Diel variations in plasma glucose concentrations of Malachite Sunbirds Nectarinia famosa

Plasma glucose concentrations in birds are much higher than those in mammals of similar body mass, and they are thought to be kept more or less constant. We investigated plasma glucose concentrations of Malachite Sunbirds (Nectarinia famosa) to determine whether there was a circadian rhythm in plasma glucose and whether plasma glucose concentrations rose at lower temperatures. We explored the possibility that glycogenolysis and gluconeogenesis might be used by birds before daylight to generate body heat during arousal from torpor or from overnight adaptive heterothermy. Plasma glucose concentration of Malachite Sunbirds were relatively high, between 13.6 and 21.4 mmol/L. Plasma glucose concentrations were higher at 5°C than at 25°C, and generally lower during the scotophase, particularly in the early hours of the morning. Therefore, it appears that Malachite Sunbirds are not increasing plasma glucose concentrations during arousal from torpor or to increase scotophase body temperature levels to photophase levels. It is apparent that these nectarivorous birds have a circadian variation in plasma glucose concentrations that is affected by ambient temperature and feeding patterns.     

Changes in various plasma lipid components, glucose, and insulin in Spermophilus lateralis during hibernation

This study evaluated fat mobilization as related to gluconeogenesis in two age groups of hibernating golden-mantled ground squirrels (Spermophilus lateralis). Our experimental group consisted of a total of 16 male and 15 female squirrels. Plasma samples were collected from selected animals being killed weekly from January to March, and the concentration of triglycerides, glycerol (GY), free fatty acids (FFA), total cholesterol, lipase activity, glucose, and insulin, were determined by biochemical assays and radioimmunoassay. Our results showed a mean FFA/GY ratio of five, which was higher than the predicted value of three, suggesting a significant depletion of GY and an enhanced rate of gluconeogenesis via GY to maintain glucose homeostasis in the hibernating animals. The factor of age did not significantly affect plasma lipid components. However, in the male group, plasma glucose levels were significantly higher for adults than for juveniles. Overall, females had significantly higher plasma glucose levels than males (150 ± 11 vs. 110 ± 8 mg%, P < 0.05). In the adult group, a gender influence was also seen on plasma insulin levels, with females' being higher than males' (66 ± 13 vs. 25 ± 3 μIU/ml, P < 0.01). We suggest that during hibernation, female squirrels may have a higher rate of lipolysis and gluconeogenesis along with a lower glucose utilization than their male counterparts. Additionally, adult females may exhibit a higher peripheral insulin resistance during hibernation than adult males, a possibility which merits further study.     

The Dynamics of Adaptive Changes in the Spleen of the Hibernating Ground Squirrel <Emphasis Type="Italic">Spermophilus undulatus</Emphasis>

In hibernation season during torpor bouts, the spleen weight and the hemoglobin level, as well as the total and extracted protein contents in the spleen of the ground squirrel Spermophilus undulatus are increased when animals enter torpor and reach maximum values when the body temperature drops below 25°C. All these parameters return to the characteristic values of the euthermic animals during arousal, before the body temperature increases to 20°C. There were no significant differences in the numbers of splenocytes between ground squirrels in interbout euthermia and torpor. The minimum number of splenocytes was observed in animals that entered torpor when the core body temperature was approximately 18°C. The activity of ornithine decarboxylase, a key enzyme in polyamine synthesis, which is correlated with the functional and proliferative status of lymphoid tissue, was the same for the euthermic and summer ground squirrels and decreased monotonically during torpor. Upon arousal of the animals when body temperature was below 29°C, no resumption of the spleen ornithine decarboxylase activity was observed.     

Simultaneous elevation of plasma insulin and catecholamines during endotoxicosis in the conscious and anesthetized rat

Plasma levels of glucose, insulin and catecholamines were assessed during the early phase of sub-lethal endotoxicosis in fasted male rats which were either conscious or continuously anesthetized with sodium pentobarbital. Exogenous glucose challenge was administered during endotoxicosis to probe insulin release at a time when plasma catecholamines were elevated. An endogenous hyperglycemia occurred following endotoxin but was moderated by continuous pentobarbital anesthesia. Plasma insulin was elevated in the conscious but not anesthetized rats during endogenous hyperglycemia following endotoxin. Hyperglycemia with exogenous glucose elevated plasma insulin levels in both conscious and anesthetized groups and occurred in the presence of elevated levels of norepinephrine, epinephrine and dopamine. Simultaneous elevation of plasma catecholamine and insulin levels during endotoxicosis suggests that glucose utilization may be promoted at the same time that glucose is mobilized through adrenergic mechanisms. These events may contribute to the rapid depletion of carbohydrate stores leading to the hypoglycemia of the agonal stage of endotoxic shock.     

The effect of metabolic fuel availability on thermoregulation and torpor in a marsupial hibernator

The physiological signal for torpor initiation appears to be related to fuel availability. Studies on metabolic fuel inhibition in placental heterotherms show that glucose deprivation via the inhibitor 2-deoxy-D-glucose (2DG) initiates a torpor-like state, whereas fatty acid deprivation via mercaptoacetate (MA) does not. As previous studies using inhibitors were limited to quantifying body temperature in placentals, we investigated whether inhibition of glucose or fatty acids for cellular oxidation induces torpor in the marsupial hibernator Cercartetus nanus, and how the response of metabolic rate is related to body temperature. Glucoprivation initiated a torpor-like state in C. nanus, but animals had much higher minimum body temperatures and metabolic rates than those of torpid food-deprived animals and arousal rates were slower. Moreover, 2DG-treated animals were thermoregulating at ambient temperatures of 20 and 12 °C, whereas food-deprived torpid animals were thermo-conforming. We suggest that glucoprivation reduces the hypothalamic body temperature set point, but only by about 8 °C rather than the approximately 28 °C during natural torpor. Reduced fatty acid availability via MA also induced a torpor-like state in some C. nanus, with physiological variables that did not differ from those of torpid food-deprived animals. We conclude that reduced glucose availability forms only part of the physiological trigger for torpor initiation in C. nanus. Reduced fatty acid availability, unlike for placental heterotherms, may be an important cue for torpor initiation in C. nanus, perhaps because marsupials lack functional brown adipose tissue.Abbreviations BAT brown adipose tissue - BMR basal metabolic rate - 2DG 2-deoxy-D-glucose - FD food deprived - GLM general linear models - MA mercaptoacetate - MR metabolic rate - RQ respiratory quotient - T_a ambient temperature - T_b body temperature - T_set body temperature set pointCommunicated by I.D. Hume     

Auditory brainstem responses in ground squirrels arousing from hibernation

Summary Auditory brainstem responses (ABRs) were recorded in ground squirrels (Citellus lateralis) arousing from hibernation. Squirrels implanted with recording screws to record ABRs, and a thermistor to record brain temperature, were placed in a cold room at 9 °C on a 2L:22D light-dark cycle. Hibernating animals were moved from the cold room and ABRs recorded during arousal. The responses showed a gradual development of all brainstem peaks.At low temperatures there were very long latencies to the peaks. The amplitudes of the peaks increased (with fluctuations) as brain temperature increased. The data indicate that neural generators on the brainstem auditory pathway were all activated early in arousal.These results do not support the hypothesis that successive peaks appear and grow in amplitude only after previous peaks are fully developed.     

Temporal changes in liver carbohydrate metabolism associated with seawater transfer in Oreochromis mossambicus

The metabolic aspects of ionic and osmotic regulation in fish are not well understood. The objective of this study was to examine changes in carbohydrate metabolism during seawater (SW) acclimation in the euryhaline tilapia (Oreochromis mossambicus). Hepatic activities of three key enzymes of the intermediary metabolism, phosphofructokinase, glycogen phosphorylase and glucose 6-phosphate dehydrogenase, together with glycogen content and plasma glucose concentration were measured at 0, 0.5, 1, 2, 3, 6, 12, 24, 48 and 96 h after the direct transfer of tilapia from fresh water (FW) to 70% SW. Plasma growth hormone, prolactin₁₇₇ and prolactin₁₈₈, Na⁺ and Cl⁻ concentrations were also measured. Plasma Na⁺ and Cl⁻ levels were highest at 12 h, but returned to FW levels at 24 h after transfer, suggesting the tilapia were able to osmoregulate within 24 h after transfer. Plasma glucose levels were significantly higher in 70% SW than in FW during the course of acclimation, especially in the early stages. Hepatic enzyme activities and glycogen content did not change significantly during the acclimation period. Our results suggest the possibility that glucose is an important energy source for osmoregulation during the acclimation to hyperosmotic environments in O. mossambicus.     

Characteristics of auditory brainstem responses in ground squirrels

Summary Auditory brainstem responses (ABRs) were characterized at 37 °C in ground squirrels (Citellus lateralis) which were implanted with recording screws to record ABRs, and a thermistor to record brain temperature. After two weeks ground squirrels were reanesthetized and tone pips and clicks were delivered through a TDH-49 headphone.Recorded ABRs were found to vary in a predictable manner as a function of stimulus frequency and intensity. At intensities above 50 dB SPL, ABRs could be recorded over the range tested (2–32 kHz). An 8 kHz tone pip was the best frequency for recording ABRs at the lowest stimulus intensities. Latencies decreased as stimulus frequencies increased from 4 kHz to 32 kHz.     

Lipid Peroxidation and Status of the Antioxidant System in Tissues of Little Suslik (Citellus pygmaeus) in the Course of Hibernation

The rate of lipid peroxidation and activities of superoxide dismutase, catalase, and hydrophilic antioxidants were studied in the hypothalamus, liver, kidney, myocardium, skeletal muscle, and serum of Citellus pygmaeus upon entering hibernation (18–20°C), in early torpor (7–10°C), and after hibernation for a week or three months (5–10°C). During hibernation, lipid peroxidation proved to either decrease or remain at the level characteristic of waking animals. High antioxidant activity was maintained in most tissues, particularly, in the case of prolonged hibernation.     

The glyceride fatty acid composition and lipid content of brown and white adipose tissue of the hibernator Citellus lateralis

Glyceride and total phosphatide levels of brown and white fat of Citellus lateralis have been followed throughout the year in biopsy samples. Extraction of the glycerides for fatty acid analysis is described. As much as 20% of the phosphatide of brown fat was found in the upper fat layer of a centrifuged tissue homogenate. This phosphatide appeared to be present as a low-density lipoprotein, and may be associated with the lipid globules of the intact cell. Glyceride and phosphatide levels varied considerably in brown fat, and no particular level was consistently observed to be associated with any part of the hibernation cycle. Fatty acid composition of the glycerides also varied widely. The degree of unsaturation was not related to the hibernation cycle, although there appeared to be a differential utilization of fatty acids during a few weeks prior to spring arousal. A decrease in tissue glyceride levels was observed in both brown and white fat during arousal from hibernation at 2°C, the loss from brown fat being double the loss from white fat.     

Reduction of metabolism during hibernation and daily torpor in mammals and birds: temperature effect or physiological inhibition?

Summary The present study addresses the controversy of whether the reduction in energy metabolism during torpor in endotherms is strictly a physical effect of temperature (Q₁₀) or whether it involves an additional metabolic inhibition. Basal metabolic rates (BMR; measured as oxygen consumption, ), metabolic rates during torpor, and the corresponding body temperatures (T _b) in 68 mammalian and avian species were assembled from the literature (n=58) or determined in the present study (n=10). The Q₁₀ for change in between normothermia and torpor decreased from a mean of 4.1 to 2.8 with decreasingT _b from 30 to <10°C in hibernators (species that show prolonged torpor). In daily heterotherms (species that show shallow, daily torpor) the Q₁₀ remained at a constant value of 2.2 asT _b decreased. In hibernators with aT _b<10°C, the Q₁₀ was inversely related to body mass. The increase of mass-specific metabolic rate with decreasing body mass, observed during normothermia (BMR), was not observed during torpor in hibernators and the slope relating metabolic rate and mass was almost zero. In daily heterotherms, which had a smaller Q₁₀ than the hibernators, no inverse relationship between the Q₁₀ and body mass was observed, and consequently the metabolic rate during torpor at the sameT _b was greater than that of hibernators. These findings show that the reduction in metabolism during torpor of daily heterotherms and large hibernators can be explained largely by temperature effects, whereas a metabolic inhibition in addition to temperature effects may be used by small hibernators to reduce energy expenditure during torpor.Abbreviation BMR basal metabolic rate     

Urinary C‐Peptide Excretion: A Novel Alternate Measure of Insulin Sensitivity in Physiological Conditions

Insulin sensitivity (IS) is measured by the euglycemic–hyperinsulinemic clamp under a nonphysiological condition. Daily C‐peptide urinary excretion may be a physiological index of IS, because C‐peptide is co‐secreted with insulin as a function of nutrient intake and IS. The amount of ²H₂O released from glycolytic glucose metabolism after [6,6‐²H₂]‐glucose ingestion was recently proposed as a physiological measure of IS. We compared these IS surrogates to the gold standard (euglycemic–hyperinsulinemic clamp). Thirty (15 male/15 female) sedentary, nondiabetic participants (27.2 ± 4.0 (s.d.) kg/m², 35 ± 12 years) were admitted for 3 days to our in‐patient unit. After a 10‐h fast, they received 60 g of glucose and 15 g of [6,6‐²H₂]‐glucose. Before glucose ingestion and hourly thereafter for 4 h, plasma glucose and insulin concentrations, and plasma deuterium enrichment were determined. Plasma ²H₂O production divided by insulin response was used as the glycolytic index. On day 2, subjects spent 23 h in a metabolic chamber (eucaloric diet, 50% carbohydrate, 30% fat). Urinary C‐peptide excretion was divided by energy intake yielding the C‐peptide to energy intake ratio (CPEP/EI). After leaving the chamber (day 3, 10‐h fast), IS was measured by a 2‐h clamp (120 mU/m²/min). Average IS (clamp) was 7.3 ± 2.6 mg glucose/kg estimated metabolic body size/min (range: 3.6–13.2). These values were inversely correlated with CPEP/EI (r = ?0.62; P < 0.01) and positively with the glycolytic rate (r = 0.60; P < 0.01). In nondiabetic subjects, two novel estimates of IS—daily urinary C‐peptide urinary excretion and glycolytic rate during an oral glucose tolerance test —were related to IS by a clamp.     

Plasma triglyceride levels correlate with body weight,age and gender influence body weight changes in Spermophilus lateralis during prehibernation and hibernation

Our experimental groups consisted of a total 16 male (M) and 15 female (F), juvenile and adult Spermophilus lateralis. This study evaluated weight gain rate (WGR) and mass-specific rate of gain (MSRG) during prehibernation, and weight loss rate (WLR), mass-specific rate of loss (MSRL) plus changes in the levels of plasma triglyceride (TG) during hibernation in these squirrels (SQ). Between January and March, the plasma samples were obtained from 26 SQ. Plasma TG was determined enzymatically, and it averaged 189 mg% with no significant difference in gender. Correlations were observed between plasma TG and sacrificed body weight (r = 0.441, p < 0.05), and between plasma TG and MSRL (r = 0.409, p < 0.05), although plasma TG was not correlated with WLR during hibernation. Juvenile female SQ had a higher WGR than adult female SQ, but no significant difference was found between juvenile and adult males. Both juvenile males and females showed a significantly higher MSRG than adult male and female SQ. Conversely, adult male SQ had a higher WLR and MSRL than juvenile male SQ, but no significant difference was observed between adult and juvenile females. Moreover, juvenile male SQ showed a significantly lower WLR but not MSRL than juvenile females. For these animals, our results suggest that the age factor influences on WGR and MSRG during prehibernation, and also influences on WLR and MSRL during torpor.     

Time-dependent thresholds for torpor initiation in the rufous hummingbird (Selasphorus rufus)

Summary Three models for torpor initiation were tested in rufous hummingbirds (Selasphorus rufus) during moult, when these birds appear to avoid the use of torpor. In model 1, the level of energy reserves at which torpor is initiated (the threshold) remains constant throughout the night. In model 2, the threshold declines throughout the night, at a constant rate equivalent to the rate at which energy reserves are depleted during torpor. In model 3, the threshold declines at a rate equivalent to the rate of energy reserve depletion during torpor for most of the night, but at a higher rate (corresponding to the rate of energy expenditure during normothermia) during the final 2 h of the night, when these birds are usually normothermic. Model 1 predicts the most frequent and longest bouts of torpor, whereas model 3 predicts the fewest and shortest bouts. To determine the thresholds for each of 12 birds, food supply was manipulated to induce entry into torpor at different times on successive nights. Threshold slopes matched the predictions of model 3 most closely. Calculations comparing observed incidence of torpor with the predictions of model 1 show that the actual, time-dependent threshold for torpor initiation resulted in a 72% reduction in the number of torpor bouts compared with the number of torpor bouts that should have been initiated by a constant threshold. The advantage of a time-dependent threshold is that, although torpor is initiated when needed to prevent energy reserves from falling below a critical level, the amount of time spent in torpor can be minimized. This may be especially important to rufous hummingbirds during the spring moult, because lowered metabolic rates during torpor probably result in decreased rates of feather replacement during the moult and may thus have consequences for thermoregulation, territorial defence, and timing of the spring migration.     

Daily torpor in the gray mouse lemur (Microcebus murinus) in Madagascar: energetic consequences and biological significance

Patterns and energetic consequences of spontaneous daily torpor were measured in the gray mouse lemur (Microcebus murinus) under natural conditions of ambient temperature and photoperiod in a dry deciduous forest in western Madagascar. Over a period of two consecutive dry seasons, oxygen consumption (VO₂) and body temperature (T _b) were measured on ten individuals kept in outdoor enclosures. In all animals, spontaneous daily torpor occurred on a daily basis with torpor bouts lasting from 3.6 to 17.6 h, with a mean torpor bout duration of 9.3 h. On average, body temperatures in torpor were 17.3±4.9°C with a recorded minimum value of 7.8°C. Torpor was not restricted to the mouse lemurs’ diurnal resting phase: entries occurred throughout the night and arousals mainly around midday, coinciding with the daily ambient temperature maximum. Arousal from torpor was a two-phase process with a first passive, exogenous heating where the T _b of animals increased from the torpor T _b minimum to a mean value of 27.1°C before the second, endogenous heat production commenced to further raise T _b to normothermic values. Metabolic rate during torpor (28.6±13.2 ml O₂ h^–1) was significantly reduced by about 76% compared to resting metabolic rate (132.6±50.5 ml O₂ h^–1). On average, for all M. murinus individuals measured, hypometabolism during daily torpor reduced daily energy expenditure by about 38%. In conclusion, all these energy-conserving mechanisms of the nocturnal mouse lemurs, with passive exogenous heating during arousal from torpor, low minimum torpor T _bs, and extended torpor bouts into the activity phase, comprise an important and highly adapted mechanism to minimize energetic costs in response to unfavorable environmental conditions and may play a crucial role for individual fitness. Received: 8 July 1999 / Accepted: 3 December 1999     

The Relationship Between Lipid Peroxidation, Hibernation, and Food Selection in Mammals

SYNOPSIS. A diet that has high levels of polyunsaturated fattyacids enhances mammalian torpor. Polyunsaturated fatty acidsare not synthesized by mammals, but are incorporated into bothmembrane and storage lipids when they occur in the diet. Polyunsaturatedfatty acids also undergo autoxidation more readily than otherfatty acids, thereby producing highly toxic lipid peroxides.Lipid peroxidation increases during torpor. Natural selectionin mammalian hibernators should thus have favored the evolutionof dietary preferences that maximize hibernation ability whilesimultaneously minimizing the degree of lipid peroxidation duringtorpor. This hypothesis was tested in laboratory experimentsand field studies involving golden-mantled ground squirrels(Spermophilus lateralis). We found that the intake of polyunsaturatedfatty acids isrestricted during the fall and autoxidation intissues occurs mostly during the later phases of hibernation.     

Dietary carbohydrate level and glucose metabolism in turkey poults.

1. Feeding British United turkeys (BUT) and Nicholas turkeys (NT) diets with varying carbohydrate levels for 24 hr post-hatch resulted in lower hepatic glucose-6-phosphatase activity and higher plasma glucose levels as dietary carbohydrate level was increased. 2. There were no differences between the strains in liver weight or glucose-6-phosphatase activity, but BUT exhibited higher plasma glucose values than did NT at the two highest levels of carbohydrate. Plasma glucose did not differ between strains at the lowest level of carbohydrate or in fasted poults. 3. Blood glucose values were consistently higher in both strains when sampled 1 hr after initial sampling of fasted poults. 4. Both strains were able to maintain the 1 hr blood glucose levels through 24 hr when kept at approximately 37 degrees C. 5. When held at approximately 21 C for the first hour and at approximately 37 degrees C through 24 hr fasted NT were able to maintain the initial blood glucose rise while BUT were not.