Effects of methylpalmoxirate on isolated rat atria.

The aim of the investigation was to assess whether endogenous triacylglycerol contributes to the maintenance of the contractile and pacemaker activities of the isolated atria from fed and fasted rats. To attain this information, the atria were treated with methylpalmoxirate which is a potent inhibitor of carnitine palmitoyltransferase I. In the presence of glucose, methylpalmoxirate abolished the lipolysis without affecting peak developed tension or the atrial rate. When exposed to a substrate-free medium containing 2-deoxyglucose, the atria displayed a progressive fall of the pacemaker frequency, a pronounced decay of contractile strength and the appearance of contracture. These derangements appeared faster in the atria from fed rats coinciding with a smaller triacylglycerol mobilization. Methylpalmoxirate suppressed triacylglycerol breakdown, increased the contracture strength, accelerated the fall of the atrial rate and in a significant number of fasted atria it led to a complete cessation of the spontaneous contractions. The decline of the peak tension was not altered by the inhibitor, probably because the contractile strength was too weak in the glucose-free medium, so that additional negative inotropic effects were not detectable. These data suggest that exogenous glucose in addition to that derived from glycogen meet the atrial energy requirements when the fatty acid oxidation is hindered. The deleterious effects exerted by methylpalmoxirate after the glucose metabolism was eliminated indicate that endogenous triacylglycerol supports, at least partly, the atrial functions.     

The effects of 4-pentenoic and pentanoic acids on the isolated rat atria

The peak developed tension and the pacemaker frequency of the isolated atria from fed and fasted rats, declined progressively during the incubation in a glucose-free medium containing 2-deoxyglucose. The atria from fed rats exhibited a faster decline than those from fasted rats, which was associated to a slower triacylglycerol lipolysis. 4-Pentenoic acid inhibited the lipolysis of both groups of atria but did not alter the atrial contractile performance. However, it enhanced the decline of the pacemaker frequency in the atria from fasted rats whereas, in contrast, it alleviated the decline in the fed atria. n-Pentanoic acid ameliorated the impairment of the contractile and pacemaker activities in both groups of atria, without affecting the lipolysis. It was concluded that, since the inhibition of the intramyocardial lipolysis did not correlate with changes of the atrial functions, 4-pentenoic acid was not appropriate to assess about the contribution of endogenous triacylglycerol to the maintenance of the atrial contractile and pacemaker activities.     

Effects of 2-deoxy-D-glucose on the contraction frequency of the isolated atria from fed and fasted rats.

The mere exogenous substrate removal did not change the contraction frequency of the isolated rat atria. However, addition of 2-deoxy-D-glucose together with the glucose removal, elicited a decrease in the atrial frequency. This decrease was significantly greater in the atria from fed rats with respect to those from fasted rats. Near the end of the experiments, only in the atria from fed rats, transient irregular beating appeared. The results suggest that triglycerides constitute the major endogenous substrate of the sinus node pacemaker cells when rats have been previously fasted and that these cells have metabolic features similar to those of contractile fibres.     

Effects of hypoxic preconditioning on the hypoxicreoxygenated atria from fed and fasted rats

Hypoxic preconditioning (PC) was studied using rat atria set up isometrically in 10 mM dextrose medium and paced at 1 Hz, applying three different protocols wherein fed and 24-h fasted rats were used in protocols 1 and 2 and only the fed in protocol 3. In protocol 1, PC was achieved applying a 5 min hypoxia followed by 10 min of reoxygenation before the onset of a 60 min hypoxia and 60 min reoxygenation. In protocol 2 the 5 min and a posterior 45 min hypoxia were applied in the absence of dextrose whereas in the 10 min and 60 min reoxygenation periods dextrose was present. In protocol 3, two cycles of 5 min dextrose-free hypoxic periods were applied before the sustained hypoxia (dextrose-free) and reoxygenation periods (10 min and final 45 min, both in the presence of dextrose). In the control groups of all protocols, the equilibration periods were prolonged to compensate the duration of PC. In the control groups of protocols 1 and 2, the sustained hypoxia evoked greater disturbances of contractility and a smaller post-hypoxic recovery in the fasted than in the fed rat atria. In protocol 1, PC markedly reduced the rise in resting tension and improved the post-hypoxic recovery in the fasted rat atria whereas in the fed rat atria protective effects were small and brief. In protocol 2, PC evoked a small reduction of contracture only in the atria from fasted rats and in protocol 3, PC exacerbated the hypoxic disturbances. These data suggest that PC effects depend both on the severity of the PC stress and the sustained hypoxia; and that PC does not require coronary flow.     

The effects of 4-pentenoic and pentanoic acid on the hypoxic rat atria

When exposed to hypoxia, the isolated rat atria released lactate into the bathing medium and underwent a rise in resting tension and a decline of the contractions frequency. In some of them, it also occurred a complete cessation of the pacemaker activity. Atria from 24-h fasted rats, when compared to those from fed ones, exhibited a lower lactate output, a higher rise in resting tension, a faster decay of the contraction frequency and an increased occurrence of atrial arrest. In both the fed and fasted rats atria, some triacylglycerol lipolysis remained throughout the hypoxic incubation. Addition of 2 mM 4-pentenoic acid abolished the lipolytic activity and reduced lactate output in both groups of atria. In the fed rats atria it also accelerated the decrease of the pacemaker frequency. Pentanoic acid reduced lactate output in both groups of atria and in those from fed rats it did not alter lipolysis but increased the rise in resting tension, the decline of the pacemaker frequency and the occurrence of atrial arrest. Present data indicate that although 4-pentenoic acid inhibits fatty acid oxidation and endogenous lipolysis, it was not able to reduce the noxious effects of hypoxia. Since the effects of 4-pentenoic acid were rather similar to those of fasting and pentanoic acid, they might be ascribed to the accumulation of its own oxidative metabolites which could be detrimental for the hypoxic atria.     

Effect of sodium fluoride on cyclic AMP production in rat hepatocytes.

The effect of NaF on cAMP production was studied in hepatocytes isolated from fed and fasted rats. A four-six fold increase in hepatocyte cAMP production was observed in the presence of 10-20 mM NaF in cells isolated from either fed or fasted rats. The maximal stimulation of cAMP production was observed after a 10 min incubation in the presence of 1 mM theophylline. However, as little as 0.05-0.15 mM NaF induced a significant increase in cAMP production. It was also found that NaF would alter the production of glucose in isolated rat hepatocytes. When hepatocytes from fed rats were incubated with 0.05-5 mM NaF there was an increase in amount of glucose released from endogenous sources. Also NaF resulted in a decrease in lactate and pyruvate production. Similarly NaF stimulated glucose production in hepatocytes from fasted rats. The maximal stimulation was observed with about 0.15-0.25 mM NaF. At NaF concentrations greater than 1.5 mM a decrease in glucose production was observed. It is concluded that NaF increases the level of cAMP and alters glucose metabolism in intact hepatocytes.     

Effects of methyl palmoxirate on hypoxic rat atria.

Isolated rat atria in hypoxia released lactate into the bathing medium and underwent a decline of the contraction frequency which, in some cases led to a complete cessation of the pacemaker activity. A pronounced fall in the peak developed tension and a rise in the resting tension also appeared. The atria from 24 h fasted rats, which oxidize faster their reserve lipids than those from fed rats, exhibited greater functional disturbances during hypoxia, a lower lactate output and a smaller recovery of peak tension upon reoxygenation. Methyl palmoxirate, which is a selective inhibitor of carnitine palmitoyltransferase I, attenuated the decline of the beating rate and the rise of the resting tension in both groups of rats and the incidence of atrial arrest in the fasted rat group. The fall in the peak tension, lactate output and recovery upon reoxygenation were not altered by the inhibitor. These data indicate that methyl palmoxirate alleviates some of the hypoxic functional derangements. Hence, it may be inferred that inhibiting the oxidation of the fatty acid derived from the endogenous triacylglycerol is beneficial during oxygen-limited conditions and that these effects could not be ascribed to changes in the glycolytic flux.     

Expression of capacitation-dependent changes in chlortetracycline fluorescence patterns in mouse spermatozoa requires a suitable glycolysable substrate

Chlortetracycline (CTC) fluorescence patterns were assessed in epididymal mouse sperm suspensions capacitated in exogenous substrate-containing and substrate-free media. A capacitation-dependent transition from a majority of acrosome-intact cells expressing the uncapacitated F pattern of fluorescence to a majority with the capacitated acrosome-intact B and acrosome-reacted AR patterns was confirmed for suspensions incubated a total of 120 min in the presence of a glycolysable substrate, glucose. In contrast, assessment of spermatozoa incubated for 120 min in substrate-free medium revealed a majority of cells with the uncapacitated F pattern, despite an earlier demonstration that such cells are essentially capacitated: upon the introduction of glucose, suspensions are immediately highly fertile. When a suitable glycolysable substrate, either glucose or mannose but not fructose, was added to such suspensions, the distribution of CTC patterns changed within 10 min to a majority of B and AR patterns. Furthermore, the degree of change from uncapacitated to capacitated patterns was substrate concentration-dependent. In contrast, the introduction of the non-metabolizable substrates 2-deoxyglucose and 3-0-methylglucose and the oxidizable substrates sodium pyruvate and sodium lactate caused no change in the patterns from those seen in substrate-free medium. The in-vitro fertilizing ability of sperm suspensions to which increasing amounts of glucose or mannose were added, after initial substrate-free preincubation, directly paralleled the changes in CTC patterns and was as rapid as for suspensions incubated continuously in either hexose. We therefore conclude that the alteration in position of surface components to which CTC binds is not only capacitation-dependent, but also energy-dependent. In the absence of an appropriate exogenous glycolysable substrate, the final transition cannot occur, even though the cells are essentially capacitated.     

Secretion and uptake of nascent hepatic very low density lipoprotein by perfused livers from fed and fasted rats

Livers from fed or 24-hr fasted male rats were perfused in a recycling system. VLDL labeled with [1-14C]oleate (95% in triglyceride), produced in separate perfusions of livers from fed rats, was added to the medium as a pulse. Uptake of VLDL 14C-labeled triglyceride by livers from fasted rats was less than that from fed rats regardless of addition of oleate. During the interval in which radioactive triglyceride was taken up, the mass of triglyceride in the medium increased, indicative of the synthesis and net secretion of triglycerides. The rates of secretion of VLDL and uptake of VLDL were both more rapid in livers from fed rats in comparison to those from fasted animals. It was calculated that about 50% of the triglyceride synthesized and secreted by the liver was taken back by livers from fed rats. The VLDL from livers of fasted rats did not contain any apoE detectable by SDS gel electrophoresis or by radioimmunoassay when no fatty acid or 166 mumol of oleic acid was infused. In contrast, apoE comprised 6% of the VLDL apoprotein derived from perfusion of livers from fed animals in the absence of added fatty acid, and 20% when the fed livers were infused with 166 mumol of oleic acid. However, the net output (accumulation) of apoE by fasted liver was only two-thirds that from fed livers. When lipoprotein-free rat plasma containing apoE (4 mg/dl) was used in place of bovine serum albumin, the VLDL secreted by livers from either fed or fasted rats contained apoE and was taken up to a similar extent by such livers. These data suggested that the apoE of the d greater than 1.21 g/ml fraction was transferred to newly secreted VLDL which then stimulated uptake of the VLDL by livers from fasted rats. With further stimulation of secretion of VLDL triglyceride by infusion of 332 mumol of oleic acid/hr, the percent of apoE in the VLDL secreted by livers from fasted rats increased to 20%, which was similar to that of the VLDL produced by livers from fed rats when either 166 or 332 mumol/hr was infused. These data suggest a relationship between rates of hepatic secretion of VLDL (TG) and apoE, and the association of apoE with the secreted VLDL. During fasting, reduced secretion of both VLDL and apoE resulted in a VLDL particle that was considerably diminished in content of apoE and, therefore, that would be taken up by the liver at a reduced rate, in comparison to that observed in the fed animal.     

Effect of prolonged exercise on the level of triglycerides in the rat liver

This study examined the effect of prolonged exercise on the level of triglycerides (TG) in rat liver. The rats were divided into groups: 1-control, 2-treated with nicotinic acid, 3-fed with glucose during exercise, 4-fasted, 5-adrenalectomized, 6-adrenalectomized and fed with oil. In the control group, there was gradual accumulation of TG in the liver and their level was doubled at exhaustion as compared to the resting value. Nicotinic acid lowered the resting level of TG and prevented their accumulation during exercise. Administration of glucose during exercise partially prevented the increase in TG level in the liver. In rats fasted for 24 h before exercise, the net increase in liver TG level during exercise was similar to that in the controls. Adrenalectomy, like nicotinic acid, lowered TG level at rest and prevented its increase during exercise. Feeding the adrenalectomized rats with oil elevated the plasma free fatty acid level but did not result in accumulation of TG in the liver, either at rest or during exercise. It is concluded that prolonged exercise results in accumulation of TG in the liver and that the process depends on the supply of free fatty acids and glucose and requires the presence of glucocorticoids.     

A possible role of adenylate cyclase in the longterm dietary regulation of insulin secretion from rat islets of Langerhans

1. Adenylate cyclase activity and patterns of insulin release in response to various concentrations of glucose were determined in islets of Langerhans isolated from starving, fed, or glucose-loaded rats. 2. Basal and glucagon-stimulated activities of adenylate cyclase were lower in islets from starved than from fed rats. The minimum glucose concentration required for stimulation of insulin secretion was higher, whereas the maximum secretory response to glucose was lower, in islets from starved than from fed rats. 3. Adenylate cyclase activity in islets of Langerhans obtained from fed rats loaded with glucose by intermittent intravenous or intraperitoneal injections over 5h was significantly higher than that seen in islets from normal fed rats. Islets obtained from glucose-loaded rats required a lower glucose concentration for stimulation of insulin secretion and attained a higher maximal response to glucose stimulation than those derived from fed rats. 4. Incubation in vitro of islets isolated from normal fed rats, for periods of 1 to 24h in the presence of high concentrations of glucose resulted in an activation of adenylate cyclase that occurred progressively from 2 to 7h and which was maintained during 24h of incubation. The increase of adenylate cyclase activity in isolated islets incubated for 4h in the presence of glucose was not prevented by addition of cycloheximide or actinomycin D. Galactose or 2-deoxyglucose was ineffective in increasing adenylate cyclase activity, and pyruvate (20mm) was less effective than glucose. 5. It is suggested that glucose or a glucose metabolite may exert long-term effects on islet cell adenylate cyclase.     

Effect of fiber type and nutritional state on AICAR- and contraction-stimulated glucose transport in rat muscle

AMP-activated protein kinase (AMPK) may mediate the stimulatory effect of contraction and 5-aminoimidazole-4-carboxamide ribonucleoside (AICAR) on glucose transport in skeletal muscle. In muscles with different fiber type composition from fasted rats, AICAR increased 2-deoxyglucose transport and total AMPK activity approximately twofold in epitrochlearis (EPI), less in flexor digitorum brevis, and not at all in soleus muscles. Contraction increased both transport and AMPK activity more than AICAR did. In EPI muscles, the effects of AICAR and contractions on glucose transport were partially additive despite a lower AMPK activity with AICAR compared with contraction alone. In EPI from fed rats, glucose transport responses were smaller than what was seen in fasted rats, and AICAR did not increase transport despite an increase in AMPK activity. AICAR and contraction activated both alpha(1)- and alpha(2)-isoforms of AMPK. Expression of both isoforms varied with fiber types, and alpha(2) was highly expressed in nuclei. In conclusion, AICAR-stimulated glucose transport varies with muscle fiber type and nutritional state. AMPK is unlikely to be the sole mediator of contraction-stimulated glucose transport.     

Comparative changes with age of the fasting response in circulating ketone bodies, glucose and insulin and oral glucose tolerance test in the rat

1. Body weight loss in 48 hr fasted rats decreased with age. 2. Blood glucose and plasma RIA-insulin levels correlated negatively and positively respectively with body weight in fed rats. Fasting produced a greater fall in blood glucose and a smaller decrease in RIA-insulin in young than in old rats. 3. Blood ketone bodies correlated negatively with body weight after 48 hr fasting. 4. In oral glucose tolerance tests, blood glucose rose more in adult and old rats than in prepuberals when both fed and fasted. RIA-insulin levels rose more in prepuberals than in older rats when fed but not when fasted. 5. Changes in body composition and reduced insulin sensitivity with age are discussed.     

Evidence for centers in the central nervous system that selectively regulate fat mobilization in the rat

The blood sugar and plasma free fatty acid responses to administration of 2-deoxyglucose were determined in normal rats and in rats subjected to adrenodemedullation and/or hypothalamic deafferentation, as well as in rats with bilateral hypothalamic lesions. Adrenodemedullation of both intact and deafferentated rats reduced the 2-deoxyglucose-induced increase of blood sugar but did not affect the plasma free fatty acid response to 2-deoxyglucose in normal rats. The increases in blood sugar levels induced by the drug in intact rats were not significantly affected by deafferentation, but, in marked contrast, plasma free fatty acid mobilization after 2-deoxyglucose administration was completely suppressed in deafferentated rats, both in the presence and in the absence of the adrenal medulla. These results confirm previous observations indicating that the sympathetic nervous system and adrenalin release from the adrenal medulla participate in the production of hyperglycemia by 2-deoxyglucose. They provide, in addition, evidence for the existence, in the anterior hypothalamus or in limbic structures, of centers that can specifically influence mobilization of free fatty acids through a direct activation of the sympathetic fibers of adipose tissue without intervening in glucose homeostasis. The experiments in animals with bilateral hypothalamic lesions, although small in number, seem to support the above conclusions.     

Implications of distinct inhibitory effects of N-acetylglucosamine on glucose uptake by an isolated perfusion system incorporating erythrocytes with livers from fed and 48-hour fasted rats

Net glucose uptake in a perfusion system including erythrocytes and isolated livers from fed rats was inhibited by N-acetylglucosamine (GlcNAc), a competitive inhibitor of glucokinase. Net glucose uptake also occurred in the system incorporating livers from 48-h fasted rats, but its inhibition by GlcNAc did not. This distinction could not be explained on the basis of a different sensitivity of glucokinase from fasted compared with fed rats to inhibition by GlcNAc. Nor could it be rationalized based on several other hepatic enzymes possibly involved in glucose utilization or production. Because erythrocytes were included in our system, other explanations were sought related to the total enzymic environment. The involvement of an indirect pathway including glycolysis of glucose to lactate in erythrocytes followed by conversion of this lactate to glucose-6-P and then glycogen in liver was considered. This pathway contributed no more than 17% to total net glucose uptake in the system incorporating livers from fed rats. This per cent contribution increased when hepatic glucokinase was reduced by fasting or through inhibition by GlcNAc. However, it was too small to explain observed overall rates of net glucose uptake. We propose that the presence of erythrocytes may also promote a greater net glucose uptake by the direct hepatic pathway. An enhanced inhibition of hepatic glucose-6-P hydrolysis by some intermediate metabolite generated in the presence of lactate infusion from erythrocytes may promote net glucose uptake independently of the mechanism of residual hepatic glucose phosphorylation. This may explain why we and others who have employed liver perfusion systems including erythrocytes have seen greater net glucose uptake than have workers using systems devoid of erythrocytes.     

In vitro glucose reversal of the inhibitory effect of fasting on epinephrine-induced lipolysis

Cyclic AMP, protein kinase activity and glycerol were measured in adipose tissue from fasted rats incubated with epinephrine with or without glucose. A drastic loss in the sensitivity of the adipose tissue to respond to the lipolytic action of the hormone was observed during fasting, when incubated without glucose. The addition of glucose reverses this process, and a greater lipolytic capacity was observed in the tissue of fasted rats than in fed rats. The three parameters measured were well correlated when there was epinephrine in the medium. Lipolysis is observed with glucose alone, but there was no variation in the cAMP levels nor in the protein kinase activity. These results are discussed in relation to the regulator effect of FFA, which is mobilized during starvation, on lipolysis.     

Metabolic responses to exercise after fasting

Fasting before exercise increases fat utilization and lowers the rate of muscle glycogen depletion. Since a 24-h fast also depletes liver glycogen, we were interested in blood glucose homeostasis during exercise after fasting. An experiment was conducted with human subjects to determine the effect of fasting on blood metabolite concentrations during exercise. Nine male subjects ran (70% maximum O2 consumption) two counterbalanced trials, once fed and once after a 23-h fast. Plasma glucose was elevated by exercise in the fasted trial but there was no difference between fed and fasted during exercise. Lactate was significantly higher (P less than 0.05) in fasted than fed throughout the exercise bout. Fat mobilization and utilization appeared to be greater in the fasted trial as evidenced by higher plasma concentrations of free fatty acids, glycerol, and beta-hydroxybutyrate as well as lower respiratory exchange ratio in the fasted trial during the first 30 min of exercise. These results demonstrate that in humans blood glucose concentration is maintained at normal levels during exercise after fasting despite the depletion of liver glycogen. Homeostasis is probably maintained as a result of increased gluconeogenesis and decreased utilization of glucose in the muscle as a result of lowered pyruvate dehydrogenase activity.     

Cyclic AMP-dependent protein kinase activity and lipolysis in adipose tissue. Effect of fasting, oligomycin and iodoacetamide

The release of glycerol into the medium, the concentration of cAMP, and the cAMP-dependent protein-kinase activity were studied in adipocytes and in fat-pads obtained from epididymal adipose tissue of rats under different conditions of feeding. An increase in the tissue concentration of cAMP and in the protein-kinase activity was observed in vivo at 48 and 96 h of fasting. A diminished release of glycerol was found in adipocytes from rats fasted for 48 h, in the absence of glucose, and the maximum concentration of cAMP was inferior to that of fed rats. Oligomycin and iodoacetamide, in the presence of epinephrine and glucose, produce a diminution in the values of the parameters studied. No significant differences were observed, however, in the responses of tissue obtained from fed and fasting rats to these compounds. The present results confirm previous observations and show the dependence of the lipolytic process on carbohydrate metabolism.     

Glucagon inhibition of insulin-stimulated 2-deoxyglucose uptake by rat adipocytes in the presence of adenosine deaminase.

Effects of adenosine deaminase and glucagon on insulin-stimulated 2-deoxyglucose uptake by rat adipocytes are reported. (1) Adenosine deaminase (10 micrograms/ml) caused a rightward shift in the dose-response curve for the stimulation by insulin of 2-deoxyglucose uptake, but the enzyme did not alter either the basal or the maximally insulin-stimulated uptake rate. (2) In adipocytes obtained from 24 h-starved rats, glucagon inhibited the effect of insulin on 2-deoxyglucose uptake in the presence (but not in the absence) of adenosine deaminase. Basal uptake rates were unaffected. (3) Glucagon inhibited insulin-stimulated 2-deoxyglucose uptake to a greater extent in cells isolated from starved rats than in cells from fed rats. (4) Adipocytes isolated from fed and from starved rats did not differ in their capacity for degradation of 125I-labelled glucagon. The results suggest that adenosine and glucagon are regulators of insulin action in adipose tissue.     

Relative contribution of glycogenolysis and gluconeogenesis to basal, glucagon- and nerve stimulation-dependent glucose output in the perfused liver from fed and fasted rats

The relative contribution to basal, glucagon- and nerve stimulation-enhanced glucose output of glycogenolysis (glucose output in the presence of the gluconeogenic inhibitor mercaptopicolinate) and gluconeogenesis (difference in glucose output in the absence and presence of the inhibitor) was investigated in perfused livers from fed rats with high and from fasted animals with low levels of glycogen. 1) Basal glucose output in both states was due only to gluconeogenesis. 2) Glucagon-enhanced glucose output was due about equally to glycogenolysis and gluconeogenesis in the fed state, but predominantly to gluconeogenesis (80%) in the fasted state. 3) Nerve stimulation-increased glucose output was due mainly to glycogenolysis (65%) in the fed state and about equally to both processes in the fasted state. The results suggest that under basal conditions of normal demands the liver supplies glucose only via gluconeogenesis and thus spares its glycogen stores, and that in situations of enhanced demands signalled by an increase in glucagon or sympathetic tone the liver liberates glucose mainly via glycogenolysis.