Decreased Glycogen Storage Research Articles

In utero exposure to di-(2-ethylhexyl) phthalate affects liver morphology and metabolism in post-natal CD-1 mice

The plasticizer di-(2-ethylhexyl)phthalate (DEHP) affects reproductive development, glycogen and lipid metabolism. Whereas liver is a main DEHP target in adult rodents, the potential impact on metabolic programming is unknown. Effects of in utero DEHP exposure on liver development were investigated upon treatment of pregnant CD-1 mice on gestational days (GD)11–19. F1 mice were examined at post-natal days 21 (weaning) and 35 (start of puberty): parameters included liver histopathological, immunocytochemical and α-fetoprotein (AFP) gene expression analyses. In utero DEHP exposure altered post-natal liver development in weanling mice causing significant, dose-related (i) increased hepatosteatosis, (ii) decreased glycogen storage, (iii) increased β-catenin intracytoplasmic localization (females only). At puberty, significantly decreased glycogen storage was still present in males. A treatment-induced phenotype was identified with lack of glycogen accumulation and intracytoplasmic localization of β-catenin which was associated with increased AFP gene expression. Our findings suggested that DEHP alters post-natal liver development delaying the programming of glycogen metabolism.

Effects of resistin expression on glucose metabolism and hepatic insulin resistance

In order to observe the effect of increased serum resistin on glucose metabolism, insulin sensitivity, and hepatic insulin resistance (IR), mice were intravenously injected with recombinant adenovirus carrying the resistin gene (Adv-resistin-EGFP). Changes in hepatic glucose metabolism were observed using the Periodic Acid-Schiff method. Hepatic AMP-activated protein kinase (AMPK) activation was assessed by Western blot analysis, and glucose-6-phosphatase (G6Pase) and phosphoenolpyruvate carboxykinase (PEPCK) mRNA expression was determined using real-time RT-PCR. Although no effect on fasting blood glucose was detected, increased fasting insulin levels, decreased glucose tolerance and insulin sensitivity, and reduced hepatic glycogen levels and AMPK activation were seen in the Adv-resistin-EGFP mice. Finally, elevated G6Pase and PEPCK mRNA expression levels were detected upon overexpression of resistin. Resistin may inhibit hepatic AMPK activity, which results in elevated expression of gluconeogenic enzymes thereby affecting glucose metabolism and leading to decreased glycogen storage that contributes to the development of hepatic IR.

Prevention of doxorubicin-induced cardiotoxicity by melatonin

Anthracyclines, such as doxorubicin and daunorubicin, are highly effective anticancer agents. Cardiotoxicity made by these agents develops as a complication of the cancer chemotherapy. Melatonin, the chief secretory product of the pineal gland, was recently found to be a free radical scavenger and antioxidant. We decided to evaluate the tissue-protective effect of melatonin against myocardial toxic effects of doxorubicin in six groups of rats. Rats were given doxorubicin (Dx) (45 mg/kg dose) and melatonin (MEL) (10 mg/kg), first doxorubicin and then melatonin (DM), first melatonin and then doxorubicin (MD). The degree of cardiac muscle cell alterations were examined either histologically (mean total score technique) or biochemically. In doxorubicin-treated group, malondialdehyde (MDA) levels of the heart tissue were significantly increased, glutathione (GSH) levels were decreased compared to the control rats. In the group in which first doxorubicin and then melatonin was given, MDA levels were significantly decreased and glutathione (GSH) levels were increased compared to the doxorubicin-treated group. During ultrastructural analysis, in doxorubicin-treated group, cellular edema, mitochondrial deformation, decreased glycogen stores, and disordered myofibrillary structure were observed. In contrast, in first doxorubicin and then melatonin-treated group, normal cellular structure was observed. But, first melatonin and then doxorubicin-treated group was not significantly preserved from the doxorubicin-induced changes. By preventing lipid peroxidation and myocardial lesions, melatonin may be highly effective in protecting against doxorubicin-induced cardiotoxicity.

Rats treated with oleoyl-oestrone maintain glucidic homeostasis: comparisons with a pair-fed model

To determine whether or not the weight (and fat) loss induced by oleoyl-oestrone treatment results only as a consequence of decreased food intake, we compared treated animals with a pair-fed model. To this end, Wistar female rats received daily oral gavages of 10 mumol/kg per d oleoyl-oestrone in sunflower oil, or vehicle alone for 10 or 20 d. A second group of rats received the gavage of sunflower oil and the same amount of food ingested as the oleoyl-oestrone-treated animals (pair-fed group). Rats treated with oleoyl-oestrone maintained glucidic metabolism homeostasis despite a marked decrease in adipose tissue weight (P<0.001). Pair-fed rats exhibited a different pattern, comparable to short-term starvation, with greatly decreased glycogen stores (P<0.0001). The most significant effects were detected in the 10 d period groups. Oleoyl-oestrone affected the activity of the ponderostat system not only by decreasing appetite but also by modifying energy partition: treated animals maintained their glucose and energy homeostasis despite decreased food intake and the massive depletion of lipid stores.

Development of a Porcine Model of Type 1 Diabetes by Total Pancreatectomy and Establishment of a Glucose Tolerance Evaluation Method

To develop and evaluate the efficacy of diabetes-targeted cell therapies in humans, a reliable model in larger animals is highly desirable. This article reports the surgical technique of total pancreatectomy in pigs and the biochemical analysis of the characteristics of totally pancreatectomized pigs. Surgical total pancreatectomy was conducted in 23 pigs. Blood glucose, insulin, biochemistries, activity index, and intravenous glucose tolerance test (IVGTT) were examined to assess the pathophysiological profiles of diabetic pigs. A total of 14 pigs successfully underwent total pancreatectomy without requiring biliary reconstruction and were analyzed in the present study. Activity index was decreased from day 5 on and the mean survival of totally pancreatectomized pigs was 7.6 +/- 2.7 days. No endogenous insulin secretion was confirmed in these pigs. Pigs which received total pancreatectomy demonstrated significantly higher levels of ketone bodies. IVGTT performed within 4 days after total pancreatectomy showed a spontaneous decrease in blood glucose levels despite an absence of endogenous insulin secretion. IVGTT on day 5 or later showed continued hyperglycemia in pigs with total pancreatectomy. Histological examination showed atrophy of hepatocytes and decreased glycogen storage in the liver and decreased mucus production of the small intestine. This article describes a porcine model of diabetes created by total pancreatectomy and it analyzes the pathophysiological profiles in the animals. The present study has suggested that IVGTT on day 5 or later after total pancreatectomy is a reliable method to evaluate the efficacy of cell therapies.

Clofibrate improves glucose tolerance in fat-fed rats but decreases hepatic glucose consumption capacity

Background/Aims: High-fat (HF) diets cause glucose intolerance. Fibrates improve glucose tolerance. We have tried to obtain information on possible hepatic mechanisms contributing to this effect. Methods: Rats were fed a HF diet, isocaloric with the control diet, for 3 weeks without or with clofibrate. Several parameters related to liver glucose and glycogen metabolism were measured. Results: Clofibrate prevented the induction of glucose intolerance by 3 weeks HF feeding. Improved glucose tolerance by clofibrate was not due to increases in glucose phosphorylation or glycolysis in the liver, since both the HF diet and clofibrate suppressed glucokinase and pyruvate kinase activities with no effect on glucose 6-phosphatase. Clofibrate decreased glycogen storage in both control and HF rats. Clofibrate, with and without HF feeding, inhibited weight gain during the experimental period. Body temperature was significantly elevated by clofibrate, indicative of an increased basal metabolic rate. The capacity of liver mitochondria to oxidize long-chain fatty acids increased by clofibrate treatment. Mitochondria did not show uncoupling. Conclusions: Clofibrate does not improve glucose tolerance by improving hepatic glucose or glycogen metabolism. Peripheral glucose oxidation may be facilitated by increased energy dissipation.

Methods for measuring glycogen cycling

Simultaneous synthesis and breakdown of glycogen is called glycogen cycling. The extent of hyperglycemia and decreased glycogen stores in diabetes mellitus may relate in part to the extent cycling occurs. Four methods have been introduced to estimate its extent in liver in humans. 1) In the fasted state, the rate of net hepatic glycogenolysis, i.e., glycogen breakdown minus synthesis, is estimated using NMR, and the rate of glycogenolysis is estimated from deuterium labeling of blood glucose on (2)H(2)O ingestion. 2) The rate of glycogen synthesis is estimated from the rate of labeling of carbon 1 of glycogen on [1-(13)C]glucose infusion, monitored by NMR, and the rate of breakdown from the rate of disappearance of that labeling on unlabeled glucose infusion. 3) The rate of synthesis from glucose-1-P, formed by glycogenolysis, is measured by the decrease in the (3)H/(14)C ratio in acetaminophen glucuronide on acetaminophen and [2-(3)H,6-(14)C]galactose administration. 4) The rate of synthesis is estimated from the dilution of label from labeled galactose in its conversion to the acetaminophen glucuronide, and the rate of glycogenolysis is estimated from the amount of label in blood glucose. In the first method, the fate of glucose-6-P is assumed to be only to glycogen and glucose. In the second, only glucose-6-P molecules formed by breakdown that are not cycled back to glycogen are measured. In the third, (3)H is assumed to be removed completely during cycling, and only the molecules cycled back to glycogen are measured. In the fourth, galactose conversion to glucose is assumed to be via glycogen. Quantitations in all four methods depend on assuming the order in which the molecules deposited in glycogen are released.

Inter-relationships between renal metabolism (both in physiology and renal dysfunction) and the liver.

Recently, evaluation of organ-specific glucose release showed that renal glucose release is of the same order of magnitude as splanchnic glucose release during the postabsorptive period. Moreover, renal glucose release appeared to be more sensitive to hormone action than did hepatic glucose release, and appeared to have a pre-eminent role during the adaptation to various physiological and pathological conditions. The kidney is now recognized as playing a key role in interorgan glucose metabolism, and particularly in the Cori cycle and glutamine-glucose cycle. During chronic renal failure the suppression of renal glucose release, together with impaired hormone action, decreased glycogen storage and abnormal liver gluconeogenesis, are responsible for an increased risk for hypoglycaemia.

Differential response of rat skeletal muscle glycogen metabolism to testosterone and estradiol

Although reports on sex steroids have implicated them as promoting protein synthesis and also providing extra strength to the skeletal muscle, it remains unclear whether sex steroids affect glycogen metabolism to provide energy for skeletal muscle functions, since glycogen metabolism is one of the pathways that provides energy for the skeletal muscle contraction and relaxation cycle. The purpose of the current study was to show that testosterone and estradiol act differentially on skeletal muscles from different regions, differentially with reference to glycogen metabolism. To study this hypothesis, healthy mature male Wistar rats (90-120 days of age, weighing about 180-200 g) were castrated (a bilateral orchidectomy was performed to test the significance of skeletal muscle glycogen metabolism in the absence of testosterone). One group of castrated rats was supplemented with testosterone (100 microg/100 g body weight, i.m., for 30 days from day 31 postcastration onwards). To test whether estradiol has any effect on male skeletal muscle glycogen metabolism 17beta-estradiol (5 microg/100 g body weight, i.m., for 30 days from day 31 postcastration onwards) was administered to orchidectomized rats. To test whether these sex steroids have any differential effect on skeletal muscles from different regions, skeletal muscles from the temporal region (temporalis), muscle of mastication (masseter), forearm muscle (triceps and biceps), thigh muscle (vastus lateralis and gracilis), and calf muscle (gastrocnemius and soleus) were considered. Castration enhanced blood glucose levels and decreased glycogen stores in skeletal muscle from head, jaw, forearm, thigh, and leg regions. This was accompanied by diminished activity of glycogen synthetase and enhanced activity of muscle phosphorylase. Following testosterone supplementation to castrated rats, a normal pattern of all these parameters was maintained. Estradiol administration to castrated rats did not bring about any significant alteration in any of the parameters. The data obtained suggest a stimulatory effect of testosterone on skeletal muscle glycogenesis and an inhibitory effect on glycogenolysis. Estradiol did not play any significant role in the skeletal muscle glycogen metabolism of male rats.

Circulatory, respiratory and metabolic response to emersion and low temperature of Jasus edwardsii: simulation studies of commercial shipping methods

The Southern Rock Lobster Jasus edwardsii is a commercial species. The respiratory and metabolic response of J. edwardsii during simulated commercial handling was investigated. Lobsters were dipped in 5°C seawater for 2 min and exposed to air for up to 30 h in shipping cases containing ice (chilled), or packed without chilling. Controls were immersed at 18°C. Chilling ameliorated tachycardia and hyperventilation caused by the packing process. Non-chilled J. edwardsii accumulate an O 2 deficit but chilling lobsters delayed anaerobiosis for up to a day. Haemolymph urate accumulated only in non-chilled lobsters, indicative of a rapid tissue hypoxia. The muscle ATP concentration of J. edwardsii in air decreased, regardless of chilling, with a corresponding loss of energy charge. A hyperglycaemia in emersed J. edwardsii was accompanied by decreased glycogen stores in chilled lobsters. The low IMP concentration in chilled J. edwardsii shows that 30-h emersion stress probably does not compromise taste and value of the lobsters. Chilling extends shipping time and distance, so after 10 or 30 h in transit, the lobsters are largely aerobic. When the chilled lobsters reach their destination after 30 h, accumulated IMP and inosine, and decreased glycogen, may have a significant effect on taste. Recovery is important before cooking if a fresh flavour is desired.

INTENSIVE BICYCLE TRAINING-RELATED OVERTRAINING INLESS EXPERIENCED ATHLETES936

Since we failed to induce an overtraining syndrome in distance runners by 150%*4wks-1 increase in intens. training (ratio ext./intens. training:5.8,3.2,3.1,2.7, wk 1 - 4), we tried it again in 6 less experienced athletes (26.1±1 ys; VO2max 51.5±4.5 ml) by 6 wk bic.erg.training (average ext./ intens.train.ratio:0.17). Results: During graded exercise, performance was increased in wk 3 (+36%) at 2 mmol lactate(P2), decreased in wk 6 (-9% vs wk 3), and after 2 wks of recovery (-11% vs wk 3); P4 was increased in wk 3 (+8%, stagnated in wk 6, and after recovery; total work (summed time*watt) was increased in wk 3 (+8%), stagnated in wk 6, and decreased after recovery (-8% vs baseline). Since glucose-exercise curce in wk 6, after recovery, and glucose response to iv-noradrenaline were suppressed, P2, P4 may have been overestimated (decreased glycogen stores). Suppressed performance and neuromusc. excitab., lack of supercompensation, may indicate an early overtraining stage. The only significant haemotological or blood-chemical change was a decrease in ferritin (-26% in wk 6, -67% vs baseline after recovery). Conclusion: Less adapted athletes may be at risk to get overtrained during monotonous, intensive, non-cyclic training of more than 3 wks with ext./intens.train.ratio << 1. Haematological, blood-chemical parameters, or basal catechol.excr. were not suitable to monitore such a training at a daily caloric demand of 2815±647kcal.

Ultrastructural alterations in liver of medaka (Oryzias latipes) exposed to diethylnitrosamine.

Liver cytotoxic alterations of adult medaka (Oryzias latipes) following short-term bath exposure (48 hr) to 500 mg/L diethylnitrosamine (DEN) were studied (days 3-21) by electron microscopy and cytochemistry. Control medaka displayed hepatic sexual dimorphism as described for other sexually active fish. Following DEN exposure, decreased glycogen stores with loss of cellular compartmentation obscured sexual dimorphism. A spectrum of organelle alterations, previously not reported in livers of fish, was seen. Early changes in hepatocytes included: nuclear lipid inclusions, nucleolar changes, decreased amounts of granular endoplasmic reticulum (GER), increased fractionation and steatosis of GER, proliferation of smooth ER and lysosomes, reduction in number and content of particulate lipoproteins and vitellogenin in Golgi vesicles, and reduction in number and staining intensity of peroxisomes. At day 14 and/or 21, partial to complete reversal of the above alterations indicated hepatic recovery, and fewer necrotic cells were seen at day 21 versus day 14. Lesions that did not resolve during this study were altered mitochondria and areas of spongiosis hepatis that developed at day 8 and continued to increase throughout the study. Infiltration of lymphocytes, granulocytes, and large numbers of macrophages were late changes. The description, timing, and duration of lesions are of value for consideration as biomarkers of exposure and effect in aquatic toxicology.

Glycolytic and tricarboxylic acid cycle intermediates in dog livers during endotoxic shock

The effects of endotoxin administration on glycolytic and tricarboxylic acid cycle intermediates in dog livers were studied. Changes in metabolite concentrations were expressed graphically as percentages of controls using “crossover” plots in order to identify transitory rate-controlling steps. The results show that endotoxin administration increased glycolytic flux through pyruvate kinase, inhibited gluconeogenic flux through phosphoenolpyruvate carboxykinase, decreased glycogen storage, shifted cytosolic and mitochondrial redox state from a relatively oxidized to a more reduced state, decreased the extra- and intramitochondrial malate-aspartate and glutamate-α-ketoglutarate shuttle activities, depleted ATP, ADP, and NADP concentrations, and decreased energy charge. Based on these data, it is concluded that pyruvate kinase plays the major role in the control of glycolysis, while phosphoenolpyruvate carboxykinase is the major controlling step for the regulation of gluconeogenesis in dog livers during endotoxic shock. In addition, the major factor in the regulation of metabolic pathways that produce and utilize high-energy phosphates in the livers was impaired in endotoxic shock.

The Effect of Adjuvant Disease on Serum Amylase in the Rat

A useful model of inflammation which approximates rheumatoid arthritis in man is adjuvant induced polyarthritis in the rat. This debilitating systemic disease, first described by Stoerck (1) and by Pearson (2) is provoked by a single injection of a mixture composed of heat killed mycobacteria in liquid paraffin. In addition to the pathologic changes of the skeletal and connective tissues, it is well documented that rats with adjuvant disease also suffer aberrant liver function. Included are decreased glycogen storage (3), derangement in various enzymic capacities to metabolize drugs (4, 5), decreased albumin-mercaptalbumin synthesis (6-8), and enhanced synthesis of alpha-macroglobu-lins and fibrinogen (9).Since it is generally held that the liver is an important regulatory organ for serum amylase, we thought it would be of interest to study the effect of adjuvant disease on this enzyme.Materials and Methods. Male Charles River, Lewis strain rats weighing 150 g at the start were used. Heat killed mycobac-t...