Thyroid C cell function during fasting and refeeding of young and old rats

Age-related alterations in the structure and function of many organs often become apparent under stimulation of their function. Although the ageing process affects the regulation of mineral homeostasis, the function of thyroid C-cells that secrete calcitonin (CT) under the conditions of fasting and refeeding, a way of dietary manipulation that reveal the existence of age-related changes of follicular thyroid cells, has not been characterized. Therefore, we investigated the number of C-cells and serum CT concentration in young (4 mo) and old (26 mo) male rats fasted for 48 hours, and then refed for 4 or 24 hours. We found significantly higher number of C-cells in thyroids of old vs young rats both under basal conditions, and after fasting/refeeding. Correspondingly, serum calcitonin level was higher in fed or fasted old rats vs young ones. However, in young rats refeeding decreased, whereas in old animals increased serum concentrations of calcitonin. Thus, the control of serum calcium concentration, that was well preserved in old rats, occurs at the expense of increased serum CT level both under basal conditions, and after refeeding. These observations suggest that C-cell function is altered in ageing.     

Metabolic control of phosphorylase conversion in muscle. Effect of fasting and refeeding on the response of rat diaphragm glycogen phosphorylase, cyclic AMP Dependent protein kinase, and phosphorylase b kinase to adrenergic stimulation.

The influence of fasting and refeeding on the response to adrenergic stimulation of several enzymes involved in glycogen metabolism has been investigated in the isolated, intact rat diaphragm. The in vitro response of the phosphorylase system to terbutaline was found to decrease markedly following fasting. A pronounced increase in this response was seen upon refeeding. This increased responsiveness was normalized by incubation of isolated tissues with palmitate (1.5 mM). Plasma free fatty acid concentration was increased in fasted rats compared to the value found in refed animals. The effect of terbutaline on cyclic AMP concentration and protein kinase activity was not significantly influenced by fasting and refeeding while fasting decreased the effect of terbutaline upon phosphorylase b kinase. Diaphragm glycogen levels were reduced by more than 50% in rats fasted for 24 hours and were significantly increased upon refeeding compared to fed rats. The results indicate that the nutritional state can modulate the sensitivity of the interconverting system for phosphorylase. It is suggested that this modulation might depend upon fatty acid metabolism.     

Vitamin A status and its metabolism contribute to the regulation of hepatic genes during the cycle of fasting and refeeding in rats

Vitamin A (VA) status and its metabolism affect hepatic metabolic homeostasis. We investigated if VA status and metabolism contribute to energy metabolism and expression of hepatic genes in the cycle of fasting and refeeding. Zucker lean rats with VA sufficient (VAS) or VA deficient (VAD) status were respectively grouped as: ad libitum (VAS-AD or VAD-AD), 48-h fasted (VAS-Fasted or VAD-Fasted), 48-h fasted and refed a VAS diet (VAS-Refed-VAS or VAD-Refed-VAS), or refed a VAD diet (VAS-Refed-VAD or VAD-Refed-VAD) for 6 h. Respiratory exchange ratio (RER) of rats fed the VAS or VAD diet was monitored for 6 weeks. From week four, rats fed the VAS diet had higher RER than those fed the VAD diet. VAS-Refed rats had higher plasma levels of glucose, triglyceride, insulin and leptin than VAD-Refed rats. The mRNA and protein levels of hepatic genes for fuel metabolism in the fasting and refeeding cycle were determined using real-time polymerase chain reaction and immunoblot, respectively. The mRNA levels of glucokinase (Gck), sterol regulatory element-binding protein 1c (Srebp-1c), and fatty acid synthase (Fas) were lowered in VAS-Fasted and VAD-Fasted rats, and increased in VAS-Refed-VAS, VAS-Refed-VAD and VAD-Refed-VAS, but not VAD-Refed-VAD, rats. The ACL and FAS protein levels only dropped in VAS-Fasted rats and increased in VAS-Refed-VAS rats. The GK protein level decreased only in VAS-Fasted rats, and increased in VAS-Refed-VAS, VAS-Refed-VAD and VAD-Refed-VAS (but not VAD-Refed-VAD) rats. We conclude that VA status and its metabolism in the fasting and refeeding cycle contribute to the regulation of hepatic gene expression in rats.     

Calcitonin and hepatic fatty acid synthesis: effect of thyroparathyroidectomy on the elevation of ATP citrate lyase activity by refeeding of starved rats

The effect of thyroparathyroidectomy (TPTX) on ATP citrate lyase regulation, a rate-limiting enzyme of fatty acid synthesis in hepatic cytosol, was investigated in rats refed after a 24 h fast. ATP citrate lyase activity in the hepatic cytosol was increased 2-fold by refeeding. This increase was suppressed about 50% by TPTX. The suppression of the enzyme activity by TPTX was completely restored by administration of calcitonin (CT; 80 MRC mU/100 g body weight). This hormonal effect was also observed at 20 MRC mU/100 g dose of CT. CT administration to refeeding-TPTX rats produced a significant increase in the calcium content of the liver tissue and the cytosol. The cytosolic ATP citrate lyase activity increase with CT administration was completely blocked by treatment of cytosol with EGTA (10 microM). This inhibition was clearly reversed by addition of calcium ion (1.25-5.0 microM). In addition, CT-induced rise in enzyme activity was markedly reduced by the presence of W-7 (5 and 50 microM), a calmodulin inhibitor, in the enzyme assay system. The present results suggest that CT plays a role in the elevation of hepatic ATP citrate lyase activity brought about by refeeding of fasted rats, and that this hormonal regulation might depend on Ca2+-calmodulin.     

Expression of hepatic calcium-binding protein regucalcin mRNA is elevated by refeeding of fasted rats: Involvement of glucose,insulin and calcium as stimulating factors

The effect of refeeding on the expression of Ca²⁺-binding protein regucalcin mRNA in the liver of fasted rats was investigated. When rats were fasted overnight, the hepatic regucalcin mRNA level was reduced about 70% of that in feeding rats. Refeeding produced a remarkable elevation of hepatic regucalcin mRNA level (about 150–170% of fasted rats). Liver regucalcin concentration was appreciably increased by refeeding, although it was not altered by fasting. The oral administration of glucose (2 g/kg body weight) to fasted rats caused a significant increase in hepatic regucalcin mRNA level. Moreover, hepatic regucalcin mRNA level was clearly elevated by a single subcutaneous administration of insulin (10 and 100 U/kg) to fasted rats. The hormonal effect was not further enhanced by the simultaneous administration of calcium chloride (250 mg Ca/kg) to fasted rats, although calcium administration stimulated regucalcin mRNA expression in the liver. The present study suggests that the expression of hepatic regucalcin mRNA stimulated by refeeding is significantly involved in the action of insulin and/or calcium as stimulating factors.     

Blood-chemistry indicators of nutritional status in juvenile salmonids

Three experiments were performed to determine the effects of food deprivation (21–35 days at 10–12° C) on selected blood-chemistry variables in juvenile salmonids. The experimental groups were laboratory-reared rainbow trout Oncorhynchus mykiss (RBT), laboratory-reared Chinook salmon Oncorhynchus tshawytscha (LCS) and hatchery-reared, actively migrating Chinook salmon (MCS). After fasting, RBT and LCS were refed for 10 days. In fasted fishes, plasma alkaline phosphatase (ALP) activities decreased relatively rapidly, differing significantly ( P ≤ 0·05) from activities in fed control fishes after 1–2 weeks. Total protein (for all groups) and total cholesterol (for RBT and MCS) decreased relative to fed controls after 2–3 weeks, and total calcium (for RBT and MCS) after 3–4 weeks. Plasma ALP activities recovered after 10 days refeeding, but total protein, cholesterol and calcium concentrations did not. Triglyceride concentrations were highly variable and responded significantly to fasting only in the trial with RBT. Concentrations of some variables decreased (glucose and phosphorus) or increased (total magnesium) relative to control values during the initial days or weeks of fasting and then stabilized at new levels. Activities of four metabolic enzymes of intracellular origin (alanine aminotransferase, aspartate aminotransferase, lactate dehydrogenase and creatine kinase) did not differ significantly in the plasma of fed and fasted fishes.     

Effect of fasting and refeeding on duodenal alkaline phosphatase activity in monosodium glutamate obese rats

In the present work the effects of fasting and refeeding on fat pad weight and alkaline phosphatase activity in the brush border of individual duodenal enterocytes have been evaluated in male Wistar rats with obesity induced by monosodium glutamate (MSG) treatment during the early postnatal period. Neonatal rats were treated subcutaneously with MSG (2 mg/g b.w.) or saline (controls) for 4 days after birth. At 4 months of age, two types of experiments were performed. In the first experiment rats, were submitted to 3 or 6 days lasting food deprivation. In the second experiment the rats were refed for 3 or 6 days ad libitum or restrictedly (60% of pre-fasting intake) after a 6 day-fasting period. Fasting and refeeding influenced the body fat and function of the duodenum in MSG-treated rats differently as compared to the controls. However, alkaline phosphatase activity and the weight of epididymal and retroperitoneal fat depots were significantly increased in MSG obese rats (P<0.001) during all the periods examined. While 3 days of food deprivation resulted in both groups in a similar loss of adipose tissue weight and alkaline phosphatase activity, the decrements of these parameters after 6 days of fasting were lower in obese rats suggesting that their capacity to spare body fat stores was enhanced. After 3 days of ad libitum refeeding, a more marked adaptational increase of food consumption and also a significantly increased alkaline phosphatase activity above the pre-fasting level (P<0.01) was observed in the MSG-treated rats. Consequently, a more rapid body fat restoration was demonstrated in these animals. Refeeding of rats at 60% of the pre-fasting intake level resulted in a significant increase of alkaline phosphatase activity in both the MSG and control group; moreover, as food restriction continued, MSG-treated rats tended to further increase the enzyme activity. Our results revealed that MSG treatment of neonatal rats may significantly change the intestinal functions. Permanently increased alkaline phosphatase activity observed in MSG obese rats during all investigated periods suggests that this functional alteration is probably not a consequence of actual nutritional variation but could be a component of regulatory mechanisms maintaining their obesity at critical values.     

Dietary and hormonal regulation of L-type pyruvate kinase gene expression in rat small intestine

L-type pyruvate kinase is an enzyme of the glycolytic pathway whose activity and mRNA levels fluctuate in the small intestine according to dietary status. Both the enzyme activity and mRNA concentration decline during fasting and increase upon refeeding either a glucose-rich or a fructose-rich diet. Using a single-strand M 13 phage complementary to L-type pyruvate kinase mRNA as probe, we determined the level of the mRNA in the small intestine of normal, adrenalectomized, thyroidectomized, diabetic and glucagon-treated or cAMP-treated animals refed either a glucose-rich or a fructose-rich diet. The specific mRNA is present in the small intestine of normal fasted rats and increases twofold and threefold on refeeding glucose and fructose respectively. However, the hormonal control of the gene expression differs according to the dietary carbohydrate. The L-type pyruvate kinase mRNA increase, induced by glucose feeding, is hormone-dependent and requires the presence of thyroid hormones and insulin. In fructose-fed rats a certain level of mRNA increase occurs regardless of the hormonal status of the animals, but the full induction of the mRNA by fructose requires the presence of glucocorticoids, thyroid hormones and insulin. Thus, the hormonal regulation of L-type pyruvate kinase gene expression in the small intestine is largely similar to that described in normal rat liver but the basal mRNA level and the stimulation of the mRNA increase by fructose are higher in the small intestine.     

The association of lysosomal enzymes with nuclei during enzyme induction in rat liver.

Male rats of the Holtzman strain were fasted for 3 days and refed a diet high in carbohydrate (68.9%). The induction of liver glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase was monitored for up to 48 h after refeeding. Induction occurred by 24 h, and by 48 h, 4.2- and 1.5-fold increases were observed for glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase, respectively, compared with that of livers of pellet-fed rats. After refeeding, lysosomes increased in fragility as judged by an increased release of acid phosphatase activity during standard homogenization. Fragility was greatest 3 h after refeeding, but normal fragility was observed 24 h after refeeding. Nuclei were isolated from the liver samples before and after refeeding. Those isolated just before refeeding revealed small latent acid phosphatase activity (4–6%). However, after refeeding the carbohydrate-rich diet, a transient and significant (P < 0.01) increase in the latent activity occurred that was maximal (20%) at 1 h, returning to normal by 24 h. Cross-mixing the 800g nuclear pellet from livers of animals starved for 3 days with the 800g supernatant fraction from livers of animals refed the carbohydrate-containing diet did not alter the nuclear lysosomal-free (overt) or latent (detergent-released) enzyme activity. Similarly, mixing the 800g nuclear pellet from livers of animals refed for 1 h with the 800g supernatant fraction from livers of animals starved for 3 days, but not refed, did not change the nuclear lysosomalfree or latent enzyme activity. Purified nuclei, further washed in hypotonic buffer, lost acid phosphatase activity, but those isolated from livers of rats refed for 1 h retained 10% of the enzyme latency, whereas all latency was lost from those isolated from uninduced rats. A second lysosomal enzyme, β-galactosidase, became associated with the nuclei with the same temporal pattern as for acid phosphatase. However, no variation in nuclear content of cytosolic lactate dehydrogenase occurred as a result of feeding the high-carbohydrate diet to starved rats. When similarly starved rats were refed a diet high in lipid and carbohydrate-free, no induction of glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase was observed. Lysosomes were not temporarily fragile and purified nuclei did not exhibit increased latency of acid phosphatase activity. Though the evidence presented does not establish a direct correlation between lysosome migration to nuclei as a required function in enzyme induction, the temporal and specific nature of the phenomenon support the hypothesis that liver lysosomal enzymes participate in early signals in the induction of enzymes of lipogenesis.     

Effect of starvation and sampling time on plasma alkaline phosphatase activity and calcium homeostasis in the rat

The effect of starvation and sampling time on plasma alkaline phosphatase activity, total plasma calcium concentration and whole blood ionized calcium concentration was determined in the rat. Starvation caused a significant fall in total and ionized calcium concentrations as well as in alkaline phosphatase activity. These changes were accompanied by a fall in whole blood pH and an increase in the anion gap and a decrease in urinary excretion of calcium. These indices were restored to normal following refeeding. There was no change in serum 25-OH vitamin D concentrations following starvation for 3 days. Alkaline phosphatase activity showed a pattern compatible with the presence of a circadian rhythm when sampling took place between 0800 and 1800 h. Total and ionized calcium concentrations did not show such a rhythm when animals were fed the present diet.     

Regulation of apolipoprotein E synthesis and mRNA by diet and hormones

Rats were fasted or fasted and refed simple purified diets so the effects of individual carbohydrates or fats could be studied. Freshly isolated hepatocytes from these animals were used to measure both apoE synthesis and mRNA levels so any changes in apoE synthesis that might occur without changes in its mRNA could be detected. Some of these experiments were done with both sexes. Both fasting and fasting and refeeding a 60% glucose fat-free diet significantly increased spoE synthesis. However, cyclic AMP is not likely to rapidly mediate the effect of fasting since dibutyryl cAMP slightly lowered (rather than increased) apoE synthesis and mRNA when injected into rats for 4.5 h. Dietary fat had no effect either in the absence of carbohydrate or when consumption of carbohydrate was constant in pair-fed rats. ApoE mRNA levels remained normal for 4 days in primary hepatocytes cultured in medium that had only amino acids as an energy source. Added hormones or fructose had no significant effect. Thus, only fasting and fasting and refeeding glucose were able to significantly change apoE synthesis or mRNA levels. Synthesis of apoE may be regulated to increase when apoE is secreted with very low density lipoprotein or when apoE in secreted high density lipoprotein is needed to acquire cholesteryl esters for the synthesis of bile salts and acids by liver.     

Differential effect of fasting on IGF-BPs in serum of young and adult rats and its implication to impaired skin GAG content

During fasting or aging of animals there is a decreased content of skin glycosaminoglycans (GAGs). It has been found that the skin of adult rats contains about 60% of GAGs found in the skin of young animals. Fasting of both groups of animals (young and adult) resulted in decrease of GAG content. However, GAG content in the skin of fasted young rats decreased by 30% and in fasted adult rats by 15% only, compared to fed animals, respectively. The mechanism for the phenomena is not known. We considered insulin-like growth factor-I (IGF-I) as a potential candidate involved in regulation of GAG biosynthesis in both experimental models of animals. Adult rat sera were found to contain about 75% of IGF-I recovered from young rat sera. Fasting of both groups of animals resulted in dramatic decrease in serum IGF-I levels to about 50% of initial values. Since IGF-I activity and IGF-I serum half-life depends on the level of specific IGF-binding proteins (IGFBPs) we determined (i) relationship between main groups of IGFBPs, namely high molecular weight binding proteins (HMWBPs) and low molecular weight binding proteins (LMWBPs) and (ii) the amounts of IGF-I bound to respective proteins in the sera of all experimental animals. Control young rat serum was found to contain about 90% of HMWBPs and about 10% of LMWBPs as determined by ligand binding assay. In contrast, control adult rat serum contained about 60% of HMWBPs and about 40% of LMWBPs. Fasting of both groups of animals resulted in significant increase in serum levels of LMWBPs. Control young rat serum was found to contain about 8% IGF-I bound to LMWBPs while serum of control adult rats contained 18% IGF-I bound to these proteins. In sera of fasted young animals however, about 75% of the bound IGF-I was recovered from LMWBPs (about 60% of total serum IGF-I) while in sera of fasted adult animals only about 56% of the bound IGF-I was recovered from LMWBPs (about 50% of total serum IGF-I). Evidence was provided that during fasting of both groups of animals there is a significant decrease in serum BP-3 and dramatic increase in serum BP-1 concentrations, compared to respective controls. However, the concentration of BP-1 in serum of fasted young rats was increased by about 60 fold while in serum of fasted adult rats only by about 10 fold, compared to respective control animals. Negative correlation between skin GAG content and LMWBPs derived IGF-I during fasting of young (r = - 0.943, p < 0.001) and adult ( r = - 0.571, p < 0.01) rats was found.The data presented suggest that the effects of aging and fasting on decreased skin GAG content may be due to induction of LMWBPs that are known to (i) inhibit IGF-I dependent function and (ii) increase clearance of IGF-I from circulation. However, the effects of fasting are distinct in respect to young and adult rats suggesting that mechanisms involved in regulation of IGF-I bioactivity during aging are more complex that during fasting.     

On lysosomal fragility and induction of liver hexose-monophosphate dehydrogenases in the fasted-refed rat.

Young adult male rats were fasted for 3 days, then fed a glucose-rich diet, ad libitum. At the end of the fasting period, the specific activity of liver glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase was decreased to 60% of control (nonfasted) levels. After 24 to 72 h of refeeding, the specific activity of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase increased seven- and twofold, respectively. During the fasting period, the liver lysosome fragility increased, as judged by increased release of bound acid phosphatase and β-N-acetylglucosammidase activity during standard homogenization. Three hours after feeding a carbohydrate-rich diet, a further increase in liver lysosomal fragility was observed that returned to control values prior to the induction of the dehydrogenases. Similarly, the susceptibility of liver lysosomes from fasted rats to increased fragility by the intraperitoneal injection of glucose or galactose was also observed. Prior starvation was not a requisite for labilization of lysosomal membranes by injected glucose, but induction of the pentose phosphate shunt dehydrogenase was not observed.In a group of 6-week old male rats fed a commercial pellet diet throughout, the injection of insulin caused no change in liver lysosomal fragility, though hypoglycemia resulted. Similar animals made diabetic by treatment with Streptozotocin and diabetic rats given insulin, showed no change in liver lysosmal fragility based on the percentage of free to total activities of β-N-acetylglucosaminidase, β-glucuronidase, β-galactosidase, and Cathespin D. However, when adult female rats were fasted for 24 h, then injected with sufficient insulin to produce hypoglycemia, liver lysosomal fragility, based on the release of β-N-acetylglucosaminidase during homogenization, increased nearly threefold. These studies demonstrate that stimulated lysosomal fragility can be initiated by refeeding fasted animals a carbohydrate-rich diet, by intraperitoneal injections of fasted rats with glucose or galactose, or by administering insulin alone to fasted rats. However, hyperglycemia induced by diabetogenic doses of Streptozotocin, or hypoglycemia induced in well-fed animals by insulin injection failed to elicit an enhanced liver lysosomal fragility. Whether induction of the enzymes of lipogenesis by rat liver is dependent upon a prior lysosomal membrane labilization remains to be determined.     

Are Kupffer cells involved in the metabolic adaptation of the liver to dietary carbohydrates given after fasting?

In rats, a high carbohydrate fat-free (HCFF) diet, given after fasting, induces both hepatic lipogenic and glycogenic enzymes. In the present study, we evaluated the involvement of Kupffer cells in the metabolic events occurring in the liver during the fasting-refeeding transition. Male Wistar rats were fasted for 48 h and received an intravenous injection of either NaCl 0.9% (Gd-) or 10 mg/kg GdCl(3) (Gd+), an inhibitor of Kupffer cells, then fed for 12 h with a HCFF diet. The comparison of colloidal carbon uptake was similar in rats fasted and in rats fasted and then refed a HCFF diet, thus indicating that refeeding does not affect per se Kupffer cell phagocytic activity. The inhibition of Kupffer cells by GdCl(3) did not affect fatty acid synthase (FAS) induction, as shown by the analysis of both FAS mRNA and activity; refeeding a HCFF diet increased the hepatic triglyceride and glycogen content to the same extent in Gd+ and Gd- rats. Our results do not support the involvement of Kupffer cells in the metabolic events occurring in the liver tissue by feeding a HCFF diet after fasting. However, the discussion supports the involvement of Kupffer cells in the modulation of the hepatic lipid metabolism by other nutrients than carbohydrates.     

Sinusoidal electromagnetic field of 50 hz helps in retaining calcium in tibias of aged rats

Effect of 50Hz sinusoidal electromagnetic field (SEMF) on normal bone physiology was evaluated in young and old female and male Wistar rats. Exposure to SEMF resulted in increased 45Ca retention in tibias of aged animals only. Levels of serum calcium in young female and male rats were significantly less than in respective aged rats. These were further decreased after 4 weeks of SEMF exposure. SEMF exposure did not change the serum calcium levels in aged rats, and inorganic phosphates in young and aged animals. Similarly, the levels of tartrate resistant acid and alkaline phosphatase were significantly decreased in young rats, whereas the levels remained unchanged in aged rats of either sex. The results revealed that SEMF of 1mT can prevent bone calcium loss due to aging in animals.     

Dietary protein and the control of fatty acid synthesis in rat adipose tissue

Fatty acid synthesis in adipose tissue normally proceeds at a high rate when fasted animals are refed a diet containing carbohydrate, protein, and low levels of fat. This study investigated the effect of omitting protein from the refeeding diet. Rats were fasted for 48 hr and refed either a protein-free diet or a balanced diet, and the rate of fatty acid synthesis from glucose, pyruvate, lactate, and aspartate was measured. Refeeding the animals a diet devoid of protein resulted in a low rate of fatty acid synthesis from each of these substrates as well as a reduction in carbon flow over the citrate cleavage pathway. The activities of glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, NADP-malate dehydrogenase, and ATP-citrate lyase were also reduced in epididymal fat pads from these rats. On the other hand, adipose tissue phosphoenolpyruvate carboxykinase activity was five times as great as that in tissue from animals refed a balanced diet. This difference could be eliminated if actinomycin D was injected coincident with refeeding. Refeeding rats diets high in carbohydrate is not, therefore, capable of inducing high rates of fatty acid synthesis in adipose tissue in the absence of dietary proteins. Thus, liver and adipose tissue respond differently to dietary protein.     

Effect of fasting on body composition and responses to stress in sunshine bass

The integrated responses of the hormonal regulation of growth and stress in sunshine bass (Morone chrysops X Morone saxatilis) as regulated by feed deprivation were investigated. Groups of fish were fed 1.5% of the body weight per day or offered no feed for 4 weeks. Another group of fish was not fed for 3 weeks and feed was offered during the fourth week. Fish in each group were sampled immediately before or after a 15-min low water confinement stressor after each week of the experiment. Liver mass and liver glycogen content were decreased after one week of fasting and remained low until the end of the study. However, both recovered after a week of refeeding. Intraperitoneal fat was significantly lower after two weeks of fasting and did not recover after a week of refeeding. None of these components were affected by confinement stress. Plasma glucose in unstressed fish was generally unaffected by fasting or refeeding; however, plasma glucose increased after confinement stress in fed but not in fasted fish. The cortisol stress response was unaltered by fasting and remained robust. Plasma IGF-I generally decreased in fasted fish but was not significantly lower than fed fish until the fourth week. A week of refeeding did not restore plasma IGF-I concentrations. Plasma IGF-I concentrations were higher in confinement stressed fed fish after two and four weeks but were unchanged in the fourth week. There was no change in the plasma IGF-I concentrations in fasted or refed fish due to the stress. Liver weight and liver glycogen were essentially depleted after 2 weeks of fasting. The reduction of liver glycogen greatly reduced the glucose response to stress; however, the cortisol stress response was maintained for at least four weeks of fasting. Intraperitoneal fat was decreased very little after 4 weeks of fasting. Plasma IGF-I concentrations were reduced only after 3 weeks of fasting.     

Effects of Fasting and Refeeding on Expression of Atrogin-1 and Akt/FOXO Signaling Pathway in Skeletal Muscle of Chicks

This experiment was conducted to study the effects of fasting and refeeding on expression of the atrogin-1 and Akt/FOXO signaling pathway in skeletal muscle of chicks. Chicks were fasted for 24 h and refed for 2 h. Atrogin-1 mRNA expression was increased by fasting, and their increment was reduced by refeeding. Phosphorylations of Akt and FOXO1 were not decreased by fasting, but, they were increased by refeeding. These results indicate that refeeding stimulates phosphorylation of Akt/FOXO, resulting in a decrease in atrogin-1 expression in skeletal muscle of chicks.