Tissue glutamine synthetase associated with ammonia detoxication and nitrogen metabolism in Clarias batrachus

The composition of reaction mixture of glutamine synthetase (GS) assay system was perfected and utilized to determine the activity of this enzyme spectrophotometrically in selected tissues of the freshwater teleostean fish, Clarias batrachus. Of these tissues, brain was found to contain comparatively a very high activity representing a rapid role of GS in ammonia detoxication and synthesis of essential neurotransmitter substance in this tissue. Of other tissues, liver, kidney and gill were found to contain significant activities in the order representing their relative metabolic activities. The study was extended by examining the brain (neural) and liver (non-neural) GS system in more detail with a view to see the alterations (if any). GS activity of both, neural and non-neural tissues was found to be the same and also in the range reported for other Vertebrates. Observations regarding kinetic, physical and chemical properties of the enzyme are reported. Maximum enzyme activity was observed at pH 7.2 to 7.4 and temperature 35 degrees C. The enzyme was found to be more stable at 25 degrees C while activity decreased at higher temperatures (above 40 degrees C) and showed no activity at 60 degrees C (liver) and 70 degrees C (brain). A comparison and possible physiological roles of the enzyme for the concept of ammonia excretion, protein synthesis and nitrogen metabolism in teleostean fish tissues are discussed.     

Intra- and extra-cellular sources of T3 binding to putative thyroid hormone receptors in liver, kidney, and gill nuclei of immature rainbow trout, Oncorhynchus mykiss.

The sources of extracellular and intracellular 3,5,3'-triiodo-L-thyronine (T3) binding to putative thyroid hormone receptors in liver, kidney, and gill nuclei were determined in vivo for immature rainbow trout at 12 degrees C. Both [131I]T3 and [125I]T4 were injected intraperitoneally, the plasma and tissues were examined at isotopic equilibrium at 20 h, and the proportions of intracellular [125I]T3 and extracellular [131I]T3 saturably bound in the nucleus were determined. Comparable total amounts of T3 were saturably bound in the nuclei of liver (7.2), kidney (8.0), and gill (9.7 moles x 10(-13) .mg DNA-1), but the percentage of nuclear T3 generated within the target cell was greater for gill (76%) than for liver (50%) and kidney (28%). Both gill and liver possess a low Km T4 5'monodeiodinase which could be responsible for the high proportion of the nuclear T3 generated within those tissues.     

Characterization of intracytoplasmic prokaryote infections in Dreissena sp. (Bivalvia: Dreissenidae)

This study characterizes intracytoplasmic infections with prokaryote microorganisms in Dreissena sp. (near Dreissena polymorpha) from northeastern Greece and represents the first report of such infections in freshwater bivalves. Light microscope observations of stained tissues revealed basophilic, cytoplasmic inclusion bodies in 87.5% (28/32) of the mussels sectioned. Inclusions in epithelial cells and connective tissues were noted, respectively, in 34.4 and 71.9% of the sample, with 5 mussels (15.6%) having both tissue types infected. Epithelial cell infections were observed in histological sections only in digestive gland tubules and ducts; within tubules, inclusions were present more often in secretory than digestive cells. Connective tissue infections, however, were systemic; among the 32 mussels sectioned, inclusions were found in the gills (65.6%), foot (12.5%), mantle (9.4%), labial palps (6.3%), digestive gland (6.3%), stomach (6.3%), and gonads (3.1%). Cytoplasmic inclusions (maximum dimension, 138 microm) were prominent enough in the gills to be visible in 17.0% of the 247 mussels dissected. Ultrastructurally, prokaryote cells in gill connective tissues were clearly characteristic of Chlamydiales-like organisms, with each intracytoplasmic inclusion containing a loosely packed mixture of elementary, reticulate, intermediate bodies, and blebs. Prokaryote colonies in digestive gland epithelial cells exclusively contained 1 of 4 morphological cell types and were considered Rickettsiales-like. Hexagonal, virus-like particles were present in the cytoplasm of the largest of these Rickettsiales-like prokaryotes. Although host stress was evident from localized cell necrosis and dense hemocyte infiltration, overall infection was fairly benign, with no major, adverse impact on body condition evident among sectioned or dissected mussels. A possible negative effect was partial constriction of gill water tubes, but at the infection intensity observed (typical range 1 to 7 inclusion bodies per section), significant interference with respiration and other metabolic functions of the gills was highly unlikely.     

Sublethal effects of textile dye stuff effluent on selected oxidative enzymes and tissue respiration of Cyprinus carpio (Linn.).

Toxic effects of sublethal concentration of dye stuff effluent on succinic dehydrogenase (SDH) and lactic dehydrogenase (LDH) activities and tissue respiration were studied in C. carpio. While the sublethal exposure significantly reduced SDH activity and tissue respiration, LDH activity increased in gill, brain, liver, muscle and kidney. The maximum inhibition of SDH activity (74%) was recorded in gill and the minimum (38%) in liver. The percentage reduction of oxygen consumption in the tested tissues was in the order of gill greater than brain greater than liver greater than muscle greater than kidney. The muscle showed the highest level (96%) of increase in LDH activity whereas the kidney cells showed the minimum increase. Exposure to sublethal concentration suppressed the aerobic respiration and triggered the anaerobic respiration.     

Effect of temperature on protein synthesis in fish of the Galapagos and Perlas Islands.

1. The temperature dependency of protein synthesis was studied in vivo in five species of Pacific fish collected in the Galapagos and Perlas Islands: batfish (Ogcocephalus darwini), groupers (Epinephelus labriformis), catfish (Netuma platypogan), puffers (Arothron hispidus) and triggerfish (Sufflamen verres). 2. Liver protein synthesis, assayed by a rapid pulse injection technique, showed a moderate temperature dependency (Q10 = 2-3) in the 15-30 degree C range for all species except puffers (Q10 = 10-20). Synthesis was inhibited above 32 degrees C. 3. Protein synthesis in triggerfish was measured by the constant-infusion technique. Synthetic rates (% of tissue protein synthesized per day) at 25 degrees C were 20% for liver, 10% for gill, 1.8% for red muscle and 0.6% for white muscle. Q10 in the 20 degrees-30 degrees C range was 3.0 +/- 0.5 degrees C for all tissues.     

Multiple thermal discontinuities in glucose-6-phosphatase activity.

The temperature dependence of glucose-6-phosphatase (D-glucose-6-phosphate phosphohydrolase EC 3.1.3.9) was studied in rat liver and kidney microsomal fractions. Arrhenius plots were non-linear and showed four distinct discontinuities in enzyme activity over the temperature range 2-41 degrees C. The discontinuities occurred at approx. 39, 30, 20 and 12 degrees C in the liver and were similar to this in the kidney. Changes in the energy of activation for the enzyme were noted at approx. 20 degrees C in both tissues. The multiple discontinuities in glucose-6-phosphatase activity are viewed as a reflection of complex reorganization and/or change in physical state of the membrane components, primarily lipid.     

Influence of temperature and membrane lipid composition on the osmotic water permeability of teleost gills.

Osmotic water uptake was measured gravimetrically in isolated, ligated gill arches from trout (acclimated to and incubated at 5 degrees and 20 degrees C) and tilapia (21.5 degrees and 33 degrees C). For both species, incubation of arches at the higher temperature led to 1.5- to 3-fold greater measures of water weight gain. However, gills from warmer-acclimated trout and tilapia had 1- to >3-fold lower the initial rate and 1.5- to >2.5-fold lower the extent of water uptake seen in colder-acclimated conspecifics. Both the incubation temperature sensitivity and the acclimation effects are consistent with transmembrane water permeation. Calcium-free incubations (permitting paracellular water movement) also indicated that interfacial cell membranes contribute to gill permeability characteristics; without calcium, trout gill osmotic water uptake values increased 1.5- to 2-fold, and the temperature dependence of water uptake decreased (initial rate) or was eliminated (extent). The specific contribution of cholesterol to restricting barrier membrane water permeability was indicated by concentration-dependent increases in water uptake in the presence of either nystatin (a cholesterol-complexing, pore-forming agent) or methyl-beta-cyclodextrin (which selectively depletes membrane cholesterol). In addition, a cholesterol-specific cytochemical probe (filipin) intensely labeled the apical surface membranes of trout and tilapia gill epithelium. In summary, these studies implicate membrane cholesterol in determining water permeability in fish gills.     

Epithelial remodeling and claudin mRNA abundance in the gill and kidney of puffer fish (<Emphasis Type="Italic">Tetraodon biocellatus</Emphasis>) acclimated to altered environmental ion levels

In water of varying ion content, the gills and kidney of fishes contribute significantly to the maintenance of salt and water balance. However, little is known about the molecular architecture of the tight junction (TJ) complex and the regulation of paracellular permeability characteristics in these tissues. In the current studies, puffer fish (Tetraodon biocellatus) were acclimated to freshwater (FW), seawater (SW) or ion-poor freshwater (IPW) conditions. Following acclimation, alterations in systemic endpoints of hydromineral status were examined in conjunction with changes in gill and kidney epithelia morphology/morphometrics, as well as claudin TJ protein mRNA abundance. T. biocellatus were able to maintain endpoints of hydromineral status within relatively tight limits across the broad range of water ion content examined. Both gill and kidney tissue exhibited substantial alterations in morphology as well as claudin TJ protein mRNA abundance. These responses were particularly pronounced when comparing fish acclimated to SW versus those acclimated to IPW. TEM observations of IPW-acclimated fish gills revealed the presence of cells that exhibited the typical characteristics of gill mitochondria-rich cells (e.g. voluminous, Na⁺-K⁺-ATPase-immunoreactive, exposed to the external environment at the apical surface), but were not mitochondria-rich. To our knowledge, this type of cell has not previously been described in hyperosmoregulating fish gills. Furthermore, modifications in the morphometrics and claudin mRNA abundance of kidney tissue support the notion that spatial alterations in claudin TJ proteins along the nephron of fishes will likely play an important role in the regulation of salt and water balance in these organisms.     

Histomorphological changes in some organs of the brown bullhead, Ictalurus nebulosus LeSueur, following short- and long-term exposure to copper

The effects of copper in solution on Icfalurus nebulosus was studied by means of acute short-term bioassay and long-term bioassay. Histomorphological and histochemical tests were performed on skin. liver, gills, gut and kidney; enzymatic tests were also performed on the liver.
Morphological changes of skin. liver and gills are described. The results of the histoenzymatic tests on the liver agree with the histological findings and confirm a mild onset and slow evolution of liver distress.     

Effect of salinity on flavin-containing monooxygenase expression and activity in rainbow trout (Oncorhynchus mykiss)

In order to obtain more information about the physiological role(s) of flavin-containing monooxygenases (FMOs) in euryhaline teleost fishes, two experimental series were performed using adult and juvenile rainbow trout (Oncorhynchus mykiss). Cannulated adult trout were exposed to freshwater or 21% seawater for 48 h, whereas juvenile trout were acclimated to one of four different salinities: freshwater, 7%, 14%, or 21% during a 2-week period. FMO expression and activity were determined in red blood cells (RBC), liver, gill, kidney, gut, heart and brain. Furthermore, the content of trimethylamine oxide (TMAO; an FMO metabolite and an osmolyte) as well as urea were determined in various tissues. FMO expression and activity increased significantly and in a salinity dependent manner in osmoregulatory organs (gills, kidney and gut) in both juveniles and adult trout and, furthermore, in RBC in adults. No significant changes were observed in liver or heart. Urea content increased significantly and in a salinity dependent manner in all tissues, whereas TMAO was accumulated primarily in muscle tissue. Salinity dependent adjustment of FMO expression and activity primarily in osmoregulatory organs as well as regulation of TMAO content in muscle is consistent with previous studies showing an association of FMO with osmoregulation in euryhaline teleosts. However, the lack of a parallel increase of TMAO with urea in other tissues of fish at high salinity indicates other mechanisms of protection from intracellular urea may exist in non-muscular tissues.     

Ecophysiological behavior of Caquetaia kraussii (Pisces: Cichlidae) exposed to different temperatures and salinities.

Tropical river sardine, Caquetaia kraussii, captured from La Aguá lagoon (Sucre State, Venezuela) were acclimatized for four weeks at 22, 24, 30 and 32 degrees C and at 0, 5, 10, 15 and 17@1000 salinity. To evaluate effects of thermal response to acclimatization level, the fish were transferred suddenly from lower temperatures (22 and 24 degrees C) to higher ones (32 and 30 degrees C) respectively. Then thermal resistance time was measured at the lethal temperature of 40.9 degrees C for 30 days. We considered that acclimatization process completed when resistance time was stabilized at the new temperature regime. For the saline effect, the concentrations of sodium and potassium were measured in the tissues at each treatment: gills, white muscle, gut and heart. The results showed that thermal tolerance increased rapidly in 3 h with a 6 degrees C rise in temperature (from 24 to 30 degrees C) and in 24 h with a 10 degrees C rise (22 to 32 degrees C). With decreasing temperatures, the acclimatization level reached its lowest in 11 days with a 6 degrees C decreases (from 30 to 24 degrees C) and in 14 days with a 10 degrees C decrease (32 to 22 degrees C). Caquetaia kraussii regulates as much sodium as potassium in gills and white muscle tissues at all salinity levels tested; however, gut and heart tissues showed significantly different regulations among salinities examined.     

Heat stress‐induced alterations of antioxidants in the freshwater fish Channa punctata Bloch

The effect of elevated temperature on the antioxidants in the freshwater fish Channa punctata was investigated. Fish stressed with an elevated temperature of 12° C, range ± 1° C over the ambient temperature for 3 h showed a significant ( P  < 0·05–0·01) reduction in the levels of antioxidants: reduced glutathione (GSH) and non‐protein thiols. Activity of glutathione reductase was also reduced in all the tissues (liver, kidney and gills) after 3 h of heat stress and 24 h recovery. Catalase (CAT) showed enhanced activity in liver in both the conditions while gills and kidney showed a decreased CAT activity. Glutathione S‐transferase (GST) activity in kidney and liver decreased significantly ( P  < 0·05–0·01) after 3 h of heat stress. At 24 h GST activity showed a tendency to normalize in all the tissues along with a concomitant increase in the GSH level in the kidney. Total and protein thiols in heat stressed fish when matched with controls, showed significant ( P  < 0·05) reduction in the kidney only with a transient increase in liver and gills. Heat shock also induced lipid peroxidation in 3 h heat‐treated and recovery groups when compared with controls. Elevated temperature therefore resulted in tissue specific and time‐dependent alterations of antioxidants in the fish. It also induced lipid peroxidation in various tissues.     

The effects of temperature on the distribution and establishment of Echinoparyphium recurvatum metacercariae in Lymnaea peregra

The establishment and distribution of Echinoparyphium recurvatum metacercariae in the second intermediate host, Lymnaea peregra, were investigated at a temperature range of 5-29 degrees C. Preliminary studies on the survival and infectivity of E. recurvatum cercariae showed that both parameters were temperature dependent. No cercarial transmission occurred at 5 or 10 degrees C. Nevertheless, the transmission efficiency (1/H0) indicated that transmission was temperature independent in the temperature range 17-25 degrees C and was much lower than in previous studies using this host-parasite system. These differences were attributed to low cercarial densities used in this study. The effect of temperature on encystment site choice (mantle cavity, kidney, pericardium) by metacercariae showed that the mantle cavity was the prime site of encystment, followed by the pericardium and the kidney. Temperatures at the lower and upper ranges (14 and 29 degrees C), however, caused a significant reduction in encystment in the mantle cavity but not in the pericardium or kidney. The importance of cercarial densities, the physiological mechanisms influencing metacercarial distribution and their implications for parasite transmission to the definitive host are discussed.     

Development and characterization of novel cell lines from Etroplus suratensis and their applications in virology, toxicology and gene expression

Four novel cell lines from tissues of eye, gill, kidney and brain of Etroplus suratensis were developed and characterized. The cell lines of eye, gill, kidney and brain were sub-cultured for 245, 185, 170 and 90 passages, respectively, since 2008. These cell lines showed predominantly epithelial-like cells. Effects of temperature and foetal bovine serum concentration on the growth of these cell lines were examined and optimum growth was found at the temperature of 28° C with 20% foetal bovine serum. All the four cell lines were successfully cryopreserved and revived at different passage levels. Cell-cycle analysis of these cell lines was carried out by fluorescence-activated cell sorting. Polymerase chain reaction (PCR) products obtained from the cells and tissues of E. suratensis with primers specific to the conserved region of 16S ribosomal RNA and cytochrome oxidase I genes of E. suratensis revealed the origin of cell lines from E. suratensis. Antibodies raised against the tissues and cells of eye, kidney and gill were highly cross reacted to their specific tissue and cells of E. suratensis. Chromosomal analysis revealed that E. suratensis cells have a normal diploid karyotype with 2n = 48. The cells of these cell lines were successfully transfected with pEGFP vector DNA. The eye (IEE), gill (IEG) and kidney (IEK) cell lines were found to be susceptible to nodavirus but resistant to infectious pancreatic necrosis virus (IPNV). The cells of gill, kidney and eye were applied to test the cytotoxicity of tannery effluents.     

A comparative study of protein synthesis in nototheniids and icefish at Palmer Station, Antarctica

Protein synthetic rates were measured in tissues of Notothenia corriceps, N. gibberifrons and Chaenocephalus aceratus in vivo at 2 degrees C by a method in which high doses of 14C-phenylalanine are used for stabilization of specific radioactivity. Rates in N. coriiceps, as per cent of tissue protein synthesized per day, were: liver 10.4, head kidney 3.5, testis 2.6, spleen 2.1, kidney 1.9, gill 1.6, heart 1.4, pectoral muscle 1.0, epaxial muscle 0.37, brain 0.42. With the exception of liver and head kidney (9.8 and 3.4, respectively) all rates in the icefish C. aceratus were significantly reduced compared to the nototheniids, consistent with the dependence of protein synthesis on oxidative metabolism. Icefish lack hemoglobin in the blood. The effects of two-week starvation were tissue-specific. Rates declined markedly in pectoral and epaxial muscle, were unchanged in liver, kidney, brain, heart and testis, and were increased in gill and head kidney. The results are discussed in relation to cold adaptation of Antarctic fishes and to the adaptation of metabolism required during non-feeding periods and for species which lack an oxygen-binding pigment in their blood.     

Proliferative characteristics of atypical cells in native oysters (Ostrea lurida) from Yaquina Bay, Oregon.

Abnormal, large, possibly neoplastic cells from two Ostrea lurida have been successfully labeled with tritiated thymidine, and thus, for the first time, data are available for analyzing a presumptive invertebrate proliferative disorder. Large numbers of labeled atypical cells (AC) were uniformly distributed throughout the connective tissue (CT) underlying the gills, mantle, stomach, gut, digestive diverticula, kidney, and gonad. Two general types of AC are associated with the proliferative disorder. Both are abnormally large with many features characteristic of undifferentiated cells, and both are probably members of a proliferating compartment. The labeling index (LI) for AC ranged from 1.22% in connective tissue surrounding digestive tubules to 14.17% in CT underlying gill epithelium; the LI for all AC was 4.82%. The data strongly suggest that the AC proliferate at a much greater rate than any other oyster cells subjected to similar treatment.     

Application of different test systems and biochemical indicators for environmental monitoring of the Troitsa Bay,Sea of Japan

The DNase express test system and the SF-bioassay (sea urchin sperm fertilization bioassay) were used to assess the quality of sea and bottom sediment water sampled at 8 stations of the Troitsa Bay (Possyet Bay, Sea of Japan). The specific activities of 8 enzymes (alkaline and acid DNases, RNases, phosphatases and phosphodiesterases) were determined for the liver and gill tissues of the mussel Crenomytilus grayanus sampled at the same stations. The activities of all enzymes were higher in the liver than in the gills, and the activity of acid nucleases in both tissues was significantly higher than that of alkaline nucleases. The specific activities of some nucleases in the mussel tissues correlated to the level of seawater pollution. The activities of acid RNases and phosphodiesterases decreased in both tissues upon an increase in water pollution, up to 1.5–3 times in the gills, while the activities of alkaline and acid phosphatases and phosphodiesterases increased 1.5–4 times. Thus, the specific activities of acid RNases, phosphatases and phosphodiesterases from mussel liver can be a useful indicator of marine pollution. This approach can be used for biotesting of ocean water and for assessment of the biological condition of invertebrates adapting to various ecological and anthropogenic effects.     

Localization of group IB phospholipase A(2) isoform in the gills of the red sea bream,Pagrus (Chrysophrys) major

We previously reported that PLA(2) activity in the gills is higher than that in other tissues in red sea bream and purified PLA(2) from the gills belongs to the group IB PLA(2) as well as other red sea bream PLA(2)s. In this study, we reconfirmed that the level of PLA(2) activity is extremely high in the gills compared with other tissues, and gill PLA(2) was detected only in the gills by immunoblotting and inhibition test using anti-gill PLA(2) monoclonal antibody. The level of PLA(2) activity and protein expression in the gills are well correlated. Fish can be roughly divided into high and low groups based on the level of PLA(2) activity. Gill PLA(2) was detected in the gills of the high group, but not the low group by immunoblotting. In the gills of the high group, gill PLA(2) was detected in the mucous cells and pavement cells located on the surface of gill epithelia by immunohistochemistry. On the other hand, positive signals were observed only in the mucous cells by in situ hybridization. We also isolated inactive proPLA(2), having AR propeptide, preceding the mature enzyme from the gill extract. These results suggest that gill PLA(2) is synthesized as an inactive proPLA(2) in the mucous cells and is secreted to the surface of gill epithelia.     

Field and laboratory investigations of the thermal influence on tissue-specific Hsp70 levels in common carp (Cyprinus carpio).

Thermal discharge from power stations can affect normal environmental conditions and change in heat shock proteins expression of native fish with increasing temperature. In this study, we investigated levels of Hsp70 in the heart, kidney, brain and gill of the common carp Cyprinus carpio both in long-term heat discharge environment and after 24 h acute heat shock exposure. In laboratory exposure experiments, fish acclimated at 10 degrees C were exposed to various elevated temperatures (20, 24 and 28 degrees C). Hsp70 concentrations were determined in tissues by Western blotting analysis after one dimensional SDS-PAGE separation. In the field study, the level of Hsp70 in the gill of the carp remained at control values, and Hsp70 expression in the heart, kidney and brain underwent a 2.8 to 3.7-fold increase. A lower thermal sensitivity of the Hsp70 response of the brain, compared with the heart, kidney and gill, was observed in the laboratory experiments. Our data show that these tissues had different levels of Hsp70 responses to thermal influence both in acute exposure and long-term acclimation. The pattern of tissue Hsp70 expression may have a close relationship with the thermal tolerance of the carp and allows the fish to survive long-term thermal pollution.