _f breathing frequency     

Distinct Na+/K+/2Cl- cotransporter localization in kidneys and gills of two euryhaline species, rainbow trout and killifish

The kidney is an organ playing an important role in ion regulation in both freshwater (FW) and seawater (SW) fish. The mechanisms of ion regulation in the fish kidney are less well studied than that of their gills, especially at the level of transporter proteins. We have found striking differences in the pattern of Na⁺/K⁺/2Cl^- cotransporter (NKCC) expression between species. In the killifish kidney, NKCC is apically localized in the distal and collecting tubules and basolaterally localized in the proximal tubules. However, in the SW killifish gill, NKCC is basolaterally co-localized with Na⁺/K⁺-ATPase, whereas in FW, NKCC immunoreactivity is primarily apical, although still colocalized within the same mitochondria-rich cell with basolateral Na⁺/K⁺-ATPase. Rainbow trout kidney has NKCC only in the apical membrane of the distal and collecting tubules in both environments, with no signal being detected in the proximal tubule. On the other hand, in the trout gill, NKCC is found basolaterally in both FW and SW environments. An important observation is that, in the gills of rainbow trout, the trailing edge of the filament possesses mostly Na⁺/K⁺-ATPase-positive but NKCC-negative mitochondria-rich cells, whereas in the region between and at the roots of the gill lamellae, most mitochondria-rich cells exhibit both Na⁺/K⁺-ATPase- and NKCC-positive immunoreactivity. These results suggest that the differential localization of transporters between the two species represents differences in function between these two euryhaline fishes with different life histories and strategies. Funding for this research was provided by NSERC Discovery Grants to G.G.G. and W.S.M., an Alberta Ingenuity Fund PDF, and a fellowship from the NSERC Research Capacity Development Grant to F.K.     

Pre-and post-branchial blood respiratory status during acute hypercapnia or hypoxia in rainbow trout,Oncorhynchus mykiss

Simultaneous venous (pre-branchial) and arterial (post-branchial) extracorporeal blood circulations were utilized to monitor continuously the rapid and progressive effects of acute environmental hypercapnia (water partial pressure of CO₂ 4.8±0.2 torr) or hypoxia (water partial pressure of O₂ 25±2 torr) on oxygen and carbon dioxide tensions and pH in the blood of rainbow trout (Oncorhynchus mykiss). During hypercapnia, the CO₂ tension in the arterial blood increased from 1.7±0.1 to 6.2±0.2 torr within 20 min and this was associated with a decrease of arterial extracellular pH from 7.95±0.03 to 7.38±0.03; the acid-base status of the mixed venous blood changed in a similar fashion. The decrease in blood pH in vivo was greater than in blood equilibrated in vitro with a similar CO₂ tension indicating a significant metabolic component to the acidosis in vivo. Under normocapnic conditions, venous blood CO₂ tension was slightly higher than arterial blood CO₂ tension difference was abolished or reversed during the initial 25 min of hypercapnia indicating that CO₂ was absorbed from the water during this period. Arterial O₂ tension remained constant during hypercapnia; however, venous blood O₂ tension decreased significantly (from 22.0±2.6 to 9.0±1.0 torr) during the initial 10 min. Hypercapnia elicited the release of catecholamines (adrenaline and noradrenaline) into the blood. The adrenaline concentration increased from 6±3 to 418±141 nmol · l^-1 within 25 min; noradrenaline concentration increased from 3±0.5 to 50±21 nmol · l^-1 within 15 min. During hypoxia arterial blood O₂ tension declined progressively from 108.4±9.9 to 12.8±1.7 torr within 30 min. Venous blood O₂ tension initially was stable but then decreased abruptly as catecholamines were released into the circulation. The release of catecholamines occurred concomitantly with a sudden metabolic acidosis in both blood compartments and a rise in CO₂ tension in the mixed venous blood only.Abbreviations CCO₂ plasmatotal carbondioxide - CtO₂ blood oxygen content - PO₂ partial pressure of oxygen - PCO₂ partial pressure of carbon dioxide - PaO₂ arterial bloodPO₂ - PaCO₂ arterial bloodPCO₂ - PvCO₂ venous bloodPCO₂ - PwO₂ waterPO₂ - PwCO₂ waterPCO₂ - Hb haemoglobin - SHbO₂ haemoglobin oxygen saturation - HPLC high-performance liquid chromatography - rbc red blood cell(s) - Hct haematocrit     

Effects of cortisol on gill chloride cell morphology and ionic uptake in the freshwater trout,Salmo gairdneri

Summary Daily intramuscular injection of cortisol (4 mg kg^–1 body weight) in rainbow trout,Salmo gairdneri, for 10 days caused significant increases in the number and individual apical surface area of gill chloride cells per mm² of filament epithelium. Concomitantly, whole body influxes of sodium (Na⁺) and chloride (Cl^–) increased. Acute (3 h) intra-arterial infusion of cortisol did not affect whole body Na⁺ or Cl^– influx. A significant correlation was observed between both Na⁺ and Cl^– influxes and the fractional apical surface area of filament chloride cells in control, sham (saline-injected) and experimental (cortisol-injected) fish. The chloride cells displayed similar ultrastructural modifications in trout undergoing cortisol treatment as in trout transferred to ion-deficient water. These findings suggest the existence of structure/function relationships in which branchial chloride cell morphology is an important determinant of Na⁺ and Cl^– transport capacity. We conclude that chronic cortisol treatment enhances whole body Na⁺ and Cl^– influxes by promoting proliferation of branchial chloride cells. The results of correlation analysis indicate that the chloride cell is an important site of NaCl uptake in freshwater rainbow trout.     

The distribution of carbonic anhydrase type I and II isozymes in lamprey and trout: possible co-evolution with erythrocyte chloride/bicarbonate exchange

The subcellular distribution and kinetic properties of carbonic anhydrase were examined in red blood cells and gills of the lamprey, Petromyzon marinus, a primitive agnathan, and rainbow trout, Oncorhynchus mykiss, a modern teleost, in relation to the evolution of rapid Cl^–/HCO ₃ ^– exchange in the membrane of red blood cells. In the lamprey, which either lacks or has minimal red cell Cl^–/HCO ₃ ^– exchange, there has been no compensatory incorporation of carbonic anhydrase into the membrane fraction of either the red cell or the gill. Carbonic anhydrase activity in red cells is exclusively cytoplasmic, and the single isozyme displays kinetic properties typical of the type I, slow turnover, isozyme. In the red blood cells of the trout, however, which possess high amounts of the band-3 Cl^–/HCO ₃ ^– exchange protein, the single carbonic anhydrase isozyme appears to be kinetically similar to the type II, fast turnover, isozyme. It thus appears that the type I isozyme present in the red blood cells of primitive aquatic vertebrates was replaced in modern teleosts by the kinetically more efficient type II isozyme only after the incorporation and expression of a significant amount of the band-3 exchange protein in the membrane of the red cell.Abbreviations BCIP 5-bromo-4-chloro-3-indolyl phosphate - CA carbonic anhydrase - DTT dithiothreitol - EDTA ethylenediaminetetra-acetate - E ₀ total concentration of free enzyme - i fractional inhibition of enzyme activity - IU international units - K ₁ inhibition constant - K _M Michaelis constant - NBT nitro blue tetrazolium - NCP nitrocellulose paper - RBC red blood cell - SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis - V _max maximal velocity of reaction     

The effects of aluminum and acid on the gill morphology in rainbow trout,Salmo gairdneii

Synopsis The objective was to determine the effects of acid and aluminum in acidified hard and soft water on the histology and morphometry of rainbow trout gills, and to determine relevant toxicity indicators within the gill tissue. Acid and aluminum promoted measurable primary epithelial hyperplasia which proved to be a reliable biological indicator of acid and aluminum contamination and possibly of some predictive value. Low levels of aluminum and acid resulted in hypertrophied chloride cells, suggesting a role in adapting to the contaminants. High concentrations of aluminum (>10 molI^-1) caused chloride cell necrosis and consequently a decline in cell numbers over time. Aluminum precipitates accumulating within the chloride cell cytoplasm probably lead to impaired function prior to cell degeneration. The morphological alterations resulted in a decrease in water space between secondary lamellae (up to 40% within 14 d) which may reduce the efficiency of gas exchange. Twice the aluminum was required in hard water to elicit a similar soft water tissue response. Pathological changes were more severe with aluminum at pH 5.2 than at pH 4.7; results of aluminum speciation suggest that both labile and non-labile fractions are responsible for the induction of gill lesions. Low levels of aluminum may protect fish from the effects of high hydrogen ion concentration.     

Modulation of catecholamine storage and release by the pituitary-interrenal axis in the rainbow trout,Oncorhynchus mykiss

This study examined the effects of pituitary-interrenal hormones on catecholamine storage and release in the rainbow trout Oncorhynchus mykiss. An extract of trout pituitary elicited the release of adrenaline, but not noradrenaline, using an in situ perfusion preparation. A variety of doses of adrenocorticotropic hormone (2–2000 mU) caused the release of both catecholamines in situ which was unaffected by pre-treatment with the ganglion blocker, hexamethonium, or the serotonergic receptor antagonist, methysergide, but was abolished in calcium-free media. Intra-arterial injections of adrenocorticotrophic hormone in vivo caused an elevation of plasma adrenaline but not noradrenaline levels. Injections of cortisol in situ did not elicit catecholamine release. Trout given an intraperitoneal implant of cortisol (50 mg·kg^-1 body weight) had significantly higher plasma cortisol concentrations when compared to controls after 7 days of implantation. Increases in the levels of stored catecholamines were observed in various regions of the kidney and posterior cardinal vein following 3 and 7 days of cortisol treatment. The ability of the chromaffin cells to release catecholamines in response to cholinergic stimulation was assessed in situ after 7 days of treatment. Basal (non-stimulated) adrenaline outflowing perfusate levels were greater in the cortisol-treated fish. Cortisol treatment increased the responsiveness of the catecholamine release process to low doses of the cholinoceptor agonist carbachol. Three or 7 days of cortisol treatment did not alter the in vitro activity of the enzyme phenylethanolamine-N-methyl-transferase. The results of this study demonstrate that interactions within the pituitary-adrenal axis can influence both catecholamine storage and release in the rainbow trout.Abbreviations ACTH adrenocorticotropic hormone - AK anterior third of the kidney - APCV anterior third of the PCV - HPLC high performance liquid chromatography - MK middle third of the kidney - M1 maximum value - MPCV middle third of the PCV - MS222 ethyl-aminobenzoate - P1 pre value - PCA perchloric acid - PCV posterior cardinal vein - PK posterior third of the kidney - PNMT phenylethanolamine-N-methyltransferase - PPCV posterior third of the PCV - rbc red blood cells - SEM standard error of the mean - TK total kidney (i.e. the sum of the AK, MK, and PK) - TPCV total PCV (i.e. the sum of the APCV, MPCV and PPCV)     

Restructuring of plasma membrane phospholipids in isolated hepatocytes of rainbow trout during brief in vitro cold exposure

Adaptive changes in membrane physical properties in response to changing environmental temperature (e.g., inereased fluidity at low growth temperatures) are well known in poikilotherms; however, the timecourse of this response has received little attention. In this study the plasma membrane lipids of hepatocytes prepared from 20°C-acclimated trout were analyzed for phospholipid class and molecular species composition and metabolism after the cells were exposed to 5°C for 6 hours. Proportions of phosphatidylethanolamine and phosphatidylcholine were not altered by in vitro incubation at either 5 or 20°C. Molecular species analysis revealed that proportions of 18:1/20:5-phosphatidylcholine were significantly lower in plasma membranes of 5°C incubated cells, while decreases in 16:0/20:4-phosphatidylcholine, an unidentified phosphatidylcholine species, and 16:0/16:0-phosphatidylethanolamine as well as increases in 16:0/16:1-phosphatidylethanolamine as well as increases in 16:0/16:1-phosphatidylcholine bordered on significance. Exogenous radiolabeled molecular species of phosphatidylcholine (16:0/16:0-phosphatidylcholine and 16:0/18:1-phosphatidylcholine) were converted into other species at both temperatures, and the formation of some was influenced by incubation temperature. For example, cells exposed to 5°C convert significantly more 16:0/16:0-phosphatidylcholine into 16:0/20:4-phosphatidylcholine and 18:0/16:1-phosphatidylcholine and less into 18:1/18:1-phosphatidylcholine and 16:0/22:6-phosphatidylcholine than cells incubated at 20°C. In addition, cells at 5°C metabolized 16:0/18:1-phosphatidylcholine to a lesser extent than those at 20°C. The profile of conversion products indicates that deacylation/reacylation, elongation and desaturation reactions all participate in this early membrane restructuring. It is concluded that the plasma membrane of trout hepatocytes is a highly dynamic structure characterized by continuous lipid restructuring/turnover which can be rapidly altered upon acute cold exposure to adjust membrane phospholipid molecular species composition to the prevailing thermal environment.Abbreviations BHT butylated hydroxytoluene - BSA bovine serum albumin - HEPES N-(2-hydroxyethyl)piperazine-N-(2-ethanesnlphonic acid) - HELC high-performance liquid chromatography - HVA homeoviscous adaptation - MS molecular species - MS-222 2-aminobenzoic acid ethyl ester (methanesulphonate salt) - RRT relative reteption time - PC phosphatidylcholine - PE phosphatidylethanolamine - TLC thin-layer chromatography - TRIS tris(hydroxymethyl)aminoethane - T _a ambient temperature     

Role of glucose and insulin in regulating glycogen synthase and phosphorylase activities in rainbow trout hepatocytes

This study, using ¹³C nuclear magnetic resonance spectroscopy showed enrichment of glycogen carbon (C1) from ¹³C-labelled (C1) glucose indicating a direct pathway for glycogen synthesis from glucose in rainbow trout (Oncorhynchus mykiss) hepatocytes. There was a direct relationship between hepatocyte glycogen content and total glycogen synthase, total glycogen phosphorylase and glycogen phosphorylase a activities, whereas the relationship was inverse between glycogen content and % glycogen synthase a and glycogen synthase a/glycogen phosphorylase a ratio. Incubation of hepatocytes with glucose (3 or 10 mmol·1^-1) did not modify either glycogen synthase or glycogen phosphorylase activities. Insulin (porcine, 10^-8 mol·1^-1) in the medium significantly decreased total glycogen phosphorylase and glycogen phosphorylase a activities, but had no significant effect on glycogen synthase activities when compared to the controls (absence of insulin). In the presence of 10 mmol·1^-1 glucose, insulin increased % glycogen synthase a and decreased % glycogen phosphorylase a activities in trout hepatocytes. Also, the effect of insulin on the activities of % glycogen synthase a and glycogen synthase a/glycogen phosphorylase a ratio were more pronounced at low than at high hepatocyte glycogen content. The results indicate that in trout hepatocytes both the glycogen synthetic and breakdown pathways are active concurrently in vitro and any subtle alterations in the phosphorylase to synthase ratio may determine the hepatic glycogen content. Insulin plays an important role in the regulation of glycogen metabolism in rainbow trout hepatocytes. The effect of insulin on hepatocyte glycogen content may be under the control of several factors, including plasma glucose concentration and hepatocyte glycogen content.     

Cardiovascular and renal effects of eel and rat atrial natriuretic peptide in rainbow trout,Salmo gairdneri

Summary The renal and in vitro vascular effects of atrial natriuretic peptides have been examined in seveal species of fish. However, comparatively few investigations have described the effects of these peptides on the cardiovascular system in vivo. In the present experiments the dorsal aorta and urinary bladder were cannulated and the effects of atrial natriuretic peptides from rat and eel were monitored in conscious trout during bolus injection or continuous atrial natriuretic peptide infusion. The results show that the initial pressor effect of atrial natriuretic peptides is independent of environmental salinity adaptation (fresh or seawater) and the chemical form of atrial natriuretic peptide injected, but it is affected by the rate of atrial natriuretic peptide administration. This pressor response, and the accompanying diuresis, are mediated through -adrenergic activation. Continuous infusion of either rat or eel atrial natriuretic peptide produces a steady fall in mean arterial blood pressure, which is temporally preceded by an increase in heart rate and a decrease in pulse pressure. Diuresis induced by atrial natriuretic peptides is only partially sustained during continuous infusion. Propranolol partially blocks the increase induced in heart rate by atrial natriuretic peptides, but does not affect either pulse pressure or mean arterial pressure. Propranolol significantly increases urine flow in saline-infused animals but has no apparent effect on animals subjected to infusions of atrial natriuretic peptides. These results indicate that there are multiple foci for the action of atrial natriuretic peptides in trout and that in many instances the effects of atrial natriuretic peptides are mediated through secondary effector systems.Abbreviations ANP atrial natriuretic peptide - bw body weight - PBS phosphate-buffered saline     

Effect of acute and chronic epinephrine administration on clearance and metabolism of [3H]-epinephrine in trout (Oncorhynchus mykiss)

Several studies have measured the rate of catecholamine clearance, metabolism, and tissue accumulation in fish. However, no information is available on the effect of repeated stress or high circulating catecholamine levels on catecholamine clearance and metabolism. We measured the clearance and metabolism of [³H]-epinephrine (approximately 0.1 g·kg^-1) in SW-acclimated rainbow trout subjected to acute (five injections in 1 day) and chronic (4 days; five injections per day) administration of 4.0 g·kg^-1 epinephrine or saline. In addition, a saturation experiment, where 4.0 g·kg^-1 of unlabelled epinephrine was injected concurrently with [³H]-epinephrine, investigated whether catecholamine clearance and metabolism are affected by high circulatin levels. Neither the rate constants for catecholamine clearance, nor the post-injection proportions of unmetabolised [³H]-epinephrine, deaminated [³H]-epinephrine and O-methylated [³H]-epinephrine were affected by the acute or chronic injection protocols. The concurrent injection of [³H]-epinephrine and 4.0 g·kg^-1 of unlabelled epinephrine resulted in an elevated postinjection ³H:¹⁴C ratio, but increased proportions of O-methylated [³H]-epinephrine and reduced proportions of unmetabolised [³H]-epinephrine. We conclude that in fish (1) catecholamine clearance and metabolism are unlikely to be compromised by repeated exposure to acute stressors; (2) catecholamine extraction and/or metabolism is enhanced when circulating levels are high; and (3) there is a marked capacity to rapidly (minutes) clear and inactivate catecholamines that are released in response to stressful stimuli.Abbreviations CA catecholamines - dpm disintegrations per minute - MAO monoamine oxidase - COMT catecholamine-O-methyltransferase - MOPEG 3-methoxy-4-hydroxyphenylglycol - VMA 3-methoxy-4-hydroxymendelic acid - SW seawater - HPLC high-performance liquid chromatography     

The acid-base transport proteins NHE1 and NBCn1 regulate cell cycle progression in human breast cancer cells

Precise acid-base homeostasis is essential for maintaining normal cell proliferation and growth. Conversely, dysregulated acid-base homeostasis, with increased acid extrusion and marked extracellular acidification, is an enabling feature of solid tumors, yet the mechanisms through which intra- and extracellular pH (pH_i, pH_e) impact proliferation and growth are incompletely understood. The aim of this study was to determine the impact of pH, and specifically of the Na⁺/H⁺ exchanger NHE1 and Na⁺, HCO₃^? transporter NBCn1, on cell cycle progression and its regulators in human breast cancer cells. Reduction of pH_e to 6.5, a common condition in tumors, significantly delayed cell cycle progression in MCF-7 human breast cancer cells. The NHE1 protein level peaked in S phase and that of NBCn1 in G2/M. Steady state pH_i changed through the cell cycle, from 7.1 in early S phase to 6.8 in G2, recovering again in M phase. This pattern, as well as net acid extrusion capacity, was dependent on NHE1 and NBCn1. Accordingly, knockdown of either NHE1 or NBCn1 reduced proliferation, prolonged cell cycle progression in a manner involving S phase prolongation and delayed G2/M transition, and altered the expression pattern and phosphorylation of cell cycle regulatory proteins. Our work demonstrates, for the first time, that both NHE1 and NBCn1 regulate cell cycle progression in breast cancer cells, and we propose that this involves cell cycle phase-specific pH_i regulation by the two transporters.     

pHi regulation in Ehrlich mouse ascites tumor cells: Role of sodium-dependent and sodium-independent chloride-bicarbonate exchange

pH _i recovery in acid-loaded Ehrlich ascites tumor cells and pH _i maintenance at steady-state were studied using the fluorescent probe BCECF.Both in nominally HCO ₃ ^– -free media and at 25 mm HCO ₃ ^– , the measured pH _i (7.26 and 7.82, respectively) was significantly more alkaline than the pH _i . value calculated assuming the transmembrane HCO ₃ ^– gradient to be equal to the Cl^– gradient. Thus, pH _i in these cells is not determined by the Cl^– gradient and by Cl^–/HCO ₃ ^– exchange.pH _i recovery following acid loading by propionate exposure, NH ₄ ⁺ withdrawal, or CO₂ exposure is mediated by amiloride-sensitive Na⁺/H⁺ exchange in HCO₃ ^– free media, and in the presence of HCO ₃ ^– (25 mm) by DIDS-sensitive, Na⁺-dependent Cl^–/HCO ₃ ^– exchange. A significant residual pH _i recovery in the presence of both amiloride and DIDS suggests an additional role for a primary active H⁺ pump in pH _i regulation. pH _i maintenance at steady-state involves both Na⁺/H⁺ exchange and Na⁺-dependent Cl^–/HCO ₃ ^– exchange.Acute removal of external Cl^– induces a DIDS-sensitive, Na⁺-dependent alkalinization, taken to represent HCO ₃ ^– influx in exchange for cellular Cl^–. Measurements of ³⁶Cl^– efflux into Cl^–-free gluconate media with and without Na⁺ and/or HCO ₃ ^– (10 mm) directly demonstrate a DIDS-sensitive, Na⁺ dependent Cl^–/HCO ₃ ^– exchange operating at slightly acidic pH _i (pH_o 6.8), and a DIDS-sensitive, Na⁺-independent Cl^–/HCO ₃ ^– exchange operating at alkaline pH _i (pH _o 8.2).The excellent technical assistance of Marianne Schiødt and Birgit B. Jørgensen is gratefully acknowledged. The work was supported by the Carlsberg Foundation (B.K.) and by a grant from the Danish Natural Science Foundation (E.K.H. and L.O.S.).     

Effect of salmon gonadotropic hormone on sex steroids in male rainbow trout: plasma levels and testicular secretion in vitro

Summary Male rainbow trout were treated with salmon gonadotropic hormone (GTH) at different stages of the circannual reproductive cycle; spawning fish were also treated with an antiserum against salmon GTH. Injection of GTH led to a several-fold increase of plasma sex steroid levels during spermatogenesis and in the spawning season but was without effect at early stages of testicular development. GTH neutralization during the spawning season was followed by a several-fold decrease of plasma sex steroid levels. During spermatogenesis and in the spawning season, both treatment regimes resulted in an increased sensitivity of testicular explants in response to a subsequent stimulation of steroid secretion in vitro. This up-regulatory response may facilitate and maintain the high sex steroid plasma levels observed during the spawning season. It may also be necessary to allow for concomitant peak values of plasma GTH and sex steroids in the spawning season, a situation difficult to understand within the negative feedback concept. The adaptive capacities of the testicular steroidogenic system indicate that it is not only an effector site for GTH but also an active part of the endocrine system controling reproduction.Abbreviations BSA bovine serum albumin - bw body weight - E₂ 17-estradiol - GnRH gonadotropin releasing-hormone - GTH gonadotropic hormone - LH luteinizing hormone - OHT 11-hydroxytestosterone - OT 11-ketotestosterone - 17-20P 17-hydroxy, 20-dihydroprogesterone - PE pituitary extract - raGTH rabbit anti-GTH antiserum - rPS rabbit preimmune serum - T testosterone