Effect of thyroid hormones on the activity of hepatic glucose-6-phosphatase in fed and fasted rats

The action of thyroid hormones on hepatic glucose-6-phosphatase was studied in rats. Fed and 24-h fasted rats received T3 (10 micrograms/day) or T4 (25 micrograms/day) 1 h, 1 or 3 days before sacrificing. In addition a group of fed rats was treated with T4 for 7 and 14 days. The glucose-6-phosphatase activity was measured in the isolated microsomes prepared from the liver. The intactness of the microsomal preparation was checked using 2 mM mannose-6-phosphate as a substrate. In fed rats a single injection of T3 or T4 augmented the activities of the translocase and hydrolase components of glucose-6-phosphatase provided that the rats were killed 24 h after the administration of hormone. This effect was more pronounced in animals treated for 3-14 days. As expected, fasting per se increased the activities of both components of the enzyme. Moreover, in fasted rats treatment with T3 and T4 for 3 days further augmented the activities of the translocase and the hydrolase components of glucose-6-phosphatase. In fed animals T3 and T4 increased the latency of the enzyme whereas in fasted animals thyroid hormones increased the activities of the translocase and hydrolase components in parallel, maintaining the level of latency of the enzyme system. Administration of T3 and T4 increased blood glucose level in fasted rats after one day, while in fed rats a significant hyperglycaemia appeared after 7-14 days of treatment. In conclusion, T3 and T4 increase the activities of the translocase and hydrolase components of hepatic glucose-6-phosphatase in fed and fasted rats.(ABSTRACT TRUNCATED AT 250 WORDS)     

Adaptations to fasting in the American mink (Mustela vison): carbohydrate and lipid metabolism

The aim of this study was to investigate whether the actively wintering American mink Mustela vison is strictly dependent on continuous food availability or if it has evolved physiological adaptations to tolerate nutritional scarcity. Fifty farm-bred male minks were divided into a fed control group and four experimental groups fasted for 2, 3, 5 or 7 days. The rate of weight loss was several-fold higher (1.5-3.2% day(-1)) in the mink than recorded previously in larger carnivores utilizing passive wintering strategies. The minks remained normoglycaemic, although their liver glycogen stores and glucose-6-phosphatase activities decreased during fasting. Adipose tissue constituted approximately 36% of their body mass after 7 days of food deprivation. Intra-abdominal fat, especially retroperitoneal but also mesenteric adipose tissue, were the most important fat depots to be hydrolyzed, but the ability of the mink to utilize its body lipids during fasting may be limited. The increased liver size, hepatic triacylglycerol accumulation and increases in the activities of plasma aminotransferases indicated liver dysfunction. Food deprivation also affected the red blood cell indices, and the blood monocyte and lymphocyte counts decreased suggesting immunosuppression during fasting. The results of the present study suggest that the mink has not evolved sophisticated adaptations to wintertime fasting.     

Existence of extrathyroidal conversion inhibitor (IEC) in starved animals and its influence on thyroid hormones deiodination in liver and kidney in vitro

To find out whether an inhibitor of extrathyroidal conversion of iodothyronines is present in sera of starved animals, pig liver and kidney homogenates were incubated with T4, T3 or rT3 and dithiotreitol in the presence of evaporated diethyl ether extracts of sera obtained from fed and starved (1-12 days) rabbits. Sera extracts of short-term (1-4 days) starved rabbits caused a significant inhibition of T4 to T3 conversion (54% on day 3) and T4 to rT3 deiodination (52% on day 2) in liver homogenates. Extracts of sera from long-term (8 and 12 days) starved animals diminished only liver T4 to T3 conversion on day 8 and had no influence on liver T4 to rT3 conversion. 5'-deiodination of rT3 (to 3,3'-T2) in liver was gradually decreased by extracts of sera from animals starved during 2-12 days. Liver rT3-5-deiodination (to 3',5'-T2) was significantly impaired on day 4 and totally depressed by long-term starvation. In vitro T3 to 3,3'-T2 conversion in liver was markedly (59-103%) increased by ether extracts of sera from short-term fasted rabbits and considerably inhibited (62-72%) by long-term fasting. T4 to T3 conversion in kidney was significantly influenced by sera extracts obtained neither from short-term fasted rabbits and considerably inhibited (62-72%) by long-term fasting. T4 to T3 conversion in kidney was significantly influenced by sera extracts obtained neither from short-term nor from long-term fasted rabbits but T4-5-deiodination (to rT3) was reduced by sera extracts of short-term fasted animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Thermoregulatory adaptations of the overwintering captive raccoon dog (Nyctereutes procyonoides) in boreal climate

The raccoon dog (Nyctereutes procyonoides) is a nocturnal canid thought to utilise passive wintering strategy in the boreal climate. To record the deep body temperature (T(b)), 12 farmed raccoon dogs were implanted with intra-abdominal T(b) loggers on November 26, 2003. Between December 3, 2003 and January 27, 2004 half of the animals were fasted for 8 weeks. The amplitude of the diurnal T(b) oscillations increased due to fasting. However, the mean diurnal T(b) was lower in the fasted animals only during two occasions. Unlike observed previously in other species, not only did the raccoon dogs experience hypothermia between 0600 and 1000 hr but also hyperthermia between noon and 1800 hr. The fasted animals were as active as the fed animals measured after 42-43 days of fasting and there was a significant cross-correlation between physical activity and T(b). The nocturnal period of hypothermia is probably an adaptation to save energy during food deprivation. The diurnal hyperthermia could be explained by the opportunistic foraging behaviour of the species. Opposite to the established assumptions, the raccoon dog does not seem to enter winter sleep on fur farms. In the future it is important to determine if true winter sleep occurs in nature in the species.     

Absence of effects of short-term fasting on plasma ghrelin and brain expression of ghrelin receptors in the tilapia, Oreochromis mossambicus

Ghrelin is an important endocrine peptide that links the gastrointestinal system and brain in the regulation of food intake and energy expenditure. In human, rat, and goldfish plasma levels of ghrelin and GH are elevated in fasted animals, suggesting that ghrelin is an orexigenic signal and a driving force behind the elevated plasma levels of GH during fasting. Ghrelin's orexigenic action is mediated by the ghrelin receptor (GHS-R1a and GHS-R1b) which is localized on neuropeptide Y (NPY) neurons in the brain. Studies were undertaken to investigate the effect of short-term fasting on plasma ghrelin and brain expression of GHS-R1a, GHS-R1b, and NPY in the tilapia. Fasting for 7 days had no effect on plasma ghrelin concentrations, whereas significant increases in plasma levels of GH were observed on day 3. Fasting significantly reduced plasma levels of IGF-I on days 3 and 7, and of glucose on days 3, 5, and 7. Brain expression of ghrelin and GHS-R1b were significantly elevated in fasted fish on day 3, but were significantly reduced on day 5. This reduction was likely due to a significant increase in the expression in the fed controls on day 5 compared to day 0. No change was detected in the expression of GHS-R1a or NPY in the brain. These results indicate that ghrelin is not acting as a hunger signal in short-term fasted tilapia and is not responsible for the elevated levels of plasma GH.     

Changes in Creatine and Urea Formation in Rats Fasted and Fed Low Protein Diets

Changes in the time course of the urinary excretion of creatinine, creatine and urea, and the activities of kidney transamidinase and liver urea-cycle enzymes were investigated in rats fasted and fed on a 10% casein diet and 10% casein diets supplemented with 10% glycine and/or 1.4% arginine.

The urinary total-creatinine of the fasted rats increased extremely during fasting for 7 days, while that of the animals given the 10% casein diet supplemented with glycine and arginine rose exceedingly on the 3rd day and thereafter no significant change was observed. Most of the increase of total-creatinine could be accounted for by the increase of creatine. The activity of kidney transamidinase in the fasted rats decreased in the 3rd day and thereafter kept nearly constant. The transamidinase activity of rats fed on the 10% casein diet after giving a protein-free diet for 5 days increased in the 3rd day. An inverse relation was observed between the urinary creatine and the transamidinase activity. The urinary urea increased in the rats fasted or fed on the 10% casein diets with the supplement of glycine and/or arginine. In fasting, the activities of liver urea-cycle enzymes, except arginase, had a tendency of increasing with the lapse of time. The arginase activity remained more or less constant. The reason of the extreme increase of urinary creatine during starvation was discussed.     

Adaptations to fasting in the American mink (<Emphasis Type="Italic">Mustela vison</Emphasis>): nitrogen metabolism

The aim of this study was to investigate the adaptations of protein metabolism to seasonal fasting in an actively wintering boreal carnivore. Fifty farm-bred male American minks Mustela vison were divided into a fed control group and four experimental groups fasted for 2, 3, 5 or 7 days. The responses of nitrogen metabolism to wintertime food deprivation were determined by measuring the rate of weight loss, the tissue total protein concentrations and the plasma amino acid, urea, ammonia, uric acid and total protein levels. The mink has relatively poor adaptations to food deprivation, as it is not able to prolong phase II of fasting with fat as the major metabolic fuel. Instead, the species has to derive a part of its energy requirements from the breakdown of body proteins. The end product of protein catabolism—urea— accumulates in its circulation, and the mink may not be able to recycle urea-N. Although the mink can still have a high body fat percent at the end of the 7-day fast, it appears to enter phase III of fasting with stimulated proteolysis during this period.     

Metabolic and hormonal response to short term fasting after endurance training in the rat

The metabolic and hormonal response to short term fasting was studied after endurance exercise training. Rats were kept running on a motor driven rodent treadmill 5 days/wk for periods up to 1 h/day for 6 wk. Trained and untrained rats were then fasted for 24 h and 48 h. Liver and muscle glycogen, blood glucose, lactate, beta OH butyrate, glycerol, plasma insulin, testosterone and corticosterone were measured in fed and fasted trained and untrained rats. 48 h fasted trained rats show a lower level of blood lactate (1.08 +/- 0.05 vs 1.33 +/- 0.08 mmol/l-1 of blood glycerol (1 +/- 0.11 vs 0.84 +/- 0.08 mmol/l-1), and of muscle glycogen. There is a significant increase in plasma corticosterone in 48 h fasted trained rats from fed values. Plasma testosterone decreases during fasting, the values are higher in trained rats. Plasma insulin decreases during fasting without any difference between the two groups. These results show higher lipolysis, and decreased glycogenolysis in trained animals during 48 h fasting. The difference between the groups in steroid hormone response could reduce neoglucogenesis and muscle proteolysis in trained animals.     

Angiotensin-converting enzyme activity decreases during fasting

Serum angiotensin-converting enzyme (ACE) activity varies directly with thyroid hormone levels in states of altered thyroid function. Because T3 levels decrease during fasting, ACE activity was examined to ascertain if it was reduced in this low T3 condition. Eighteen obese euthyroid subjects were hospitalized and placed on a weight-maintaining diet for 4 days. Nine subjects (Group 1) underwent a fast (50 kcal/day) for 8 days. Nine (Group 2) subjects received T3 (5 micrograms q 3 h) during an identical fast. Weight loss was identical in both groups (-4.4 kg). Serum T3 fell in Group 1 from 104 +/- 8 to 50 +/- 4 ng/d/(p less than .05) but was unchanged in Group 2 (114 +/- 11 ng/dl fed vs. 120 +/- 14 ng/dl fasted). Blood pressures fell significantly in Group 1 (mean systolic: 112----104 mmHg; diastolic: 71----65 mmHg, p less than 0.05), but not in Group 2 subjects. ACE activity fell progressively in Group 1 subjects during fasting (14.4 +/- 1.6 U/ml fed vs. 12.8 +/- 1.4 U/ml fasted p less than 0.05). ACE activity was not decreased significantly early in the fast in patients given T3, but by late fast (days 6-8) was reduced to the same degree as in Group 1 subjects. Glucose and insulin levels fell similarly in both groups. Conclusions: (1) ACE activity is reduced during starvation. This effect is not mediated by T3. (2) Blood pressure reduction during fasting may result from the low T3 levels, but not from decreased ACE activity. Interpretation of serum ACE activity must be viewed in the context of a patient's diet.     

Metabolic response to starvation in late pregnant rats. II. Fetal response

Effect of prolonged maternal fasting on the fetal liver and heart glycogen and triglyceride content and on concentration of glucose, urea, uric acid and alpha amino-nitrogen in the amniotic fluid has been studied in rats. The animals were divided into four groups: fed (control), fasted for one day (from 20 to 21 day of pregnancy), fasted for two days (from 19 to 21 day) and fasted for three days (from 18 to 21 day). Maternal fasting for two and three days resulted in reduction in fetal growth. The fetal liver glycogen content was reduced already after one day of fasting, stabilized after two days and then further decreased after three days. The fetal heart glycogen content was reduced only after three days of fasting. The fetal liver triglyceride content increased gradually during the first two days of fasting and then stabilized. The content of triglycerides in the heart was elevated after two and three days of food deprivation. The amniotic fluid glucose concentration decreased after one day of fasting and then stabilized. Fasting did not effect the concentration of the nitrogenous compounds in the amniotic fluid. It is concluded that maternal fasting affects markedly metabolism of energy substrates stored in the fetal liver and the heart and the composition of the amniotic fluid.     

Endocrinologic adaptations to wintertime fasting in the male American mink (Mustela vison)

The aim of this study was to investigate the endocrine response to wintertime starvation in the male American mink (Mustela vison) fasted for 16 hrs, 2 days, 3 days, 5 days, or 7 days (n =10 per group). After 2 days of fasting, the plasma leptin concentrations decreased, along with the triiodothyronine, testosterone, and progesterone levels, and the blood monocyte counts. Leptin also seems to trigger the response to fasting in mustelids by inducing immunosuppression and downregulation of the reproductive and thyroid axes. The dramatic increase in the peptide YY concentrations after 3 days of fasting may be required to suppress gastrointestinal processes during food scarcity. The plasma insulin levels decreased, and those of glucagon increased after 5 days of fasting in association with efficient glucose sparing and lipid mobilization. Body energy stores cannot be wasted for growth during nutritional scarcity and, thus, the growth hormone levels of the minks decreased after 5 days of fasting. The plasma noradrenaline and cortisol concentrations also decreased after 3 and 7 days without food, respectively. The plasma ghrelin, adiponectin, resistin, thyroxine, adrenaline, or estradiol levels did not respond to fasting. The endocrine response to food deprivation is remarkably similar in divergent mammalian orders, indicating that the hormonal signals enhancing survival during nutritional scarcity must be evolutionarily old and well conserved.     

The effect of extrathyroidal conversion inhibitor from food-deprived animals on iodothyronines deiodination by pituitary and cerebral cortical homogenates in vitro

The influence of an inhibitor of iodothyronines' extrathyroidal conversion on T4, T3 and rT3 deiodination by adult pig pituitary and cerebral cortical homogenates has been investigated. The homogenates were incubated with T4, T3 and rT3 in the presence of 5 mM dithiothreitol and evaporated diethyl ether extracts of sera obtained from fed and starved (1-14 days) rabbits. The extracts had no influence either on T4 to T3 or on T4 to rT3 conversion in cerebral cortex. Deiodination of rT3 to 3,3'-T2 in that tissue was significantly inhibited only by the extracts of sera obtained from 4 days starved rabbits. Inner-ring deiodination of both rT3 and T3 was not changed by the extracts got from short-term (1-4 days) fasted animals but was significantly reduced by the extracts from long-term (7-14 days) food-deprived subjects. Pituitary conversion of T4 to T3 was diminished by 35% in the presence of sera extracts gained from 1-9 days fasted rabbits and by about 50% on day 14 of fasting, but only the latter change was statistically significant. Short-term fasting inhibited T4 to rT3 conversion on days 2 and 4. Both deiodinations of rT3 and 5-deiodination of T3 were affected by extracts of sera collected during long-term fasting.     

Suppression of Sympathetic Nervous System During Fasting

Two days of fasting in rats significantly reduces the turnover of norepinephrine in the heart. In contrast to the effects of ganglionic blockade in fed controls, similar blockade in fasted animals is without significant effect on [³H]-norepinephrine retention or endogenous norepinephrine in the heart. These data are consistent with suppression of centrally mediated sympathetic activity in the fasted state. The decrease in norepinephrine turnover during fasting is completely reversed by 1 day of refeeding.     

Estrogen induces hyperlipidemia in fasted chicks

To determine whether the estrogen-induced hyperlipidemia is affected by fasting, male growing chicks were administered subcutaneously a single dose of 17 beta-estradiol (25 mg/kg body wt), and the hormone treatment lasted for 2 days with or without feed (Experiment 1). In the second experiment, chicks were initially fasted for 1 or 3 days, and then treated with the same dosage of 17 beta-estradiol as in Experiment 1 for 2 days without feed. Plasma and liver lipids, and the activities of hepatic malic enzyme, glucose-6-phosphate dehydrogenase, and hormone-sensitive lipase in the adipose tissue were determined. Compared with fed control chicks, estrogen treatment in fed birds resulted in a marked elevation of plasma lipids, especially triglyceride during the 2-day period (137 vs 2263 mg/dl). In fasted chicks, the present finding that estrogen also induced a marked hyperlipidemia is noteworthy. Upon estrogen treatment (Experiment 1), the level of plasma triglyceride in fasted birds increased about 16 times over that of the fasted control group (133 vs 2093 mg/dl). Even in chicks fasted for 5 days (Experiment 2), estrogen treatment resulted in a persistent hypertriglyceridemia (75 vs 1369 mg/dl). In fed chicks, estrogen treatment also induced a fatty liver with massive accumulation of triglyceride, but the liver of estrogen-treated/fasted chicks appeared to be normal. In both fed and fasted chicks, malic enzyme was found to be the major NADPH producing enzyme in the liver. Upon fasting, both malic enzyme and glucose-6-phosphate dehydrogenase activities decreased significantly (P less than 0.05). In fed chicks, the total activities of both enzymes increased with estrogen treatment, whereas the effect of hormone on these enzymes was less obvious in fasted chicks. The hormone-sensitive lipase activity in the adipose tissue was much lower in fed chicks compared with that of fasted birds (0.15 vs 0.33 nmol of oleic acid released/min/mg protein). Estrogen treatment in fed chicks had no effect on the hormone-sensitive lipase activity, but its activity was enhanced by the hormone treatment in fasted chicks. The present finding that hyperlipidemia persisted in estrogenized chicks during the fasting seems to indicate the complex nature of this hormonal influence on lipid metabolism.     

Cholesterol catabolism in the rabbit in fasted and fed states.

Urinary and fecal endogenous steroid excretion of fed or fasted New Zealand white rabbits was determined by the isotopic steady state method after subcutaneous implantation of radioactive cholesterol. While plasma cholesterol was increasing during a 9-day fast, fecal steroid excretion decreased to 10% of the excretion rates in the fed state. Refeeding the fasted rabbits led to a decrease in plasma cholesterol and an increase in fecal endogenous steroid excretion. Urinary steroid excretion, which represented 18% of total endogenous steroid excretion for fed animals, decreased during fasting and increased during refeeding, but these changes were relatively small. The small intestine, cecum, and colon of fed or fasted rabbits had similar endogenous steroid was acidic steroid. During attempts to alter the circulating bile acid concentration by supplying deoxycholate (200 mg/day) to fed rabbits or cholestyramine (2 g/day) to fasted rabbits, plasma cholesterol concentration did not change to the same extent as during fasting or refeeding, respectively. The decreased cholesterol catabolism and the hypercholesterolemia that are seen in the fasting rabbit may result from decreased clearance of plasma cholesterol.     

Growth hormone stimulates the peripheral conversion of thyroxine into triiodothyronine by increasing the liver 5'-monodeiodinase activity in the fasted and normal fed chicken

Normal fed and 2 days fasted Warren chickens were injected intravenously with 100 micrograms of ovine growth hormone (GH) and ovine prolactin and plasma concentrations of thyroid hormones were assayed prior and up to 2 h after injection. Fasting alone decreases T3, but increases T4. An injection of GH resulted in increases of plasma T3 concentrations in two fasting experiments by 40% (after 3/4 h) and 104% (after 1 h). In normal fed animals no increase is observed in the first experiment, whereas a 35% increase occurs in the second one. An injection of 100 micrograms prolactin does not influence T3 in normal fed or fasting animals. Both GH and prolactin, however, may decrease plasma concentrations of T4. In a separate experiment 50 micrograms and 200 micrograms of GH raised the decreased T3 levels after fasting by 39% and 60% respectively 1 h after injection and by 24 and 61% respectively in normal fed chicken, whereas prolactin was ineffective in this regard. Using Hisex chickens, the influence of an injection of 100 micrograms GH on plasma concentrations of thyroid hormones could be confirmed. At the same time GH increases the liver 5'-monodeiodinase activity by 330% after 1 h and by 147% after 2 h. The peroxidase activity is not influenced in normal fed chickens, but GH decreases this activity in food deprived animals after 1 h and 2 h. It is concluded that ovine GH, but not prolactin, stimulates the peripheral conversion of T4 into T3 in both normal fed and food deprived chicken and that this effect is dose dependent.     

Albendazole failure to control resistant nematodes in lambs: lack of effect of fasting-induced improvement on drug absorption

Enhanced plasma availability of albendazole sulphoxide (ABZSO), the active metabolite of albendazole (ABZ), has been described in feed-restricted sheep. The aim of the present work was to determine if the absorption-related pharmacokinetic changes derived from fasting animals prior to drug treatment would modify the clinical efficacy of ABZ against resistant gastrointestinal nematodes in lambs. Forty Corriedale lambs, naturally infected with resistant gastrointestinal nematodes, were divided into 4 groups. Controls were fed ad libitum and did not receive any drug treatment. Treated animals were fed ad libitum up to 30 min prior to treatment with ABZ (3.8 mg/kg) by the intraruminal route. The control (fasted) animals were not fed during the 24-hr period prior to the start of the experiment and did not receive any drug treatment. A second treated group of animals were fasted 24 hr prior to the treatment with ABZ, as previously described for the fed-treated group. Blood samples were collected over a period of 72 hr post-treatment from 6 animals in each treated group. Plasma samples were analyzed by high performance liquid chromatography. The pharmacokinetic parameters were statistically compared using parametric statistical tests. The estimation of the efficacy of the different treatments was performed by the fecal egg count reduction test (FECRT). Additionally, 4 animals randomly chosen from the control-fed and treated groups were killed 13 days post-treatment to evaluate the efficacy against different adult nematode parasites. The results were statistically compared by parametric and non-parametric tests. Significantly (P < 0.05) higher Cmax and AUC values were observed for both the ABZSO and ABZ-sulphone (ABZSO(2)) metabolites in the fasted compared to the fed animals. These kinetic results may be due to a fasting-induced delay in the GI transit time which increases ABZ dissolution and GI absorption. However, a poor ABZ efficacy (measured as FECRT), compatible with a high degree of nematode resistance, was obtained in both fed (48%) and fasted (49%) animals. Haemonchus contortus and Trichostrongylus colubriformis appeared as the more reluctant species with respect to ABZ treatment. The efficacy against H. contortus ranged between 37 (fed) and 54% (fasted) and against T. colubriformis between 0% (fed) and 16% (fasted). Under these experimental conditions, the fasting-induced improvement on ABZ systemic availability (>60%) did not improve its activity against nematodes with a high degree of resistance. However, the data described here for a highly resistant nematode population should not discourage the use of fasting as a practical and well-proven management tool for parasite control in ruminants.     

dl-3-Hydroxybutyrate administration prevents myocardial damage after coronary occlusion in rat hearts

To investigate the role of high concentrations of dl-3-hydroxybutyrate (DL-3-HB) in preventing heart damage after prolonged fasting, infarct size and the incidence of apoptosis caused by ischemia-reperfusion were determined in four groups of Wistar rats. Fed rats (+/-DL-3-HB group) and fasted rats (+/-DL-3-HB group) were subjected to 30 min of left coronary artery occlusion and 120 min of reperfusion. DL-3-HB was administered intravenously 60 min before the coronary artery occlusion. Infarct size, defined by triphenylyetrazolium chloride (TTC) staining, was reduced from 72 +/- 3% (fed group), 75 +/- 5% (fed + DL-3-HB group), and 70 +/- 5% (fasting group), respectively, to 26 +/- 4% (P < 0.01 vs. fasting + DL-3-HB group). Apoptosis, as defined by single-stranded DNA staining, was significantly reduced in the subendocardial region in the fasting + DL-3-HB group (9 +/- 2%) compared with the other groups (39 +/- 6% in the fed group, 37 +/- 5% in the fed + DL-3-HB group, and 34 +/- 3% in the fasting group; P < 0.01). In addition, levels of ATP in the fasting + DL-3-HB group were significantly higher compared with other groups after 30 min of ischemia and 120 min of reperfusion (P < 0.01). In conclusion, the present study demonstrates that high concentrations of DL-3-HB reduces myocardial infarction size and apoptosis induced by ischemia-reperfusion, possibly by providing increased energy substrate to the fasted rat myocardium.     

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.     

Influence of pimozide on a TRH induced TSH secretion in the rat during food deprivation.

Adult Wistar rats food deprived for 3 days had lower basal levels of TSH compared to normal fed animals. An increase of these lower levels to normal values was obtained following a prolonged (injections during 3 consecutive days) or acute treatment (single injection) with pimozide (1 mg/injection). Blood samples obtained after the last or an only injection of pimozide contained profound increased prolactin levels. Prolactin increase was more than 100-fold in fed and more than 30-fold in starved rats following prolonged pimozide treatment and more than 25-fold and 10-fold following a single injection of pimozide. An injection of 250 ng of TRH increased plasma concentrations of TSH in all groups, but this increase was more pronounced in fasted rats injected with pimozide during 3 consecutive days. It is concluded that fasting results in a dopaminergic inhibition of the sensitivity of the thyrotrophs to a TRH challenge.