The glycogen and lactate content of the white and red muscles in fishes with differing natural mobilities during experimental swimming]

Glycogen content of muscles has been investigated in moderately motile fishes during burst and cruising swimming, as well as in fast swimming fishes during burst swimming. It was shown that the intensity of glycogenolysis in muscles depends on the swimming regime and natural adaptation of fishes to physical loading. During burst swimming, significant decrease in glycogen content was found in both white (up to 70%) and red muscles (up to 50%) of fishes with moderate natural motility, in contrast to fast swimming fishes in which glycogen content decreases only in white muscles (by 30%). Cruising swimming in moderately motile fishes results in practically equal decrease of the glycogen content in both types of muscles (by 80-85%). The mentioned specificity of metabolism in fishes with moderate motility, as well as peculiarities of morphological organization of their skeletal muscles (the mass of red muscles amounts up to 5%), suggest that the main locomotor organ in these species is presented by white muscles.     

Seasonal cycles in total chemical composition of two Lake Baikal benthic-pelagic sculpins (Cottocomephorus, Cottoidei)

Annual cycles in chemical composition of the body, liver, gonads, red and white muscles were determined for two medium fat sculpins, Cottocomephorus grewingki and C. inermis , endemic to Lake Baikal. Their total lipid content ranged from 3 to 9% during the year. The content of defatted dry substance was 14–17%, similar to the protein content of the other Baikalian cottoid fishes. The prespawning period was characterized by a positive lipid and protein balance in both species. In C. grewingki the liver performed largely a metabolic function, whereas in C. inermis it served also as a storage site for lipid reserves. During spawning, total body lipids of females of both species showed a two- to threefold decrease. Males of C. grewingki guarding nests deplete greatly their total body lipids, which decrease seven- to ninefold by the time of larval hatching in comparison with the prespawning period, and constitute 1–2%. After spawning, lipid reserves of C. grewingki were quickly restored to the initial level (from about 3 to 9%) and maintained during the long sexual maturation period. In C. inermis total body lipids increased only twofold in comparison to those observed during the spawning period.     

Fibre types in the locomotory muscles of an antarctic teleost,Notothenia rossii

Summary The metabolic and structural differentiation of locomotory muscles of Notothenia rossii has been investigated. In this species sustained locomotion is achieved by sculling with enlarged pectoral fins (labriform locomotion), whilst the segmental myotomal muscle is reserved for burst activity. Red, white and subepidermal fibres can be distinguished in the trunk by histochemical and ultrastructural criteria. The main pectoral muscle (m. adductor profundus) consists entirely of red fibres. These three main fibres types show differences in histochemical staining profiles, capillarization, myofibril shape and packing, and lipid and mitochondrial content. The fractional volume of mitochondria amounts to 38% for pectoral, 30% for red myotomal and 1.9% for white myotomal fibres. Enzyme activities of red pectoral muscle are consistent with a higher potential for aerobic glucose and fatty acid oxidation than for the red myotomal fibres. Mg²⁺ Ca²⁺ -myofibrillar ATPase activities are similar for red pectoral and myotomal muscles and approximately half of those white fibres. Specialisations of N. rossii muscles associated with labriform swimming and locomotion at Antarctic temperatures are discussed.     

Lipid composition in muscle and liver of sympatric coregonid fishes from Lake Baikal (<Emphasis Type="Italic">Coregonus</Emphasis> spp.) under common garden experiment

The content of total lipids, total phospholipids, and fatty acids of total lipids in muscles and liver of juvenile Lake Baikal sympatric coregonid fishes have been analyzed for the first time under a common garden experiment. Baikal omul, Coregonus migratorius Georgi, is an active migrant of the pelagic zones of the lake. Baikal (lacustrine) whitefish, C. baicalensis Dybowski, is a colonizer of the bottom habitats, which are relevant to the pelagic zones of the littoral and underwater slope. Structural lipids (phospholipids and cholesterol) dominated in total lipids of the tissues of all fish under study. Spare lipids significantly prevailed in omul muscles when compared to whitefish. The highest variability of fatty acid composition was reported in muscles of coregonid fishes. Statistically significant differences were revealed in the content of the ω3 polyunsaturated fatty acids in muscles of lacustrine whitefish and omul. Associations of lipid compositions revealed in tissues of the whitefishes under the study with their respective ecotypes have been discussed.     

Assessment of pathological changes in fish muscle tissue, forming as a result of exposure to toxic factors in the environment

Our investigation of muscle tissue of fishes, inhabiting the regions with unfavorable ecological conditions (the river Volga), permitted to select four types of degenerative changes in muscle tissue. These alterations are associated with both the phylogenetic status of fish species and ecological dispositions of species. Using different methods of investigation several types of muscle destruction were shown. I. Destruction of myofibrillar apparatus (lysis of protofibrils), with sarcolemma remaining intact. II. Destruction of the myofibrillar apparatus, with sarcolemma, T-system, and sarcoplasmic reticulum being disrupted. III. Invasion of muscle fibers by lymphoid cells and macrophages; with sarcolemma being intact. IV. Lysis of sarcolemma by proteolytic enzymes of lymphoid elements; with muscle fibers being disintegrated. The objects of this study were muscle tissues of 8 fish species (Acipenser gueldenstadti, A. stellatus, A. ruthenus, Lucioprerca lucioperca, Esox lucius, Perca fluviatilis, Tinca tinca, Caprinus carpio). The white muscle degeneration followed the patterns of types I and II, while that of red muscles corresponded to types III and IV. White and red muscles of the Chondrostei fishes (sturgeon, stellate, sterlet) undergo destruction more frequently, than muscles of the Holostei fishes (pike, perch, zander, sazan, tench). Degenerative processes of white and red muscles of fish-eating fishes were more obvious than those of herbivorous fishes.     

The activity of pro- and antioxidant systems in the liver of freshwater fishes during different seasons

The content of lipid peroxidation products--diene conjugates, lipid hydroperoxides, thiobarbituric acid reactive substances (TBARS), vitamins A, E and carotenoids and the activity of antioxidant enzymes--superoxide dismutase, glutathione peroxidase and catalase in the liver of freshwater fishes of different species (silver carp, grass carp and common carp) in different seasons have been studied. It was established the activity of antioxidant defence system in the liver of fish depends significantly on the season and fish species. In particular, the content of lipid peroxidation products in the liver of freshwater fishes at the beginning of winter and spring was significantly higher compared to their content at the beginning of summer and autumn. The superoxide dismutase and glutathione peroxidase activities in the liver of these fish species at the beginning of winter and spring were significantly lower than at the beginning of summer and autumn while the seasonal changes of catalase activity in the liver of fish are expressed insignificantly. The content of vitamins E, A1, A2 and carotenoids in the liver of fishes of different species at the beginning of winter and spring was significantly lower than at the beginning of summer and autumn. The content of lipid peroxidation products and vitamins E, A1 and A2 in the liver of common carp is significantly lower than in the liver of silver carp and grass carp and species differences in antioxidant enzymes activity are insignificant.     

Allometric scaling of maximal enzyme activities in the axial musculature of striped bass, Morone saxatilis (Walbaum)

It had been suggested that the activity of anaerobic enzymes in the white muscle of fish increases exponentially with body size to meet the increasing hydrodynamic costs of burst swimming. We tested whether this relationship holds across a very large size range of striped bass, spanning a nearly 3,000-fold range in body mass. We examined the scaling of marker enzymes of anaerobic (lactate dehydrogenase and pyruvate kinase) and aerobic (citrate synthase and malate dehydrogenase) metabolism in the red and white locomotor muscles. In white muscle, we found positive scaling of anaerobic enzymes only in smaller fishes. Positive scaling of anaerobic enzymes was not found among the samples that included fishes >1,000 g despite having a sufficiently large sample size to detect such scaling. The absence of positive scaling in the white muscles of large bass suggests that they are unable to generate sufficient power to sustain relative burst swimming performance. Enzymes from aerobic pathways had activities that were mass independent in both red and white muscle. Red and white muscles were metabolically distinct except among the smallest fishes. Among young of the year, the anaerobic capacity of red muscle approached that of white muscle and also showed positive scaling. This unusual pattern suggests that red muscle might augment white muscle during burst swimming and add to the total power generated by these small fish. Maximizing burst swimming performance may be critical for small fishes vulnerable to predation but unimportant for large fishes.     

The activities of some enzymes concerned with energy metabolism in mammalian muscles of differing pigmentation

1. Extractable hexokinase activity was measured in the red and white skeletal muscles of the rabbit and in the hearts and diaphragms of four animal species differing markedly in size. Activities vary over a 40-fold range, being least in white skeletal muscle of the laboratory rabbit and greatest in mouse heart. 2. Hexokinase activities correlate approximately with capacities to undertake reactions of the tricarboxylic acid cycle as determined by succinate oxidase assays. Both enzyme activities seem best related to the average contractile-energy expenditure per unit weight of muscle over an extended period, rather than to the rapidity of individual contractions. 3. Hexokinase and succinate oxidase activities cannot be related to a muscle's content of soluble pigment. They display an inverse relationship with activities of phosphorylase and glycolytic enzymes, but only within the group of rabbit skeletal muscles whose oxidative capacities are at the lower end of the observed range. 4. Total glycogen-UDP glucosyltransferase activities do not vary significantly between rabbit skeletal muscles, although those of hexokinase differ by about sixfold. On the average, glucose 6-phosphate is probably oxidized directly. However, observations cited in the literature suggest that muscles with an active hexokinase may well preferentially accumulate glycogen when glucose is present in excess of the fibres' capacity to oxidize it. 5. When considered with published results obtained in vivo, the present findings indicate that phosphorylase has a minor role in the energy expenditure of muscles with a predominantly oxidative metabolism. In these, the major substrates appear to be blood glucose, fatty acids and possibly lipids. 6. The histochemical criteria by which muscle fibres are commonly described as red or white are inadequate.     

Effect of endurance training on the phospholipid content of skeletal muscles in the rat

Only few data are available on the effect of training on phospholipid metabolism in skeletal muscles. The aim of the present study was to examine the effect of 6 weeks of endurance training on the content of particular phospholipid fractions and on the incorporation of blood-borne [14C]-palmitic acid into the phospholipids in different skeletal muscles (white and red sections of the gastrocnemius, the soleus and the diaphragm) of the rat. Lipids were extracted from the muscles and separated using thin-layer chromatography into the following fractions: sphingomyelin, phosphatidylcholine, phosphatidylserine, phosphatidylinositol, phosphatidylethanolamine, cardiolipin and neutral lipids (this fraction being composed mostly of triacylglycerols). It was found that training did not affect the content of any phospholipid fraction in soleus muscle. It increased the content of sphingomyelin in white gastrocnemius muscle, cardiolipin and phosphatidylethanolamine in red gastrocnemius muscle and phosphatidylinositol in white gastrocnemius muscle and diaphragm. The total phospholipid content in red gastrocnemius muscle of the trained group was higher than in the control group. Training reduced the specific activity of sphingomyelin and cardiolipin in all muscles, phosphatidylcholine in soleus, red, and white gastrocnemius muscles, phosphatidylserine in all muscles, phosphatidylinositol in all except the soleus muscle, and phosphatidylethanolamine in hindleg muscles, but not in the diaphragm compared to the corresponding values in the sedentary group. It was concluded that endurance training affects skeletal muscle phospholipid content and the rate of incorporation of the blood-borne [14C]palmitic acid into the phospholipid moieties.     

Histochemical fibre types in the lateral muscle of fishes in fresh, brackish and salt water

The histochemical pattern of red, pink and white muscle of fish living in fresh, brackish, and salt water is reported. The muscle fibres were stained routinely during the year for lactate dehydrogenase (LDH), menadione α-glycerophosphate dehydrogenase (Mα—GPDH), succinic dehydrogenase (SDH), myosin adenosine triphosphatase (myosin ATPase), phosphorylase, lipids and glycogen. The pink and red muscles contain more glycogen and lipids and have a higher SDH activity, which is in accord with their aerobic metabolism and function in sustained swimming activity. The acid labile myosin ATPase activity characteristic of fast twitch fibres is present in the white fibres of most species, however in the white muscle of Gobius paganellus the enzyme activity is stable to both acid and alkali and, in addition, there is a scattered distribution of different fibre types in red and, especially, pink muscle. A study of seasonal variation patterns of myosin ATPase in white muscle of mugilidae over a period of two years has demonstrated, in late summer, the appearance of new small diameter fibres, with a high acid stable enzyme activity, that develop into the large diameter acid labile fibres.     

Relation between activity of antioxidants and oxidation of substrates in natural lipids

Using chemiluminescence method, the oxidation level of lipids extracted from various organs and tissues of fish Coregonus peled (Gmelin) was investigated. The analysis of interrelation between the oxidation level, quantity and composition of phospholipids (PL), fatty acids (FA), natural antioxidants (NAO) was carried out. The oxidation level of the lipids under investigation is shown to increase in series: first go internal fat lipids, then--lipids of brain, white muscles, immature eggs, red muscles, liver. The lipid oxidation level was found to correlate with the quantity of PL, fraction content of phosphatidylethanolamine and cardiolipin, and concentration of the sum of polyunsaturated FA with the index of (20:5 divided by 22:6). It is shown that there is a regularity in the process of distribution in lipids both the sum of natural inhibitors, and individual AO, such as tocopherol, ubiquinone, ubichromenol, the quantity of which increases in accordance with the rising oxidation level of lipid substrate.     

Jaw muscle fiber type distribution in Hawaiian gobioid stream fishes: histochemical correlations with feeding ecology and behavior

Differences in fiber type distribution in the axial muscles of Hawaiian gobioid stream fishes have previously been linked to differences in locomotor performance, behavior, and diet across species. Using ATPase assays, we examined fiber types of the jaw opening sternohyoideus muscle across five species, as well as fiber types of three jaw closing muscles (adductor mandibulae A1, A2, and A3). The jaw muscles of some species of Hawaiian stream gobies contained substantial red fiber components. Some jaw muscles always had greater proportions of white muscle fibers than other jaw muscles, independent of species. In addition, comparing across species, the dietary generalists (Awaous guamensis and Stenogobius hawaiiensis) had a lower proportion of white muscle fibers in all jaw muscles than the dietary specialists (Lentipes concolor, Sicyopterus stimpsoni, and Eleotris sandwicensis). Among Hawaiian stream gobies, generalist diets may favor a wider range of muscle performance, provided by a mix of white and red muscle fibers, than is typical of dietary specialists, which may have a higher proportion of fast-twitch white fibers in jaw muscles to help meet the demands of rapid predatory strikes or feeding in fast-flowing habitats.     

Red muscle proportions and enzyme activities in deep‐sea demersal fishes

Owing to the paucity of data on the red muscle of deep‐sea fishes, the goal of this study was to determine the proportions of red muscle in demersal fishes and its enzymatic activities to characterize how routine swimming abilities change with depths of occurrence. Cross sectional analysis of the trunk musculature was used to evaluate the proportion of red muscle in 38 species of Californian demersal fishes living at depths between 100 and 3000 m. The activity of metabolic enzymes was also assayed in a sub‐set of 18 species. Benthic fishes had lower proportions of red muscle and lower metabolic enzyme activities than benthopelagic species. Mean proportion of red muscle declined significantly with depth with the greatest range of values in shallow waters and species with low proportions found at all depths. This suggested that while sedentary species occur at all depths, the most active species occur in shallow waters. Citrate synthase activity declined significantly with depth across all species, indicating that the mass‐specific metabolic capacity of red muscle is lower in deep‐sea species. These patterns may be explained by coupling of red and white muscle physiologies, a decrease in physical energy of the environment with depth or by the prevalence of anguilliform body forms and swimming modes in deep‐living species.     

Parvalbumin in skeletal muscles of teleost (Tinca tinca L. and Misgurnus fossilis L.). Histochemical and immunohistochemical study.

Musculatures of two fish species belonging to the suborder Cyprinoidei were examined histochemically and immunohistochemically for demonstration of mATP-ase activity and parvalbumin content, respectively. The tench lateral musculature shows a typical "acid reversal" picture of mATP-ase activity--red fibres are alkali labile, acid stable and white and white fibres are alkali stable, acid labile. In the pond loach a superficial layer of musculature is composed of alkali--and acid stable red fibres. This alkaline stability of the red fibres caused the classical "acid reversal" picture impossible to obtain. For immunohistochemical reaction a monoclonal antibody specific for parvalbumin II component of the Carp muscles (Pv Carp II) was used. Immunohistochemical results gave evidence that lateral musculatures of the two species examined possessed parvalbumin II component entirely in the fast-contracting fibres--intermediate and white. This results correlate with mATP-ase activity in the tench musculature and did not correlate in the pond loach with respect to mATP-ase alkali stable red muscle fibres in the fish. We conclude that fish muscles mATP-ase activity not always correlates with parvalbumin content in the opposite to mammalian muscles where such correlation seems to be obvious.     

Comparative study of superoxide dismutase and glutathione peroxidase activity in embryos and skeletal muscles of adult fish

The activity of the antioxidant enzymes superoxide dismutase and glutathione peroxidase in loach and sturgeon embryogenesis as well as in red and white skeletal muscles of loach was studied. The specific activity of cytoplasmic and mitochondrial forms of superoxide dismutase in developing sturgeon embryos was higher than in loach embryos, which may be due to oxygen conditions under which these species develop in nature. A similar dependence was also observed for the activity of glutathione peroxidase in embryos of these fish species. A comparative study of specific superoxide dismutase activity in loach and sturgeon embryos and in loach skeletal muscles showed that the activity of cytoplasmic superoxide dismutase is maximum in red and white muscles and minimum in loach embryos, whereas the activity of the mitochondrial form of this enzyme is maximum in red skeletal muscles.     

Buffering capacity of vertebrate muscle: Correlations with potentials for anaerobic function

Summary Buffering capacities (), measured in slykes (moles of base required to titrate the pH of one gram wet weight of muscle by one pH unit, over the pH range of pH 6 to pH 7) due to non-bicarbonate buffers were measured in locomotory muscles from a variety of terrestrial and marine mammals and teleost fishes (Tables 1 and 2). The highest buffering capacities were found in muscles capable of either intense, burst glycolytic function or prolonged, low-level anaerobic function. Marine mammals had higher muscle buffering capacity on the average than terrestrial mammals. Among the fishes studied, warm-bodied species had the greatest values of all animals examined (Table 2). Deep-sea fishes and shallow-living fishes with sluggish locomotory abilities had low values. Fish white muscle displayed higher buffering capacity than red muscle (Fig. 1; Table 2), in keeping with the more aerobic poise and higher capillary density of the latter type of muscle. Strong correlations were found between (1) and muscle myoglobin concentrations in the mammalian species (Table 1; Fig. 2), and (2) and muscle lactate dehydrogenase (LDH) activities in both the mammals and the fishes (Tables 1 and 2; Fig. 3). No correlation was found between and the activity of a citric acid cycle indicator enzyme, citrate synthase, in the mammalian species. While strongly correlated with buffering capacity, the amounts of myoglobin and LDH in a muscle are not the principal determinants of . The results indicate that muscle intracellular buffering capacity is especially critical in locomotory muscles which must function under conditions (burst locomotion and prolonged, low-level anaerobic function) where circulatory perfusion is inadequate to rapidly remove the acidic end-products such as lactic acid that are produced by anaerobic glycolysis. In this respect, the locomotory muscle of diving mammals and the white skeletal muscles of teleost fishes face a common acid-base regulatory problem and utilize a common biochemical strategy to resolve it.     

Pentose phosphate pathway and nucleic acid metabolism in red and white muscles of fish

The activities of the pentose phosphate cycle enzymes, the content of nucleic acids and the activities of acid and alkaline RNAses in the heart and red and white muscles of cartilaginous and teleost fish were determined. It was found that the rates of the dehydrogenase and transferase reactions of the pentose phosphate pathway and the nucleic acid metabolism in the red muscles and heart are much higher than those in the white muscles of the species under study.     

Effect of acute streptozotocin diabetes on fatty acid content and composition in different lipid fractions of rat skeletal muscle.

The aim of the present study was to examine the effect of acute streptozotocin diabetes on long chain fatty acid content and composition in different lipid classes of particular muscle types in the rat. Two days after streptozotocin administration, rats were anesthetised, and the white and red sections of the gastrocnemius, the soleus and the blood were taken. Lipids were extracted with chloroform/methanol and separated into different fractions (phospholipids, free fatty acids, di- and triacylglycerols) by means of thin layer chromatography. Fatty acids of each fraction were identified and quantified by means of gas-liquid chromatography. The diabetes resulted in elevation of the concentration of blood glucose (over four-fold) and the plasma free fatty acid (over two-fold). Total free fatty acid content in the muscles of diabetic rats increased by 26% in the white, 24% in the red gastrocnemius and 21% in the soleus. There were also changes in the composition of that fraction in each muscle. Diacylglycerol fatty acid content was elevated in both parts of the gastrocnemius (the white part by 15%, the red part by 44%) and remained stable in the soleus of the diabetic rats. The content of triacylglycerol fatty acids was elevated only in the red gastrocnemius in the diabetic group (by 112%), but changes in fatty acid composition in this fraction occurred in each muscle. The content of phospholipid fatty acids was elevated in the white gastrocnemius (by 13%) and remained stable in other muscles. There were only minor changes in phospholipid fatty acid composition in the diabetic rats. We concluded that acute insulin deficiency changes fatty acid content and composition in skeletal muscle lipids. The changes depend both on lipid fraction and muscle type.     

31P NMR study of phosphorus metabolites in fast and slow muscles

1. 31P NMR was used to characterize phosphate pools in perchloric acid extracts of muscles with various composition of muscle fibre types. 2. The white m. pectoralis major (MPM) of chickens 15 min post mortem is characterized by 1.6-times higher relative content of phosphocreatine (PCr) in comparison with mixed leg muscle (LM) of this species. The glycerophosphorylcholine (GPC) does not occur in MPM at NMR detectable level in contrast to the leg muscles. Relative amounts of other phosphates are similar in both muscles. 3. The intermediate MPM of pigeons as well as mixed LM of this species contain 15 min post mortem a very small amount of PCr and ATP but a large amount of inorganic phosphate. Relative content of GPC is higher in leg muscles than in intermediate MPM. 4. Muscles with higher occurrence of white fibres contain relatively more PCr than muscles with lower occurrence of white fibres. 5. The occurrence of GPC seems to be connected with metabolism of red muscle fibres.     

Fatty acids in liver and muscle of farmed and wild sea bass (Dicentrarchus labrax L.)

Growth rate and assimilation of essential fatty acids were analysed in sea bass (Dicentrarchus labrax L.) fed different diets. Gas Chromatographie analyses of total lipids in commercial diets indicated excessive presence of saturated, mono and dienoic fatty acids, while the content of to 3 HUFA was very low. Fatty acid patterns of liver and white muscle farmed sea bass reflected the contents of the dietary lipids. The concentration of polyunsaturated fatty acids, particularly ω3 HUFA was significantly lower when compared with samples from the wild population. The atherogenic and fish lipid quality indices confirmed the higher nutritional quality of wild sea bass when compared with farmed fishes.