DNA polymerase activity in heat killing and hyperthermic radiosensitization of mammalian cells as observed after fractionated heat treatments

Possible relations between hyperthermic inactivation of alpha and beta DNA polymerase activity and hyperthermic cell killing or hyperthermic radiosensitization were investigated. Ehrlich Ascites Tumor (EAT) cells and HeLa S3 cells were treated with fractionated doses of hyperthermia. The heating schedules were chosen such that the initial heat treatment resulted in either thermotolerance or thermosensitization (step-down heating) for the second heat treatment. The results show that for DNA polymerase activity and heat radiosensitization (cell survival) no thermotolerance or thermosensitization is observed. Thus hyperthermic cell killing and DNA polymerase activity are not correlated. The correlation of hyperthermic radiosensitization and DNA polymerase activity was substantially less than observed in previous experiments with normotolerant and thermotolerant HeLa S3 cells. We conclude that alpha and beta DNA polymerase inactivation is not always the critical cellular process responsible for hyperthermic cell killing or hyperthermic radiosensitization. Other possible cellular systems that might determine these processes are discussed.     

Effect of glycerol and low pH on heat-induced cell killing and loss of cellular DNA polymerase activities in Chinese hamster ovary cells

A whole-cell assay technique for DNA polymerase alpha and beta was used to measure the activities of both enzymes in Chinese hamster ovary (CHO) cells after hyperthermic treatment of 42.2 - 45.5 degrees C in acidic or basic environment and in the presence or absence of 5% glycerol. Cell survival was measured at the same time, and the DNA polymerase activities were correlated with survival. The results show a positive correlation between cell killing by heat and loss of DNA polymerase beta activity, both when cells were sensitized to heat by treatment at pH 6.7 with or without glycerol and when cells were protected from heat by treatment with 5% glycerol at pH 7.4 or 6.7. The results show a poor correlation between loss of DNA polymerase alpha activity and cell survival; i.e., compared to cell killing, the loss of DNA polymerase alpha activity was sensitized to heat more by acidic treatment without glycerol and was protected less from heat by glycerol treatment at normal physiological pH (pH 7.4). However, cell killing and loss of polymerase alpha activity did correlate well for sensitization to heat by acidic treatment in the presence of glycerol and for protection from heat by glycerol treatment at low pH. These results considered with other hyperthermia-polymerase studies suggest that heat effects on membranes can apparently result in changes in environmental conditions within the cell (secondary effects), which can in turn alter polymerase activities and/or the direct or secondary effect of heat on the polymerase enzymes. Furthermore, loss of polymerase beta activity serves as a better index of thermal damage resulting in cell death than loss of alpha activity.     

Serum electrolyte and enzyme responses to heat stress and dehydration in the fowl (Gallus domesticus)

1. Serum electrolytes, enzymes and various metabolites were determined in the hyperthermic and dehydrated fowl. 2. In normally-hydrated fowls, heat stress did not significantly affect blood constituents. 3. Water deprivation for 48 hr (dehydration) significantly (p less than 0.05) increased Na+, osmolality, SGPT and T3-retention. 4. During hyperthermic dehydration, Na+, Cl-, osmolality (p less than 0.01), BUN, glucose, T3-retention (p less than 0.02) and uric acid (p less than 0.001) significantly increased. 5. The present findings are consistent with the suggestion that changes in Na+/Ca2+ ratio might raise the hypothalamic thermoregulatory set-point and support our previous findings that acclimated fowls could efficiently regulate body temperature and acid-base status while avoiding extreme metabolic and enzymatic changes during heat exposure and dehydration.     

Sublethal temperature stress in juvenile Labeo rohita (Ham-Buch.) and Rita rita (Ham.): some physiological changes

Juveniles of fish L. rohita and R. rita subjected to a rapid (5 min) sublethal temperature increase from 28 to 35 degrees C showed significant increase in cortisol and decrease in interrenal ascorbic acid. Hypercholesterolemia, hyperglycemia and hyperlactemia were also evident accompanied by increased blood haemoglobin and haematocrit and stable protein levels. Compensatory responses were initiated within 72 hr in both the fishes. R. rita recovered more quickly indicating it to be more resistant to the heat stress than L. rohita. Hence fishes subjected to sublethal temperature stress should be given a metabolic recovery period of 72 hr prior to further stress being applied.     

Differential effects of adrenergic blockade on seasonal changes in core temperatures and thermal conductances of deer mice maintained in thermal neutral environments

1. Resting, daytime, thermal conductances and metabolic rates of mice conditioned to winter (10:14LD) and summer (14:10LD) photoperiods were reduced by social huddling; huddling resulted in group size related elevations in core temperature during summer, but not with winter light-dark cycle exposures. 2. Core temperatures of resting, solitary winter animals were lower than those of summer; both summer and winter animals' core temperatures were further reduced by increased thermal conductance resulting from (phentolamine) alpha receptor blockade. 3. Social huddling reduction of the heat loss from phentolamine treatment was more effective for winter (10:14LD) animals. 4. While phentolamine treatment resulted in increased thermal conductance and lower core temperatures of the mice, propranalol treatment resulted in lower core temperatures and resting metabolic rates, with a resulting decrease in thermal conductance. 5. Since adrenergic blockade was less dose-effective on winter animals, we reasoned that winter animals display higher levels of endogenous adrenergic capacity than summer animals and that lower winter thermoregulatory set points provide for energy conservation with enhanced capacity for meeting cold challenge.     

Characterization of alpha-adrenoceptors involved in central thermoregulation in rabbits

Intracerebroventricular (icv) injection of methyldopa induced body temperature changes in the rabbits. The dose of 100 micrograms/kg did not produce any significant change on body temperature whereas 250 micrograms/kg of the drug induced hyperthermia. Higher dose of 500 micrograms/kg produced initial hypothermia which was followed by hyperthermia. On further increase of the dose to 1 mg/kg, consistent hypothermia was evident. Prazosin, a specific post-synaptic alpha 1 adrenoceptor blocker, induced hypothermia whereas piperoxan (presynaptic alpha 2 antagonist) produced hyperthermia. The pretreatment with prazosin, blocked the hyperthermic response of methyldopa. The initial hypothermia by 500 micrograms/kg of methyldopa was also potentiated. The pretreatment with piperoxan completely blocked the hypothermia but had no effect on hyperthermic response of methyldopa. Pretreatment of rabbits with both prazosin and piperoxan completely blocked the hypothermia as well as hyperthermic response of methyldopa. Thus it appeared that both presynaptic alpha 2 and postsynaptic alpha 1 adrenoceptors are involved in central thermoregulation in rabbits.     

Depressed thermogenesis but competent brown adipose tissue recruitment in mice devoid of all hormone-binding thyroid hormone receptors

We have examined the metabolic role of hormone-binding nuclear thyroid hormone receptors (TRs). Mice devoid of all hormone-binding TRs [TR alpha 1(-/-)beta(-/-) (TR-ablated mice)] had slightly decreased body temperature and much decreased basal metabolic rate, were still able to markedly increase metabolic rate in the cold, but were cold intolerant due to inadequate total heat production at low temperatures. A standard norepinephrine test showed that adrenergically induced thermogenesis could not be activated normally in the TR-ablated mice. This was not due to inadequate recruitment of brown adipose tissue, nor to the absence, decreased recruitment or dysfunction of the uncoupling protein-1. However, isolated brown fat cells were 10-fold desensitized, explaining the lack of response to standard adrenergic stimuli; cell culture experiments demonstrated that this desensitization was not an innate effect. Thus, the cold intolerance was probably not due to inadequate sympathetically induced nonshivering thermogenesis. Additionally, the results indicated that no metabolic effects of thyroid hormones could become manifest in the absence of nuclear TRs, that ligand-bound TRs were needed for euthermia and eumetabolism, but that TRs per se were not required for brown adipose tissue recruitment and uncoupling protein-1 gene expression.     

Effects of interleukin-1 on fibroblast extracellular matrix, using a 3-dimensional culture system

This study describes the alterations induced by Interleukin-1 alpha and -beta (IL-1 alpha and IL-1 beta) on fibroblast-synthesized extracellular matrix. Fibroblasts were grown between pieces of dentin or in collagen-coated Terasaki wells for 3 or 6-9 weeks to create 3-dimensional cell-containing matrices constituted primarily of proteoglycans and collagens, respectively. Following incubation with IL-1 alpha or IL-1 beta (10(-9) M) at 37 degrees C for 24 or 72 hr, samples were prepared for light and electron microscopy. Both IL-1 alpha and IL-1 beta induced collapse of the extracellular matrix by 72 hr, as manifested by a decrease of the cross-sectional area and an increased density of the matrices. Three-week matrices were reduced 26% and 45% by using IL-1 alpha and IL-1 beta, respectively. Comparable values obtained by using 6-week matrices were 14% and 30%. Cells within the matrix, normally stellate in shape with numerous extended processes, attained a more rounded or spindle shape with few and reduced processes and showed apparent alterations at cell matrix attachment sites and rearrangement of the cytoskeleton. Elongated cells at the top of the matrix appeared more compressed. The alterations were more pronounced in cultures incubated with IL-beta than with IL-1 alpha. Immunocytochemistry of extracellular matrix components revealed a decrease in staining intensity of chondroitin and dermatan sulfate in the 3-week matrix following IL-1 beta incubation. There was also a decrease in collagen type 1 staining of 9-week matrices treated with IL-1 alpha or IL-1 beta. These studies show that IL-1 has an effect on fibroblast-synthesized extracellular matrix and indicate that the effects of IL-1 alpha and IL-1 beta may differ. The resulting collapse of the matrix appears at least in part to be due to changes in proteoglycans and collagens.     

Ethynylestradiol-17 beta D-ring glucuronide conjugates are potent cholestatic agents in the rat

17 alpha-Ethynylestradiol-17 beta (beta-D-glucuronide) [EE217 beta (beta G)], a metabolite of 17 alpha-ethynylestradiol (EE2) identified in urine of women taking EE2 in oral contraceptives, and its synthetic anomer, 17 alpha-ethynylestradiol-17 beta (alpha-D-glucuronide), [EE217 beta (alpha G)], were administered intravenously to female rats in order to determine their effects on bile flow. Both agents induced an immediate, profound and dose-dependent decrease in bile flow which returned to control levels within 1-8 hr. The logarithm of the dose vs the cholestatic response curves for the two anomers were not parallel. EE217 beta (alpha G) was significantly more potent than EE217 beta (beta G) such that the doses inhibiting bile flow by 50% were 1.25 and 11 mumol/kg for the alpha-and beta-anomer respectively.     

Stimulation of lymphocyte migration by endotoxin, tumor necrosis factor, and interferon

Since several studies have demonstrated that lipopolysaccharide (LPS), tumor necrosis factor (TNF), and interleukin-1 (IL-1) enhanced lymphocyte binding to endothelial cells in vitro, we examined the effects of these agents on lymphocyte migration in vivo. Small peritoneal exudate lymphocytes (sPEL), which perferentially migrate into inflammatory sites, were radiolabeled with 111In and injected iv into rats. The id injection of LPS was a strong stimulus for the migration of these cells into the skin. TNF alpha was also a good stimulator of lymphocyte migration, while TNF beta and IL-1 alpha were weak or nearly inactive. Kinetic analysis demonstrated that migration to TNF was rapid, with a peak at 6 hr, followed by a steady decline, while migration to LPS was sustained for 24 hr. TNF alpha, TNF beta, and IL-1 alpha, when combined with interferon-gamma (IFN-gamma) or IFN-alpha/beta produced striking synergistic increases in lymphocyte migration. Combinations of the TNFs and IL-1 had less than additive effects, as did combinations of the IFNs. Qualitatively similar migration responses were found when spleen T cells instead of sPEL were studied.     

Thermoregulation during marathon running in cool, moderate, and hot environments.

A well-trained subject, age 38, ran continously for periods ranging from 60 to 165 min on a motor-driven treadmill at 255.7 m/min while confronted with an airflow equivalent to running speed in cool, moderate, and hot environments. After a period of intensive heat acclimatization, treadmill runs were repeated in the moderate and hot conditions. Measurements were also obtained outdoors in a competitive marathon race. Sweat rate (SR) and mean skin temperature (Ts) were linearly related to Tdb. Acclimatization did not alter VO2max or metabolic rate during the treadmill runs, but heart rat (HR),rectal temperature (Tre), and Ts were lower, SR was higher, and maximal run duration longer in the hot environment, postacclimatization. Maximum runs in the hot environment were terminated by a spiralling increase in Tre to hyperthermic levels, due largely to a marked reduction in cutaneous blood flow, probably reflecting cardiovascular overload from the combined muscular and thermoregulatory blood flow demands, coupled with the effects of progressive dehydration. Utilizing partitional calorimetry and the subject's metabolic heat production, two examples of limiting environmental conditions for his marathon running speed were given.     

Involvement of adrenergic receptors in skeletal muscle metabolism of the cold-adapted rat

Hind-limb perfusion was used to investigate alterations of alpha and beta receptor-mediated metabolic effects in cold-adapted (CA) rats. The response to beta receptor stimulation by isoproterenol in the isolated hind-limbs of CA rats was slightly diminished. Oxygen consumption and lactate production were reduced in CA rats after beta receptor stimulation. Noradrenalin infusion caused less vasoconstriction in CA rats than in the controls (CO). Desensitization of alpha and beta receptors due to chronic sympathetic overstimulation may be the underlying cause of these observations. Compared with the controls, metabolism was enhanced in perfused hind-limbs of CA rats with an active nervous system. Decreased vascular resistance due to the lower perfusion pressure in CA rats might contribute to this increased metabolism.     

Regulation of vascular smooth muscle cell integrin expression by transforming growth factor beta1 and by platelet-derived growth factor-BB.

We have examined the ability of transforming growth factor-beta 1 (TGF-beta 1) and platelet-derived growth factor-BB (PDGF-BB) to regulate the expression of various integrins in cultured rabbit vascular smooth muscle cells (SMC). We found that expression of the alpha v beta 3 integrin complex was induced by both growth factors, although TGF-beta 1 appeared to be the more potent inducer. mRNA level of the beta 3 integrin subunit was undetectable in quiescent cells and enhanced by both growth factors, while the alpha v integrin subunit mRNA level did not change with growth factor addition. Therefore, appearance of the alpha v beta 3 integrin protein complex after growth factor stimulation was due to increased expression of the beta 3 integrin subunit mRNA. The TGF-beta 1 induced increase in beta 3 integrin mRNA was delayed, but did not require prior protein synthesis, since cycloheximide was unable to block the increase in beta 3 mRNA level. By contrast, PDGF-BB induced a more rapid increase in beta 3 integrin mRNA level that peaked by 6 h after growth factor addition and no detectable beta 3 integrin mRNA remained after 24 h. Interestingly, the PDGF-BB induced elevation of beta 3 integrin, although more rapid, was completely inhibited by cycloheximide. Expression of the alpha 5 integrin subunit in response to growth factors was very similar to beta 3. However, in contrast to beta 3 and alpha 5, neither TGF-beta 1 nor PDGF-BB were able to alter the expression of the beta 1 integrin subunit in vascular SMC. However, in TGF-beta 1 treated cells, there was a large increase in expression of a 190 kDa polypeptide that was associated with the beta 1 integrin subunit. This 190 kDa polypeptide was not detected in PDGF treated SMC or in TGF-beta 1 treated fibroblasts. The alpha 1 integrin subunit has a MW of approximately 190 kDa and is capable of complexing with beta 1. Analysis of the alpha 1 integrin subunit mRNA level indicated that it was indeed induced by TGF-beta 1, but not by PDGF-BB, suggesting that the 190 kDa polypeptide may be the alpha 1 integrin subunit. These results indicate that TGF-beta 1 and PDGF-BB are potent but distinct activators of integrin expression in vascular SMC.     

Effects of recombinant human interleukins on food intake of previously food-deprived rats

The effects of intracerebroventricular injection of recombinant human interleukin 1 beta (rhIL-1 beta), 1 alpha (rhIL-1 alpha), and 2 (rhIL-2) on feeding behavior were examined in previously food-deprived rats for 18 hr. At doses of 2-17 ng/rat, rhIL-1 beta significantly reduced food intake in a dose-dependent manner and the feeding suppression continued about 4 hr later. Only 17 ng/rat rhIL-1 beta reduced body weight gain for 8 hr after the injection. However, rhIL-1 alpha at dose of 17 ng/rat did not show any significant change of food intake and body weight gain during the whole observation period. At both doses of 8 and 40 ng/rat, rhIL-2 also failed to suppress overfeeding after food deprivation. In adrenalectomized rats, feeding suppression by rhIL-1 beta appeared at the 1- to 2-hr time period. The present studies suggest that rhIL-1 beta may be, at least in part, involved in feeding suppression on various inflammatory processes and that adrenal hormones may not play an important role in the induction of feeding suppression by rhIL-1 beta.     

Effect of initial core temperature on hyperthermic hyperventilation during prolonged submaximal exercise in the heat

We investigated whether a core temperature threshold for hyperthermic hyperventilation is seen during prolonged submaximal exercise in the heat when core temperature before the exercise is reduced and whether the evoked hyperventilatory response is affected by altering the initial core temperature. Ten male subjects performed three exercise trials at 50% of peak oxygen uptake in the heat (37°C and 50% relative humidity) after altering their initial esophageal temperature (T(es)). Initial T(es) was manipulated by immersion for 25 min in water at 18°C (Precooling), 35°C (Control), or 40°C (Preheating). T(es) after the water immersion was significantly higher in the Preheating trial (37.5 ± 0.3°C) and lower in the Precooling trial (36.1 ± 0.3°C) than in the Control trial (36.9 ± 0.3°C). In the Precooling trial, minute ventilation (Ve) showed little change until T(es) reached 37.1 ± 0.4°C. Above this core temperature threshold, Ve increased linearly in proportion to increasing T(es). In the Control trial, Ve increased as T(es) increased from 37.0°C to 38.6°C after the onset of exercise. In the Preheating trial, Ve increased from the initially elevated levels of T(es) (from 37.6 to 38.6°C) and Ve. The sensitivity of Ve to increasing T(es) above the threshold for hyperventilation (the slope of the T(es)-Ve relation) did not significantly vary across trials (Precooling trial = 10.6 ± 5.9, Control trial = 8.7 ± 5.1, and Preheating trial = 9.2 ± 6.9 L·min(-1)·°C(-1)). These results suggest that during prolonged submaximal exercise at a constant workload in humans, there is a clear core temperature threshold for hyperthermic hyperventilation and that the evoked hyperventilatory response is unaffected by altering initial core temperature.     

Metabolic and hormonal acclimation to heat stress in domesticated ruminants

Environmentally induced periods of heat stress decrease productivity with devastating economic consequences to global animal agriculture. Heat stress can be defined as a physiological condition when the core body temperature of a given species exceeds its range specified for normal activity, which results from a total heat load (internal production and environment) exceeding the capacity for heat dissipation and this prompts physiological and behavioral responses to reduce the strain. The ability of ruminants to regulate body temperature is species- and breed-dependent. Dairy breeds are typically more sensitive to heat stress than meat breeds, and higher-producing animals are more susceptible to heat stress because they generate more metabolic heat. During heat stress, ruminants, like other homeothermic animals, increase avenues of heat loss and reduce heat production in an attempt to maintain euthermia. The immediate responses to heat load are increased respiration rates, decreased feed intake and increased water intake. Acclimatization is a process by which animals adapt to environmental conditions and engage behavioral, hormonal and metabolic changes that are characteristics of either acclimatory homeostasis or homeorhetic mechanisms used by the animals to survive in a new 'physiological state'. For example, alterations in the hormonal profile are mainly characterized by a decline and increase in anabolic and catabolic hormones, respectively. The response to heat load and the heat-induced change in homeorhetic modifiers alters post-absorptive energy, lipid and protein metabolism, impairs liver function, causes oxidative stress, jeopardizes the immune response and decreases reproductive performance. These physiological modifications alter nutrient partitioning and may prevent heat-stressed lactating cows from recruiting glucose-sparing mechanisms (despite the reduced nutrient intake). This might explain, in large part, why decreased feed intake only accounts for a minor portion of the reduced milk yield from environmentally induced hyperthermic cows. How these metabolic changes are initiated and regulated is not known. It also remains unclear how these changes differ between short-term v. long-term heat acclimation to impact animal productivity and well-being. A better understanding of the adaptations enlisted by ruminants during heat stress is necessary to enhance the likelihood of developing strategies to simultaneously improve heat tolerance and increase productivity.