Distribution of peptidase activity in teleost and rat tissues

Peptides play important roles in cell regulation and signaling in many tissues. The actions of peptides are regulated by peptidases. Although the activity of these enzymes has been thoroughly characterized in mammals, little is known about their presence or function in fish. In the present study, we compared the activity of several peptidases in selected tissues (pituitary gland, different brain areas, kidney and gills) of the gilthead sea bream and rainbow trout with that found in similar rat tissues (lungs studied in place of gills). Soluble puromycin-sensitive aminopeptidase showed the highest values in the pituitary gland of the sea bream, whereas the membrane-bound form was found to be more active in the trout kidney. Very high levels of activity of aminopeptidase N were detected in trout and sea bream plasma. In contrast, the highest levels of activity of aminopeptidase B were found in rat tissues, with the exception of the gills of the trout. Aminopeptidase N levels tended to be higher in sea bream tissues with respect to those of trout. In contrast, the level of activity of aminopeptidase B was found to be consistently much higher in trout tissues than in those of the sea bream. Prolyl endopeptidase activity was principally detected in the pituitary gland and in the brain areas of teleosts. These differences between species could be related to different mechanisms of osmoregulation in saltwater- and in freshwater-adapted fish.     

不同倍性虹鳟幼鱼对急性温度胁迫的抗氧化响应

虹鳟属于冷水性鱼类,其生存的最适温度为12~18 ℃,温度胁迫是虹鳟在夏秋季养殖过程中经常遇到的问题.枫叶鲑和硬头鳟均为品质优良的虹鳟选育种.为探讨急性温度胁迫对两种倍性虹鳟抗氧化响应的影响,本研究选取二倍体枫叶鲑和三倍体硬头鳟幼鱼,分别在13、17、21和25 ℃下进行热应激试验.在达到目标温度后的0、1、6和12 h取样,之后将受试鱼恢复至13 ℃的适宜温度下培养,并在恢复培养的1、12、24和48 h后取样,测定受试鱼肝脏中超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷胱甘肽过氧化物酶(GPx)的活性,以及脂质过氧化物(LPO)、丙二醛(MDA)和热激蛋白70(HSP70)含量.结果表明: 枫叶鲑和硬头鳟的3种抗氧化酶活性在17 ℃组没有出现显著升高;21 ℃组枫叶鲑和硬头鳟的SOD活性在热应激期间出现显著升高,但枫叶鲑的SOD活性在恢复过程中恢复到正常水平;25 ℃组枫叶鲑和硬头鳟的SOD、CAT和GPx的活性均显著提高;但在恢复试验进行24 h后,CAT和GPx的活性恢复到正常水平.枫叶鲑在17、21和25 ℃组HSP70的产生量显著高于13 ℃组,而硬头鳟仅在21和25 ℃组HSP70的产生量显著高于13 ℃组.通过整合生物标志物响应指标值对多种抗氧化参数进行分析,发现枫叶鲑在17和21 ℃组急性温度胁迫下的抗氧化响应显著高于硬头鳟,但在25 ℃组硬头鳟的抗氧化响应高于枫叶鲑.这表明不同倍性虹鳟幼鱼在不同温度急性胁迫下的抗氧化响应有所差异.     

Activation of dolichol-phosphate mannosyltransferase by dibutryl cyclic AMP in rat liver

Radiolabeled mannose incorporation into secretory glycoproteins and immunoprecipitable fibronectin in the incubation media significantly increased (105 and 32 percent respectively) with a corresponding increase in the levels of dolichol-phosphate mannose, dolichol-diphosphate oligosaccharides and dolichol-phosphate mannosyltransferase activity in the rat liver slices when incubated with dibutryl cAMP and ATP. Dibutryl cAMP activated maximally this enzyme in the presence of ATP in the incubation medium. The activation of the enzyme resulted in a two fold increase in Vmax with no apparent change in the Km for GDP mannose. Phosphorylation the rat liver microsomes with catalytic subunit of cAMP dependent protein kinase, resulted in the activation of dolichol-phosphate mannosyltransferase. These results suggest that cAMP modulates protein glycosylation by activating dolicholphosphate mannosyltransferase activity. The activation of this enzyme could be through phosphorylation/dephosphorylation mechanism involving a cAMP dependent protein kinase.     

Purification and comparative properties of NADPH-cytochrome P-450 reductase from rat and rainbow trout: Differences in temperature optima between reconstituted and microsomal trout enzymes

NADPH-cytochrome P-450 reductase has been purified to apparent homogeneity from liver microsomes of β-naphthoflavone-treated rats and rainbow trout. The apparent monomeric molecular weights were 75,000 and 77,000 for the rat and trout, respectively. Differences in amino acid composition were observed, particularly for lysine, glycine, threonine, and tyrosine. Analysis of the flavin composition showed that there were 0.97 mol of FAD and 0.92 mol of FMN per mol of rat reductase, whereas the values for the trout enzyme were 1.06 and 0.76 for FAD and FMN, respectively. Trout NADPH-cytochrome c reductase was inhibited by anti-rat antibody, but not to the same extent as was the rat enzyme. No precipitin lines between the trout reductase and rat antibody were observed on Ouchterlony plates. Peptide patterns, on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, following limited proteolysis were also markedly different. The trout enzyme was as effective, catalytically, as the rat enzyme in a reconstituted system that contained purified rat cytochrome P-448 and lipid. Comparison of ethoxyresorufin-O-deethylase temperature profiles with various combinations of purified trout and rat P-448, reductase, and lipid, in membranous and nonmembranous reconstitution systems, demonstrated that the lower temperature optimum in trout microsomes could only be reproduced when all three trout components were incorporated into liposomes. These results suggest that it is the structural organization of the mixed-function oxidase enzymes and lipid within trout microsomes which were responsible for the lower temperature optimum compared to rat.     

Red muscle recruitment during steady swimming correlates with rostral-caudal patterns of power production in trout

Rainbow trout (Oncorhynchus mykiss) and brook trout (or charr, Salvelinus fontinalis) display different rostral-caudal patterns of power production by the red or aerobic muscle during steady swimming. The anterior muscle of rainbow trout produces much less power for swimming than the posterior, while in brook trout there is no variation in power output. To determine if red muscle recruitment is associated with anterior-posterior patterns of power production, electromyography (EMG) was used to record red muscle activity at three body positions across a range of swimming speeds in fish of each species. The initial recruitment of the anterior red muscle in swimming rainbow trout was predicted to lag behind, i.e. occur at higher speeds, that of the posterior due to the variation in power production, but no variation in recruitment was expected for brook trout. Burst of red muscle EMG activity occurring with each tailbeat was analyzed for frequency (tailbeat frequency), duty cycle (DC) (duration of burst relative to the period of the tailbeat) and burst intensity (BI) (magnitude of the measured EMG activity). Brook trout swam with higher tailbeat frequencies and longer values of DC than rainbow trout. Both species showed a pattern of longitudinal variation in DC, with longer DC values in the anterior red muscle. BI also differed significantly along the length of rainbow trout but not brook trout. In the former, BI of anterior muscle was significantly less than the posterior at lower steady swimming speeds. The EMG data suggest that power production and muscle recruitment are related. In rainbow trout, where there is longitudinal variation in muscle power output, there are also significant rostral-caudal differences in red muscle recruitment.     

The temperature dependence of State IV respiration, the calcium uptake system, and the activity of the calcium ionophore A23187 in mitochondria from endo- and ectothermic animals.

1. Arrhenius plots of State IV respiratory activity of liver mitochondria from both rainbow trout and rat were linear over the temperature range 5-35 degrees C. 2. Calcium uptake was monitored by stimulation of oxygen consumption and by calcium electrode recording, with quite comparable results. Rainbow trout gave the usual linear Arrhenius plot but this plot for rat mitochondria exhibited two well-defined inflections or discontinuities. 3. The temperature dependence of the activity of the ionophore A23187 was investigated by measuring the increase in oxygen uptake following a sub-maximal dose of this drug. Again a linear relation was found for rainbow trout, but in this case the rat curves showed only a single inflection point. 4. These results are discussed in relation to other work on the effects of lipid phase transitions on mitochondrial membrane-associated systems.     

Effects of temperature, salinity, and feeding on aminotransferase activity in the liver and white muscle of rainbow trout (Salmo gairdneri Richardson).

1. The liver-somatic index of rainbow trout is governed by temperature and salinity, and by the interaction of these two factors. 2. The overall liver-alanine aminotransferase activity (in units/100 g body weight) increases slightly with increasing salinity of the surroundings in the case of rainbow trout. 3. The overall liver-aspartate aminotransferase activity (in units/100 g body weight) in rainbow trout depends on their food and the temperature at which they are kept. 4. Salinity adaptation leads to reductions in the specific alanine and aspartate aminotransferase activity in the liver of rainbow trout. 5. The specific alanine aminotransferase activity in the muscle of starving rainbow trout kept in diluted seawater (580 mOsm/l, 18 degrees C) is clearly higher than in control animals kept in tapwater.     

Branched-chain amino acid aminotransferase activity in the tissues of lake trout

The enzyme branched-chain amino acid aminotransferase (BCAT) was found in five tissues of fingerling lake trout, Salvelinus namaycush, (listed in order of decreasing tissue specific activity): posterior kidney, skeletal muscle, gill, liver, and anterior kidney. This pattern is consistent with that found in other animals. The results of this study seem to indicate that BCAT in the liver of lake trout has a higher specific activity than that of the rat and that the specific activity is higher in both the liver and skeletal muscle than it is in these organs of the chick.     

Hepatic cytochrome P-450-dependent monooxygenase systems of the trout, frog and snake--I. Components

1. Components of the hepatic monooxygenase systems (cytochrome P-450, cytochrome b5, NADPH cytochrome P-450- or c-reductase) of the brown trout (Salmo trutta), leopard frog (Rana pipiens) and garter snake (Thamnophis) were considerably lower than those found in the rat. 2. Reactivity of snake NADPH-cytochrome P-450-reductase with cytochrome P-450 was about twice that of the rat reductase; reactivities of trout and frog reductases were similar, but lower than that of the rat. The optimal temperature for the rat, frog and snake reductase activity was 37 degrees C, but 26 C for the trout reductase, regardless of whether cytochrome P-450 or cytochrome c was the electron acceptor for the reaction. 3. A type I substrate (benzphetamine) and a type II substrate (aniline) were less reactive with P-450 cytochrome from the trout, frog and snake than with P-450 cytochrome from the rat. 4. Qualitative differences were seen in the ethylisocyanide spectrum of microsomes from the rat, trout, frog and snake; these differences reflect qualitative differences in the populations of P-450 cytochromes among each of the four species.     

The role of elongation factors in protein synthesis rate variation in white teleost muscle

Summary Protein synthesis-stimulating activity was assayed in the cytosolic fraction of white muscle from teleost fish (rainbow trout, carp) and of rat liver. In vitro protein synthesis-stimulating activity in the cytosolic fraction is reduced by food deprivation. The addition of elongation factors EF1, EF2, or EF1+EF2 compensates for the starvation-induced loss of protein synthesis-stimulating activity in trout muscle cytosol. The action of EF2 is stronger than that of EF1 in this respect. However, EF1 enhances in vitro protein synthesis-stimulating activity in rat liver cytosol more than EF2. The EF2 concentration in the cytosolic fraction of white muscle from starved trout is significantly lower than in fed specimens.Abbreviations EF elongation factor(s) - SGR specific growth rate - TCA trichloroacetic acid     

Differences in some properties of lactate dehydrogenase from muscles of the carp Cyprinus carpio and trout Salmo gairdneri

Some catalytic and kinetic properties of lactate dehydrogenase (LDH) isolated from trout and carp skeletal muscles were compared. The specific activity of LDH in the carp muscle was lower by about one third than the activity in the trout muscle. Temperature and pH optima for LDH isolated from the carp muscle were higher than those for the trout muscle LDH. Moreover, in direct reaction, the carp muscle LDH had a higher affinity both for pyruvate and for NADH, i.e., it had lower K _M values. Instead, the trout muscle LDH showed the positive kinetic cooperativity (the Hill coefficient > 1) of the substrate and coenzyme binding sites. Thus, the carp LDH seems to function more effectively under anaerobic conditions and at higher temperatures.     

Serine dehydratase and tyrosine aminotransferase activities increased by long-term starvation and recovery by refeeding in rainbow trout (Oncorhynchus mykiss)

Here, we study a cycle of long-term starvation followed by refeeding in relation to the kinetics of serine dehydratase (SerDH) and tyrosine aminotransferase (TyrAT) in rainbow trout (Oncorhynchus mykiss). We determine SerDH- and TyrAT- specific activity at different substrate concentrations in liver and white muscle of juvenile trout starved for 70 days and then refed for 6 hr, 32 hr, 4 days, and 9 days. SerDH showed a hyperbolic kinetic with a K(m) for L-serine of 77.07+/-8.78 mM in the liver of control trout. After 70 days of starvation, the SerDH activity at saturate substrate concentration rose 100% over control. No significant changes were found in the K(m) values of the enzyme. After refeeding, the SerDH activity declined to control values. TyrAT also showed a hyperbolic kinetic with a K(m) for L-tyrosine of 1.86+/-0.12 and 2.55+/-0.57 mM in liver and white muscle, respectively. In starved trout, TyrAT activity in liver and white muscle was about 64 and 267%, respectively, higher than control. After 9 days of refeeding, the control values recovered, although, at 6 hr of refeeding, hepatic TyrAT activity was higher than that for starvation. This work shows that SerDH and TyrAT are present in rainbow trout and that the two enzymes have regulatory functions in the catabolism of their respective amino acids in this species.     

Tissue metabolism and enzyme activities in the rodent Heterocephalus glaber, a poor temperature regulator.

1. Tissue oxygen uptake and enzyme activities were investigated in the naked mole rat, Heterocephalus glaber, a mammal notable for its low body temperature and metabolism and poor temperature regulating ability. 2. Q10 for O2 uptake of Heterocephalus crude liver homogenates ranged from 1.91 for the temperature interval 25-30 degrees C to 1.76 within the range 30-38 degrees C, values similar to those reported for typical homoiotherms. 3. Km pyruvate of lactate dehydrogenase in heart muscle had the same temperature dependence in the mole rat and mouse. 4. O2 uptake and cytochrome oxidase activity of skeletal muscle were higher for mole rat than mouse. The reverse was true for heart muscle. Brain and liver O2 uptake showed similar values for both species, while kidney O2 uptake was highest in the mouse. 5. Pyruvate kinase activity in heart and skeletal muscle was higher in mouse than mole rat, suggesting a greater reliance on glycolysis in the former. 6. Na+, K+ -ATPase activity of liver and kidney was 60% higher in mouse than mole rat, while brain was 30% higher in mouse. 7. The results indicate that the effects of temperature on tissue metabolism in the mole rat conform to those in typical homoiotherms. The low body temperature and O2 uptake in the mole rat find no expression in the tissue respiratory capacity.     

The influence of sex and spawning on levels of tryptophan, serotonin and 5-hydroxyindoleacetic acid in the brains of wild brook trout, Salvelinus fontinalis

Levels of tryptophan (TP), serotonin (5-hydroxytryptamine, 5HT) and 5-hydroxyindoleacetic acid (5HIAA) have been determined in the brains of wild brook trout, Salvelinus fontinalis (Mitchill), and brown trout, Salmo trutta L., using high performance liquid chromatography with electrochemical detection. Immediately prior to spawning, adult female brook trout exhibit higher levels of 5HT in the brain than adult males, immature brook trout and immature brown trout. After spawning, the highest levels of TP are found in spent males, which also have higher levels of 5HT in the brain than spent females and immature brook trout. Immature brook trout exhibit higher levels of 5HIAA than prespawning adults. This difference disappears after the spawning season. Serum protein levels and condition factors are lower in spent female brook trout; however, haematocrit values for both sexes remain unchanged after spawning.     

Temperature dependence of lipogenesis in isolated hepatocytes from rainbow trout (Salmo gairdneri)

Temperature dependence of lipogenesis in trout liver cells was investigated in the presence of 5 mM lactate using either [14C]lactate or [3H]water. A ratio of 3H/14C-incorporation greater than one is found, irrespective of temperature. Acclimation of fish to 4, 10 or 16 degrees C affects neither the height of lipid synthesis nor its temperature sensitivity. The distribution of [14C]lactate between the main lipid classes and the capacities for cholesterol- and triacylglycerol-synthesis are correlated to the glycogen stores of the hepatocytes. A comparison of fatty acid synthesis and cholesterogenesis in livers of normal fed rat and of trout suggests a capability for lipogenesis in trout somewhat similar to that in mammals.     

GDPmannose dolicholphosphate mannosyltransferase of chicken liver mitochondria

Chicken liver mitochondria contain enzymes for the dolichol cycle. GDPmannose dolicholphosphate mannosyltransferase has been solubilized with Emulgen 909 and purified. The purified enzyme was not homogeneous, but highly specific for GDPmannose and dolichyl phosphate. The enzyme activity was stimulated by MgCl2 (3 mM optimum) and exhibited a pH optimum at around 7.2. Bisubstrate kinetic analysis indicated that the enzyme follows a sequential mechanism. The Km values for GDPmannose and dolichyl phosphate were 0.43 and 14.3 microM, respectively. The purified enzyme was labile and lost its activity on storage at 0 degree C overnight or incubation at 30 degrees C or higher temperature. Inactivation could be prevented by the addition of heat-denatured mitochondrial extract. Further investigation revealed that phospholipids and dolichyl phosphate are responsible for the stabilization. Single addition of either phospholipid or dolichyl phosphate showed little activity, but the combination of these lipids enhanced the stabilizing activity greatly. Eight naturally occurring phospholipids were tested and found to be effective in combination with dolichyl phosphate. Among these, sphingomyelin was the most effective. Dolichol could partially substitute dolichyl phosphate but worked at higher concentrations.     

Characterization of target organs for calcitonin in lower and higher vertebrates

The bindings of calcitonin was investigated in trout bone, kidney and gill and rat bone and kidney. Specific binding of calcitonin was observed in all tissues tested except fish kidney membranes. The affinity constants for the sites of high affinity-low capacity (in trout bone and rat kidney) or for the unique site (in trout gill and rat bone) were of the same order of magnitude (2.0-9.0 x 10(9) M-1), the number of binding sites per mg of protein being higher in rat bone homogenates than in other tissues. These studies strongly support the theory that the gill in fishes is likely to perform some of the functions of the kidney in mammals.     

Metabolism,swimming performance,and tissue biochemistry of high desert redband trout (Oncorhynchus mykiss ssp.): evidence for phenotypic differences in physiological function

Redband trout (Oncorhynchus mykiss ssp.) in southeastern Oregon inhabit high-elevation streams that exhibit extreme variability in seasonal flow and diel water temperature. Given the strong influence and potential limitations exerted by temperature on fish physiology, we were interested in how acute temperature change and thermal history influenced the physiological capabilities and biochemical characteristics of these trout. To this end, we studied wild redband trout inhabiting two streams with different thermal profiles by measuring (1) critical swimming speed (U(crit)) and oxygen consumption in the field at 12 degrees and 24 degrees C; (2) biochemical indices of energy metabolism in the heart, axial white skeletal muscle, and blood; and (3) temperature preference in a laboratory thermal gradient. Further, we also examined genetic and morphological characteristics of fish from these two streams. At 12 degrees C, maximum metabolic rate (Mo2max) and metabolic power were greater in Little Blitzen redband trout as compared with those from Bridge Creek (by 37% and 32%, respectively). Conversely, Bridge Creek and Little Blitzen trout had similar values for Mo2max and metabolic power at 24 degrees C. The U(crit) of Little Blitzen trout was similar at the two temperatures (61+/-3 vs. 57+/-4 cm s(-1)). However, the U(crit) for Bridge Creek trout increased from 62+/-3 cm s(-1) to 75+/-3 cm s(-1) when water temperature was raised from 12 degrees to 24 degrees C, and the U(crit) value at 24 degrees C was significantly greater than for Little Blitzen fish. Cost of transport was lower for Bridge Creek trout at both 12 degrees and 24 degrees C, indicating that these trout swim more efficiently than those from the Little Blitzen. Possible explanations for the greater metabolic power of Little Blitzen redband trout at 12 degrees C include increased relative ventricular mass (27%) and an elevation in epaxial white muscle citrate synthase activity (by 72%). Bridge Creek trout had 50% higher lactate dehydrogenase activity in white muscle and presumably a greater potential for anaerobic metabolism. Both populations exhibited a preferred temperature of approximately 13 degrees C and identical mitochondrial haplotypes and p53 gene allele frequencies. However, Bridge Creek trout had a more robust body form, with a relatively larger head and a deeper body and caudal peduncle. In summary, despite the short distance ( approximately 10 km) and genotypic similarity between study streams, our results indicate that phenotypic reorganization of anatomical characteristics, swimming ability at environmentally pertinent temperatures and white axial muscle ATP-producing pathways occurs in redband trout.     

ACETYL-COENZYME A: 1,4-DIAMINOBUTANE N-ACETYLTRANSFERASE: ACTIVITY IN RAT BRAIN DURING DEVELOPMENT, IN EXPERIMENTAL BRAIN TUMOURS AND IN BRAINS OF FISH OF DIFFERENT METABOLIC ACTIVITY

—Acetyl-CoA: 1,4-diaminobutane N-acetyltransferase catalyses the first step of putrescine catabolism in mammalian brain. It may be important in putrescine degradation of other tissues as well. Its specific activity is higher in homogenates of immature than of mature rat brains. A steady decline of putrescine acetylase activity is observed from birth until approx adult levels are reached at day 30. Microsomes and purified nuclei from brains of 2-day-old rats show considerably higher putrescine acetylase activities than the corresponding subcellular organelles from adult brains. Increased putrescine acetylase activities were found in nitroso-ethylurea-induced gliomas, together with a dramatic increase of putrescine concentration. High tissue concentrations of putrescine are, however, not necessarily correlated with enhanced putrescine acetylase activities. In trout brains a linear increase of acetyl-CoA: 1,4-diaminobutane N-acetyltransferase activity was observed together with a decrease of putrescine concentration after adaptation of the animals to increased water temperature.