Development of NADPH-Diaphorase in the Avian Retina: Regulation by Calcium Ions and Relation to Nitric Oxide Synthase

Abstract: Nitric oxide plays an important role as an intercellular messenger in the CNS. In the present work we measured NADPH-diaphorase activity, which is considered to be a marker of cells producing nitric oxide, in homogenates of the developing chick retina. The enzyme activity can be detected beginning in 8-day-old embryonic retinas with no further quantitative variations throughout development. Arginine analogues inhibit ∼65% of the activity in embryonic retinas and 50% in posthatched retinas. The enzyme is stimulated 50% by 2 m M calcium chloride in retinas from 8 to 14 embryonic days, but this effect decreases to 20% in 17-day embryonic retinas and practically disappears in posthatched animals. The stimulation by calcium is completely blocked by arginine analogues. The decrease in enzyme activity at posthatched retinas is not due to stimulation by endogenous calcium or the presence of insufficient amounts of calmodulin, because addition of EGTA or calmodulin, respectively, did not restore the stimulation to levels observed at embryonic stages. Inhibition of NADPH-diaphorase activity by N ^G-nitro- l -arginine or l - N ^G-(iminoethyl)ornithine is concentration dependent with IC₅₀ values of ∼1 m M at all stages studied. However, in the presence of calcium, the inhibition by both analogues is shifted to the left and is apparently biphasic at all developmental stages, including in posthatched animals, with IC₅₀ values in the low micromolar range. NADPH-diaphorase was also detected by histochemistry in specific groups of cells in the early embryonic retina and in subsets of amacrine and ganglion cells, as well as in photoreceptors, in more developed retinas. The results indicate that different isoforms of nitric oxide synthase are present in the chick retina and that a calcium-dependent isoform is predominant in early periods of development.     

The Protein Activator Specific for the Enzymic Hydrolysis of GM2 Ganglioside in Normal Human Brain and Brains of Three Types of GM2 Gangliosidosis

Abstract: In order to understand the etiology of Type AB GM2 gangliosidosis, we have purified and characterized the activator protein (GM2 activator) specific for the enzymic hydrolysis of GM₂ ganglioside from normal human brain. The purified activator from human brain moved as one major protein band in various electrophoretic systems. We have also prepared the antiserum against this activator. The levels and the nature of GM₂ activator and β-hexosaminidase A were examined in the brains of five cases of GM₂. gangliosidosis—one Type B, two Type O, and two Type AB. We found that the levels of GM₂ activator in both Type B and Type O cases were markedly elevated, and that the two Type AB cases were the results of different causes. One case had a defective β hexosaminidase A and an elevated level of GM₂ activator. Although this defective β-hexosaminidase A could hydrolyze synthetic substrates, it was inactive in the cleavage of natural glycosphingolipids in the presence of the GM₂ activator. It could, however, hydrolyze asialo-GM₂ and GbOse₄Cer in the presence of sodium taurodeoxycholate. The other case had normal β-hexosaminidase A, but had a very low level of GM₂ activator when analyzed by in vitro assay, suggesting the deficiency of this activator. By immunoelectrophoresis, this case was found to be completely devoid of the protein that cross-reacts with the antiserum against the GM₂ activator.     

Phospholipase Cγ1 in Bovine Rod Outer Segments: Immunolocalization and Light-Dependent Binding to Membranes

Abstract: We have investigated the isozymes of a phosphoinositide-specific phospholipase C (PLC) in bovine retina using several monoclonal antisera to PLCβ₁, γ₁, and δ₁. Immunoblot analysis showed that all three isozymes were present in the retina. Immunocytochemical localization in frozen bovine retina sections showed that PLCγ₁ was present in the photoreceptor cell layer, outer plexiform cell layer, inner plexiform cell layer, and ganglion cell layer. Immunoreaction within the photoreceptor cell layer was dependent on dark/light adaptation state of retinas. Immunoblot analysis of rod outer segments (ROS) with monoclonal or polyclonal antibodies to PLCγ₁ showed the presence of an immunoreactive band of 140 kDa. ROS prepared from retinas light-adapted in vitro had more PLCγ₁ on immunoblots than ROS from dark-adapted retinas. PLC enzyme activity in ROS from light-adapted retinas was 69 and 46% higher than ROS from dark-adapted retinas, when assayed in the presence and absence of ATP, respectively. This increase in enzyme activity was observed at [Ca²⁺]_free between 0.32 and 100 µ M . These results demonstrate the presence of PLCγ₁ in bovine ROS and show that ROS prepared from light-adapted retinas are enriched in this isozyme, suggesting that light may promote the binding of this isozyme to bleached ROS membranes.     

LOCALIZATION, SOLUBILIZATION AND PROPERTIES GANGLIOSIDE TRANSFERASES IN RAT BRAIN OF N-ACETYLGALACTOSAMINYL AND GALACTOSYL GANGLIOSIDE TRANSFERASES IN RAT BRAIN

Abstract— The subcellular distributions of UDP-N-acetylgalactosamine: G_M3 N-acetyl-galactosaminyl transferase and UDP-galactose: G_M2 galactosyl transferase, two enzymes involved in the biosynthesis of gangliosides, were determined in the 7-day-old rat brain by means of synaptosomal fractionation techniques. The enzymes were located on the synaptic membranes and appeared to be closely associated with gangliosides and acetylcholinesterase. Solubilization of the transferase enzymes from the microsomal particles was achieved and differed from the solubilization of acetylcholinesterase and of the total membrane protein. Competition studies suggest that the ^N-acetylgalactosaminyl transferase involved in the formation of G_M2 from G_M3 is different from the N-acetylgalactosaminyl transferase involved in the formation of GalNAoGal-Glc-ceramide from Gal-Glc-ceramide, whereas in contrast, both the formation of G_M1 from G_M2 and of Gal-GalNAc-Gal-Glcceramide from GalNAc-Gal-Glc-ceramide appear to be catalysed by the same galactosyl transferase.     

GANGLIOSIDE COMPOSITION AND BIOSYNTHESIS IN CULTURED CELLS DERIVED FROM CNS

Abstract— Cultured mouse neuroblastoma cells (clone N18) contained a homologous series of gangliosides, G_M3, G_M2, G_M1 and G_D1a; the total lipid bound sialic acid (LBSA) was 3.3 nmol per mg of protein, of which G_D1a comprised two-thirds. In contrast, neonatal hamster astrocytes (clone NN) and human glioblastoma cells (Cox clone) contained mainly G_M3, which represented 95% of the 2 nmol of LBSA per mg protein in these cells. When the cells were grown in the presence of [¹⁴C]galactose, label was incorporated into all of the gangliosides isolated from the cells. The labeling pattern corresponded to the ganglioside composition of the cell lines; G_D1a was more extensively labeled in N18 cells and G_M3 was the major labeled ganglioside extracted from glial cells. In addition to in rivo biosynthesis, in vitro synthesis of gangliosides was also determined. The activities of five glycosyltransferases of the ganglioside biosynthetic pathway were measured in homogenates of the three cell lines. The neuroblastoma cells contained all five enzyme activities whereas the two glial cell lines were deficient in UDP- N -acetylgalactosamine: G_M3 N -acetylgalactosaminyltransferase activity, which catalyzes the synthesis of G_M2 from G_M3. The results indicated that cells of neuronal origin contain the more complex gangliosides associated with CNS and the requisite biosynthetic enzymes and that cells of glial origin are missing these complex gangliosides and the key glycosyltransferase required for their synthesis.     

Accumulation of phosphatidic acid in microsomes from propranolol-treated retinas during short-term incubations

Abstract: The pool size and synthesis of phosphatidic acid derived from [2-³H]glycerol were studied in bovine whole retinas and subcellular fractions. Microsomal preparations from retinas incubated with [2-³H]glycerol displayed the highest percentage labeling of phosphatidic acid at 5 min of incubation; labeling decreased rapidly thereafter. In drug-treated retinas,0.5 m M propranolol increased the endogenous content of phosphatidic acid and stimulated [2-³H]glycerol labeling in whole retina and microsomal and postmicrosomal supernatant fractions. This effect was observed during short-term incubations and was reversible. In pulse-chase experiments, 60 min of reincubation greatly reduced the labeling effect, although propranolol still enhanced phosphatidic acid labeling. At the same time, endogenous phosphatidic acid accumulated and reincubation without propranolol reversed the effect. During accumulation, the amount of palmitate increased and that of oleate decreased, whereas the relatively high level of docosahexaenoate in phosphatidic acid remained unchanged. It was concluded that this propranolol-induced effect is due to cationic amphiphilic drug activity in the endoplasmic reticulum that results in a partial inhibition of phosphatidic acid degradation and a stimulation of its de novo synthesis. Hence, net synthesis of phosphatidic acid can be assessed in the retina during short-term incubation with propranolol.     

DEVELOPMENTAL PATTERNS OF GANGLIOSIDES AND OF PHOSPHOLIPIDS IN CHICK RETINA AND BRAIN

Abstract— The changes in phospholipids and gangliosides during ontogenesis of chick retina have been compared with those in brain. Three phases of accumulation of ganglioside NeuNAc in the retina were detected. In contrast, brain NeuNAc rapidly increased during embryonic life until hatching, followed by a slower increase up to the adult stage. The phospholipid changes in retina and in brain occur in a-similar manner to the variations observed for gangliosides, however in retina the changes of phospholipid content are less marked than in brain, during embryonic life. There were marked changes in the retina and brain ganglioside patterns with age. G _{d 3} and G _{d 1b} decreased rapidly in per cent; correspondingly, G _{d 1a} increased during embryonic life and became the major ganglioside in place of G _{d 3}. There was a similarity between ganglioside patterns of chick retina and brain. Except for some slight variations during embryonic life, the retinal phospholipid pattern did not change noticeably.     

Reduction of caecal Listeria monocytogenes in Leghorn chicks following treatment with a competitive exclusion culture (PREEMPT™)

Day-of-hatch Leghorn chicks were treated by oral gavage with PREEMPT^™, a continuous-flow competitive exclusion culture containing broiler caecal bacteria, followed by an oral challenge with Listeria monocytogenes , to determine the effects of PREEMPT^™ on L. monocytogenes caecal colonization. Increased ( P < 0·001) concentrations of caecal propionic acid in control chicks compared with PREEMPT^™-treated chicks at 3 days of age were indicative of the establishment of the PREEMPT^™ bacteria. Caeca from control chicks at 7 days after the oral challenge with L. monocytogenes contained mean 3·4 ± 1·4 log cfu g⁻¹ of caecal content, while caeca from PREEMPT^™-treated chicks contained no detectable Listeria. Enrichment for L. monocytogenes resulted in 100 % of caeca from control chicks testing culture-positive for L. monocytogenes , while none of the caeca from PREEMPT^™-treated chicks were culture-positive. The results indicated that prophylactic treatment of newly hatched chicks with PREEMPT^™ significantly reduced caecal colonization by L. monocytogenes.     

Developmental increase in the inotropic and cyclic AMP response to isoproterenol in embryonic and newly hatched chicks

The cyclic adenosine 3',5'-monophosphate (cyclic AMP) levels of ventricles isolated from 15- to 20-day-old chick embryos and 0- to 3-day-old hatched chicks were compared to clarify the mechanism underlying the change in sensitivity to isoproterenol during perinatal developmental stages when the functional sympathetic innervation has been completely achieved. Isoproterenol produced a positive inotropic effect on ventricles isolated from both embryonic and hatched chicks, but the ventricles from the hatched chicks were more sensitive. At both developmental stages sotalol was an equipotent antagonist of isoproterenol. 3-Isobutyl-1-methylxanthine (IBMX) produced an increment in the contractile force of the ventricles at both stages, but the ventricles from the hatched chicks responded to lower doses of IBMX. The reactivity to isoproterenol in increasing cyclic AMP level was significantly higher in the hatched ventricles than in the embryonic ventricles. The results suggest that the different sensitivities to isoproterenol between embryonic and newly hatched chick ventricles may be due to some changes in the process for cyclic AMP production.     

Environmental induction of Na+ transporter affinity in Atlantic salmon embryos

Atlantic salmon ( Salmo salar L.) alevins hatched from eggs transferred from high- to low-Na water at 250° days, before the onset of the phase of increasing whole egg sodium content (at ∼380°days), showed a significantly reduced K _m for Na⁺ transport, whereas transfer at 400° days did not produce any change in K _m . Alevins hatched from eggs given acid shocks of 1, 3, 7 or 14 days duration initiated at 250 or 400° days showed no significant changes in Na⁺ transporter K _m . Extended acid exposure (38 days) from 250°days to hatching resulted in a slight lowering of K _m (P<0.05). A 24-day acid exposure from 400°days to hatching had no effect on Na⁺ transporter K _m . Alevins hatched from eggs incubated throughout in acidified water had a significantly reduced K _m compared to controls (P<0.01).
The timing and duration of periods of Na depletion of eggs is considered with respect to environmental induction of increased Na transporter affinity in teleost embryos as a mechanism of long-term physiological adaptation to the gradual acidification of natural waters.     

Melatonin Effect on [3H]Glutamate Uptake and Release in the Golden Hamster Retina

Abstract: The effect of melatonin on [³H]glutamate uptake and release in the golden hamster retina was studied. In retinas excised in the middle of the dark phase, i.e., at 2400 h, melatonin (0.1 and 10 n M ) significantly increased [³H]glutamate uptake, and this effect persisted in a Ca²⁺-free medium. On the other hand, melatonin significantly increased [³H]glutamate release in retinas excised at 2400 h, but this effect was Ca²⁺ sensitive. Melatonin significantly increased ⁴⁵Ca²⁺ uptake by a crude synaptosomal fraction from retinas of hamsters killed at 2400 h. In retinas excised at 1200 h, melatonin had no effect on [³H]glutamate uptake, [³H]glutamate release, or ⁴⁵Ca²⁺ uptake at any concentration tested. Cyclic GMP analogues, i.e., 8-bromoguanosine 3',5'-cyclic monophosphate and 2'- O -dibutyrylguanosine 3',5'-cyclic monophosphate, significantly increased [³H]glutamate uptake, [³H]glutamate release, and ⁴⁵Ca²⁺ uptake by tissue removed at 1200 and 2400 h, suggesting that the effects of melatonin could correlate with a previously described effect of melatonin on cyclic GMP levels in the golden hamster retina. Taking into account the key role of glutamate in visual mechanisms, the results suggest the participation of melatonin in retinal physiology.     

SYNTHESIS OF GLYCOPROTEINS AND GANGLIO-SIDES IN DEVELOPING RAT BRAIN

Abstract— Intracerebral injections of radioactive fucose into developing rats resulted in specific labelling of the brain glycoproteins in their fucose moieties. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate revealed that the radioactive glycoproteins were very heterogeneous with regard to molecular weight. A procedure utilizing [³H]fucose and [¹⁴C]fucose together with double-label counting techniques was developed for comparing the electrophoretic patterns of newly synthesized glycoproteins from different samples of tissue. By the use of this procedure we showed that the incorporation of radioactive fucose into the glycoproteins of high mol. wt. was relatively greater in the brains of 5-day-old rats than in those of 25-day-old rats. Intracerebral injection of N -[ Ac -³H]acetyl- d -mannosamine resulted in a high degree of specificity for the labelling of sialic acid moieties in glycoproteins and gangliosides. The ratio of the d.p.m. of N -[³H]acetylmannosamine incorporated into glycoproteins to the d.p.m. incorporated into gangliosides was higher in 5-day-old rats than in 15- or 25-day-old rats. Experiments in which 15-day-old rats were injected with a mixture of [¹⁴C]fucose and N -[³H]acetylmannosamine showed that there were differences in the relative degrees of incorporation of the two radioactive precursors into the various glycoproteins. The greatest incorporation of [¹⁴C]fucose relative to that of N- [³H]acetylmannosamine occurred in some of the glycoproteins of smaller mol. wt.     

Studies on Polyadenylic Acid-Containing RNA from Developing Nervous System of the Chicken the

Abstract: To investigate certain biochemical aspects of myelination, a study was undertaken of the messenger-like RNA in the nervous system of pre- myelinating 14-day embryos and of myelinating 17-day embryos and 3-day chicks. The central and peripheral nervous systems of the chick were found to contain and to actively synthesize poly(A)⁺ RNA. RNA species binding to oligo(dT)-cellulose contained a relatively high proportion of adenylate residues and were resistant to the actions of pancreatic and T₁ ribonucleases. Preparations labeled by incubation with adenosine in vitro showed a decrease in the proportion of poly(A)⁺ RNA as the age of the animal increased, while preparations labeled in vivo exhibited the opposite trend. Polyacrylamide gel electrophoretograms of both in vivo and in vitro labeled pqeparations showed that the poly(A)⁺ fractions contained mainly heterodisperse RNA species. The average molecular size of poly(A)⁺ RNAs of purified polysomal fractions of nerve RNA from 3-day chicks was smaller than 18S, whereas that of total poly(A)⁻ RNA was larger than 18s. The proportion of poly(A)⁺ molecules larger than 18s was lower in the rapidly myelinating nerve tissues of 17-day embryos and post-hatching chicks than in those of premyelinating 14-day embryos. Similar results were obtained for crude nuclear RNA fractions or RNA preparations fractionated under denaturing conditions. These results are consistent with previous work showing that the embryonic peripheral nerve contains a larger proportion of high-molecular-weight, messenger-like RNA molecules than does nerve tissue from young chicks or adults.     

In Vivo and In Vitro Expression of Gangliosides in Chick Retina Müller Cells

The expression of gangliosides of the lactosylceramide (LC) and of the gangliotetraosylceramide (GTC) series on the surface of cells from the chick neural retina was investigated by double-color indirect immunofluorescence. GD3 was assumed to be representative of LC and was detected using a specific monoclonal antibody. GM1 was assumed to be representative of GTC and was detected using the binding of cholera toxin followed by the binding of cholera toxin antibodies. The expression of polysialosylated GTC (polysialosyl-GTC) was detected using the cholera toxin-cholera toxin antibody experimental approach, after conversion of polysialosyl-GTC to GM1 by treatment of the cells with neuraminidase. In retinas from 6-day-old embryos (R6), most cells (approximately 80%) expressed GD3 but not GTC. After culturing for 7 days, (R6+7), the expression of GTC was found confined to neuron-like cells; flat cells derived from Müller cells expressed GD3 but were negative for GTC expression. On the other hand, postmitotic Müller cells obtained from 13-day-old embryo (R13) or 1-day-old hatched chick retina (RP1) expressed GD3, GM1, and polysialosyl-GTC but were unable to maintain the expression of these GTCs when kept in culture for several days. According to these results, retinal cells can be defined on the basis of their ganglioside expression as follows: (a) retinoblasts, by the expression of GD3; (b) postmitotic neuronal cells, by the expression of GTC; and (c) postmitotic Müller cells, by the expression of GD3 and GTC.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antioxidant enzyme activities in embryologic and early larval stages of turbot

The antioxidant enzymes superoxide dismutase (SOD; EC 1.15.1.1), catalase (EC 1.11.1.6), selenium-dependent glutathione peroxidase (SeGPX; EC 1.11.1.9), glutathione reductase (EC 1.6.4.2) and DT-diaphorase (EC 1.6.99.2), plus total GPX activity (sum of SeGPX and Se-independent GPX activities), were studied in 13 500 g supernatants of embryos and 3-day and 11-day post-hatch larvae of turbot Scophthalmus maximus L. SOD activity decreased progressively during development from embryos to 11-day-old larvae, indicative of a decreased need to detoxify superoxide anion radical (O₂⁻). In contrast, catalase, SeGPX and glutathione reductase activities increased progressively from embryos to 11-day-old larvae, indicative of an increased need to metabolize hydrogen peroxide (H₂O₂) and organic peroxides. Consistent with the latter changes, levels of lipid peroxides (i.e. thiobarbituric acid reactive substances) increased 13-fold from embryos to 3-day-old larvae, whilst total peroxidizable lipid was indicated to decrease. Increases were seen for NADPH-dependent DT-diaphorase (after hatching) and total GPX (between 3 and 11 days post-hatch) activities, whilst no change was found in NADH-dependent DT-diaphorase activity. Overall, the results demonstrate a capacity for early life-stages of S. maximus to detoxify reactive oxygen species (O₂⁻ and H₂O₂) and other pro-oxidant compounds (organic peroxides, redox cycling chemicals). Furthermore, qualitative and quantitative antioxidant changes occur during hatching and development, possibly linked to such events as altered respiration rates (SOD changes) and tissue reorganization and development (catalase, SeGPX, lipid peroxidation).     

Light-Stimulated Release of Taurine from Retinas of Kainic Acid-Treated Chicks

Abstract: The light-stimulated release of [³H]taurine from chick retina was studied in chicks intraocularly injected with kainic acid (60 nmol). This treatment produced a loss of more than 80% of the inner nuclear and the inner synaptic layers, sparing the outer retinal layers. Concomitantly, the treatment produced a marked decrease of endogenous GABA and glycine but not of taurine. The activity of glutamate decarboxylase was also markedly decreased in the kainic acid-treated retinas. The release of [³H]taurine, either spontaneous or stimulated by light, was unaffected by the treatment. These results suggest that the light-stimulated efflux of taurine occurs from the retinal layers which are not affected by the kainic acid treatment.     

STUDIES ON THE BIOSYNTHESIS OF GLYCO-SPHINGOLIPIDS IN CULTURED MOUSE NEUROBLASTOMA CELLS: CHARACTERIZATION AND ACCEPTOR SPECIFICITIES OF N-ACETYLNEURAMINYL- AND N-ACETYLGALACTOSAMINYLTRANSFERASES

Abstract— The pathway of biosynthesis of N -acetylgalactosamine-containing gangliosides in mouse neuroblastoma has been studied using NB41A cells grown in monolayer tissue culture. Cell-free enzyme preparations catalyzed the transfer of NeuNAc from CMP-NeuNAc to lactosylceramide (GL-2a), to form G_M3. Asialo-G_M2 was neither an acceptor nor a competitive inhibitor of the sialyltransferase (CMP-NeuNAc: GL-2a N-acetylneuraminyltransferase, EC 2.4.99.-) under a variety of experimental conditions. Enzyme preparations also contained an N -acetylgalactosaminyltransferase (UDP-GalNAc. G_M3 N -acetylgalactosaminyltransferase, EC 2.4.1.-) which catalyzed the conversion of G_M3 to G_M2. No significant transfer of N -acetylgalactosamine to GL-2a could be demonstrated. The results of the glycosyltransferase assays support the concept that the first NeuNAc of brain gangliosides is introduced into GL-2a. The present data suggests that the occurrence of asialo-G_M2 in NB41A cells under some culture conditions is a consequence of the catabolism of higher gangliosides.     

Effects of Brefeldin A on Synthesis and Intracellular Transport of Ganglioside GT3 by Chick Embryo Retina Cells

Abstract: Ganglioside GT3 is the precursor of c-series gangliosides. It is synthesized by sialylation of GD3 and is expressed in nervous tissue of birds and mammals at early stages of development. In this study we examined the sub-Golgi location of GT3 synthesis and the mechanism of its transport from the site of synthesis to the plasma membrane in chicken embryo retina cells in culture. Neural retina cells from 10-day-old chick embryo were cultured with [³H]galactose in the absence (control cells) or in the presence of 1 µg/ml brefeldin A (BFA). At the end of the labeling period, the fraction of labeled gangliosides transported to the plasma membrane was determined. For this, cells were treated with C . perfringens neuraminidase in conditions to desialylate only those gangliosides that were transported to the plasma membrane and consequently accessible to the enzyme. After neuraminidase treatment of cells, gangliosides were isolated, purified, and the pattern of radioactivity analyzed by HPTLC-fluorography. It was found that BFA blocked the synthesis of complex gangliosides without affecting the synthesis of GM3, GD3, and GT3. Furthermore, in BFA-treated cells, GM3, GD3, and GT3 were protected from the action of added neuraminidase, indicating an intracellular localization and, hence, an inhibition of their transport to the plasma membrane. The results indicate that synthesis of the first intermediates of a-, b-, and c- series gangliosides occurs in a proximal Golgi compartment and that the proximal Golgi-synthesized gangliosides (GM3, GD3, and GT3) use a transport mechanism that is dependent on ADP ribosylation factor and coatomer proteins.     

Oxygen consumption in Oreochromis niloticus (L.) in relation to development, salinity, temperature and time of day

Oxygen consumption of Oreochromis niloticus at different stages of development was studied in relation to salinity, temperature and time of day, using a Warburg apparatus. The oxygen consumption of newly hatched (0–14 h) larvae was 3.40 μl O₂ larva⁻¹ h⁻¹, of older yolk sac larvae 10.09 μl O₂ larva⁻¹ h⁻¹, and of one-month-old fry 32.99 μl O₂ larva⁻¹ h⁻¹. The QO₂ values showed a decrease with development and growth, ranging from 21.2–26.0 μl O₂ mg⁻¹ h⁻¹ in newly hatched larvae to 2.97 μl mg⁻¹ h⁻¹ in one-month-old fry. Changes in oxygen consumption occurred with salinity, the highest being at 17%o. Active larvae (12-24 mm T.L.) showed a doubling of consumption with a 10° C rise in temperature, and their Q₁₀ factor increased from 2.25 to 3.43 with increasing size. Day-old yolk-sac larvae, late yolk-sac larvae (5 days old) and fry of 12 14 mm length all showed a depression in oxygen consumption at midnight followed by a dawn rise.