Formation of partially phosphorylated phosphorylase in isoproterenol stimulated rat hearts

Summary Phosphorylase ab hybrid was demonstrated in perfused rat hearts and during the in vitro conversion of purified rat heart phosphorylase b. Phosphorylase ab hybrid was determined in rat heart extracts by the activating effect of AMP in the presence of caffeine. These results were confirmed by the quantitative determination of incorporated ³²P in vitro and through the characteristic inhibition of ab hybrid by glucose-6-phosphate.As shown by our results, in aerobically perfused control hearts only the ab hybrid represents the active form of phosphorylase, its activity reaching about 20% of the total. In response to isoproterenol (5–1000 ng), the amount of ab hybrid rose to about 30–40%, preceding the rise of the a form, which increased in a dose-dependent manner up to 45% of the total.The great sensitivity of the ab form to AMP activation and glucose-6-phosphate inhibition supports its physiological significance in heart under in vivo conditions as well. Our results strongly suggest that the activity ratio -AMP/+AMP reflects rather the percentage ratio of phosphorylated subunits than that of the activated (partially or totally phosphorylated) phosphorylase molecules.     

An unusual ultrastructural association of smooth membranes and glycogen particles: The glycogen body

Summary An electron microscope study of the epithelium of rabbit fallopian tube demonstrated a rarely described intracytoplasmic structure consisting of an array of smooth membranes associated with glycogen particles. This organelle is seen exclusively in the ciliated cells. A three-dimensional reconstruction of these glycogen bodies has been made from serial sections. The peripheral localization of the rough-surfaced membranes in continuity with intra-corpuscular smooth membranes, which have lost their granules, suggests a possible role for the rough membranes in the genesis of the smooth membranes of these glycogen bodies. The role of both the smooth and the rough membranes in glycogenesis and glycogenolysis is discussed.This investigation was made in part in the Laboratoire d'Hormonologie et de Cytologie Expérimentale, Hôpital Broca, Paris.     

不同发育年龄大鼠肝细胞及其溶酶体对急性低氧的应答

人工低压舱内模拟高原低氧24h,并与2300m对照组比较,观察不同发育年龄大鼠SGOT活力,肝溶酶体总酸性磷酸酶、非沉淀酸性磷酸酶和芳基硫酸酯酶活力及肝重、肝细胞糖原、蛋白和总脂含量的变化。在海拔5000m高度,10天鼠各酶活力、570天鼠总酸性磷酸酶和芳基硫酸酯酶活力明显升高;35和75天鼠各酶活力未见显著变化;在海拔8000m高度,各年龄组鼠上述各酶活力均显著升高。随着海拔高度的升高,各组大鼠肝重呈不同程度的下降,肝细胞糖原含量非常明显地减少,35和75天鼠8000m组全肝蛋白含量下降明显,10、35、75天鼠肝细胞总脂累积。上述结果综合分析表明:低氧致使大鼠肝细胞损伤属一普遍性效应,新生期和老年期大鼠肝细胞耐低氧能力不及幼年期和成年期大鼠。     

Anaerobic energy metabolism in the oligochaeteLumbriculus variegatus Müller

Summary Anoxia tolerance, glycogen degradation, free amino acid pool, adenylate energy charge and the accumulation and excretion of end products were monitored inLumbriculus variegatus Müller throughout 48 h of anoxia. A transition period lasting about 4 h could be distinguished from subsequent events during which malate, present in high amounts in the resting animals, is utilized, probably by conversion to succinate. Up to the 12th hour of anoxia there is an increase in concentration of free amino acids, except aspartate. Glutamate increases rapidly during the first half hour but decreases thereafter. Beginning with the second hour of anoxia the alanine concentration increases at the same rate glutamate concentration decreases, but the source of nitrogen during the first hour is unknown. It is argued that the nitrogen required for the synthesis of some of the amino acids is ultimately derived from proteolysis. After about 3 h of anoxia propionate and acetate are synthesized. At first these acids accumulate in the tissues, but after 4–6 h they are excreted into the surrounding medium. Acetate is excreted over the whole experimental period at a constant rate, whereas the excretion rate of propionate decreases slowly with time. The propionate/acetate ratio is in excess of 2. Classic malate dismutation is by far the most important mechanism in the maintenance of redox balance. Depletion of glycogen stores appears to play an important role in determining anoxic survival time. Due to extremely low activity of PEPCK the ratio of the specific activities of PK and PEPCK is very high. Further, the kinetic properties of pyruvate kinase do not support the assumption of a shift of the glycolytic carbon flow at the PEP level.Abbreviations PK Pyruvate kinase - PEPCK phosphoenolpyruvate carboxykinase - PEP phospho(enol)pyruvate - FBP fructose-1,6-bisphosphate - AEC adenylate energy charge - EMP-scheme Embden-Meyerhof-Parnas scheme of glycolysis - f _w fresh body weight - dw dry body weight     

猴头菇对小鼠抗疲劳作用的实验研究

分别以猴头菇干粉（猴头菇Ⅰ组）和猴头菇浸出液（猴头菇Ⅱ组）饲喂小鼠,观察猴头菇对小鼠血清乳酸脱氢酶（ＬＤＨ）活力、血乳酸、血清尿素氮（ＢＵＮ）、肝糖原、肌糖原含量及运动耐力的影响。结果表明：实验６０ｄ后,猴头菇Ⅰ、Ⅱ组ＬＤＨ活力、肝糖原及肌糖原含量明显高于对照组（Ｐ＜０．０５或Ｐ＜０．０１）;运动后血乳酸的水平和ＢＵＮ的增量明显低于对照组（Ｐ＜０．０５或Ｐ＜０．０１）;运动后血乳酸消除速率显著高于对照组（Ｐ＜０．０５）;在运动耐力测定时在水中淹死的时间比对照组长得多（Ｐ＜０．０５）。提示：猴头菇具有明显的增强运动能力和解除疲劳的作用。     

Crucial role of intracellular effectors on glycogenolysis in the isolated rat heart: Potential consequences on the myocardial tolerance to ischemia

The role played by glycogenolysis in the ischemic heart has been recently put into question because it is suspected that a slowing down of this process could be beneficial for the tolerance of the myocardium to ischemia. The role of the intracellular effectors that control the rate of glycogenolysis has therefore regained interest. We aimed to understand the role played by those intracellular effectors which are directly related to the energy balance of the heart. To this end, we review some of the previously published data on this subject and we present new data obtained from P-31 and C-13 NMR spectroscopic measurement on isolated rat heart. Two conditions of ischemia were studied: 15 min global no-flow and 25 min low-flow ischemia. The hearts were isolated either from control animals or from rats pre-treated with isoproterenol (5 mg.kg^–1 b.w. i.p.) 1 h before the perfusion in order to C-13 label glycogen stores. Our main results are as follows: (1) the biochemically determined glycogenolysis rate during the early phase of ischemia (up to 10–15 min) was larger in no-flow ischemia than in low-flow conditions for both groups, (2) direct measurement of the glycogenolysis rate, as determined by C-13 NMR, after labelling of the glycogen pool in the hearts from isoproterenol-treated rats, confirms the estimations from the biochemical data, (3) glycogenolysis was slower in the hearts from pre-treated animals than in control hearts for both conditions of ischemia, (4) the total activity of glycogen phosphorylase (a + b) increased, by 50%, after 5 min no-flow ischemia, whereas it decreased by 42% after the same time of low-flow ischemia. However, the ratio phosphorylase a/a + b was not altered, whatever the conditions, (5) the concentration of inorganic phosphate (Pi) increased sharply during the first minutes of ischemia, to values above 8–10 mM, under all conditions studied. The rate of increase was larger during no-flow ischemia than during low-flow ischemia. The concentration of Pi was thereafter higher in controls than in the hearts from isoproterenol-treated animals.The calculated cytosolic concentration of free 5 AMP increased sharply at the onset of ischemia, reaching in a few minutes values above 30 M in controls and significantly lower values, around 15 M, in the hearts from isoproterenol-treated rats. (6) The hearts from isoproterenol-treated rats displayed a reduced intracellular acidosis, when compared to controls, under both conditions of ischemia.We conclude that the intracellular effectors, mainly free AMP, play an essential role in the control of glycogenolysis via allosteric control of phosphorylase b activity. The alteration in the concentration of free Pi, the substrate of both forms of phosphorylase, can also be considered as determinant in the control of the rate of glycogenolysis.The attenuation of ischemia-induced intracellular acidosis in the hearts from isoproterenol-treated rats could be a consequence of a reduced glycogenolytic rate and is likely to be related to a better resumption of the mechanical function on reperfusion.     

Energy metabolism of Chironomus anthracinus (Diptera: Chironomidae) from the profundal zone of Lake Esrom,Denmark, as a function of body size,temperature and oxygen concentration

The profundal zone of Lake Esrom, Denmark has a dense population of Chironomus anthracinus, which survives 2–4 months of oxygen depletion each summer during stratification. The metabolism of 3rd and 4th instar larvae was examined in regard to variation in biomass and temperature. Respiration at air saturation was described by a curvilinear multiple regression relating oxygen consumption to individual AFDW and temperature. At 10 °C and varying oxygen regimes the O₂ consumption and CO₂ production of 4th instar larvae were almost unaltered from saturation to about 3 mg O₂ l^–1, but decreased steeply below this level. The respiratory quotient increased from 0.82 at saturation to about 3.4 at oxygen concentrations near 0.5 mg O₂ l^–1. This implied a shift from aerobic to partially anaerobic metabolism. At 0.5 mg O₂ l^–1 the total energy production equalled 20% of the rate at saturation of which more than one third was accounted for by anaerobic degradation of glycogen. This corresponded to a daily loss of 12 µg mg AFDW^–1 or approximately 5% of the body reserves. At unchanged metabolic rate the glycogen store would last three weeks, but long term oxygen deficiency causes a further suppression of the energy metabolism in C. anthracinus.     

Protein Kinase FA/Glycogen Synthase Kinase-3 Predominantly Phosphorylates the In Vivo Site Thr97-Pro in Brain Myelin Basic Protein: Evidence for Thr-Pro and Ser-Arg-X-X-Ser as Consensus Sequence Motifs

Abstract: In a previous study, protein kinase F_A/glycogen synthase kinase-3 ( F_A/GSK-3 ) was identified as a myelin basic protein (MBP) kinase associated with intact brain myelin. In this report, the phosphorylation sites of MBP by kinase F_A/GSk-3 were further determined by two-dimensional electrophoresis/TLC, phosphoamino acid analysis, tryptic peptide mapping, Edman degradation, and direct sequencing. Kinase F_A/GSK-3 phosphorylates MBP on both threonine and serine residues. Three tryptic phosphopeptide peaks were resolved by C₁₈ reverse-phase HPLC. Sequential manual Edman degradation together with direct sequence analysis revealed that T(p)PPPSQGK is the phosphorylation site sequence for the first major phosphopeptide peak. When mapping with the bovine brain MBP sequence, we finally demonstrate Thr⁹⁷-Pro, one of the in vivo phosphorylation sites in MBP, as the major site phosphorylated by kinase F_A/GSK-3, implicating a physiologically relevant role of F_A/GSK-3 in the regulation of brain myelin function. By using the same approach, we also identified NIVT⁹⁴(p)PR as the phosphorylation site sequence in the second major tryptic phosphopeptide derived from [³²P]MBP phosphorylated by kinase F_A/GSK-3, further indicating that kinase F_A/GSK-3 represents a Thr-Pro motif-directed MBP kinase involved in the phosphorylation of brain myelin.     

Identification and Characterization of Protein Kinase FA/ Glycogen Synthase Kinase 3 in Clathrin-Coated Brain Vesicles

Abstract: Mg-ATP-dependent protein phosphatase activating factor [kinase F_A/glycogen synthase kinase 3 (GSK-3)] has been identified in highly purified clathrin-coated vesicles (CCVs) isolated from pig brain. Kinase F_A was found to exist in an inactive state but can be activated by 1% Triton X-100 or [ M /Tris-HC] extraction in brain CCVs. Activation of kinase F_A in CCVs is due to disassociation of the kinase from CCVs as demonstrated on sucrose density-gradient ultracentrifugation and Sepharose CL-4B gel filtration. Using purified brain CCVs as substrates, kinase F_A enhanced the endogenous phosphorylation of assembly protein complexes in the molecular weight range of 100,000-130,000 severalfold, as demonstrated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by autoradiography. Comparisons with well-defined brain CCV-associated endogenous protein kinases such as pp50 kinase/AP50 and casein kinase 2 provide evidence that kinase F_A/GSK-3 represents a third potent and unique CCV-associated protein kinase distinctly different from the previously described CCV protein kinases, suggesting the possible involvement of kinase FA in the regulation of CCV functions in the brain. The results also support the notion that protein kinase F_A is involved in cell surface signal transduction in the CNS.     

Effects of substrate branching characteristics on kinetics of enzymatic depolymerization of mixed linear and branched polysaccharides: II. Amylose/glycogen alpha-amylolysis

Enzymatic depolymerization of polysaccharides with alpha-amylase has been studied in mixed aqueous dimethylsulfoxide (DMSO)/water solvents. Polysaccharide substrate chemical compositions, configurational structures, and bonding pattersn are known to affect observed enzymatic reaction kinetics. The branching structures of polysaccharides and their effects on the kinetic mechanisms of depolymerization reactions via endo-acting hydrolyzing enzyme was studied via size exclusion chromatography coupled to low angle laser light scattering (SEC/LALLS). The glycogen branching structure is a heterogeneously distributed "cluster" structure rather than a homogeneously distributed "treelike" structure. The action pattern of alpha-amylase on glycogen, which is composed of highly branched clusters, as end-products, has a "pseudo-exo-attack" in contrast to an expected "endoattack" as seen in the hydrolysis of amylose or amylopectin substrates. These effects of branched substrates for mixed amylose/glycogen alpha-amylolysis have been predicted and demonstrated by both experimental and theoretical analysis using the kinetic model presented in this report. The "lumped" kinetic model employed, assumes that the enzyme simultaneously attacks both linear and branched substrates. In general, excellent agreement between the model predictions and the experimental observations, both qualitatively and quantitatively, was obtained. (c) 1995 John Wiley & Sons, Inc.