Thiorphan potentiation of stress-induced analgesia in the mouse

Experiments were done to examine the analgesic effect of thiorphan alone or in combination with stress in mice. Analgesia was assessed by measuring jump latencies from a 55 degrees C hot plate. Thiorphan exhibited weak analgesic properties evidenced by significant increases in jump latencies only after 300 mg/kg i.p. Additional experiments were done to see the effect of i.c.v. administration of thiorphan in the mouse hot plate test. Control experiments revealed that either i.c.v. saline or sham caused naloxone reversible analgesia which was potentiated by thiorphan (100 mg/kg i.p.). Immobilization stress-induced analgesia was also potentiated by thiorphan (100 mg/kg i.p.) and antagonized by naloxone (10 mg/kg i.p.). The results suggest that stress-induced analgesia in the mouse is associated with an endogenous opioid mechanism which is potentiated when enkephalin degradation is inhibited by thiorphan.     

Antinociceptive activity of a neurosteroid tetrahydrodeoxycorticosterone (5alpha-pregnan-3alpha-21-diol-20-one) and its possible mechanism(s) of action

The present study investigates the effects of a neurosteroid tetrahydrodeoxycorticosterone (5alpha-pregnan-3alpha-21-diol-20-one) in two experimental models of pain sensitivity in mice. Tetrahydrodeoxycorticosterone (2.5, 5 mg/kg, i.p.) dose dependently decreased the licking response in formalin test and increased the tail flick latency (TFL) in tail flick test. Bicuculline (2 mg/kg, i.p.), a GABA(A) receptor antagonist blocked the antinociceptive effect of tetrahydrodeoxycorticosterone in TFL test but failed to modulate licking response in formalin test. Naloxone (1 mg/kg, i.p.), an opioid antagonist effectively attenuated the analgesic effect of tetrahydrodeoxycorticosterone in both the models. Tetrahydrodeoxycorticosterone pretreatment potentiated the antinociceptive response of morphine, an opioid compound and nimodipine, a calcium channel blocker in formalin as well as TFL test. Thus, tetrahydrodeoxycorticosterone exerts an analgesic effect, which may be mediated by modulating GABA-ergic and/or opioid-ergic mechanisms and voltage-gated calcium channels.     

Differential metabolic capacity of mice selected for magnitude of swim stress-induced analgesia.

Maximum oxygen consumption (Vo(2)) elicited by swimming in 20 degrees C water or by exposure to -2.5 degrees C in helium-oxygen (Helox) atmosphere is higher in mice selected for low (LA) than for high (HA) stress-induced analgesia (SIA) produced by swimming. However, this line difference is greater with respect to swim- than to cold-elicited Vo(2). To study the relationship between the analgesic and thermogenic mechanisms, we acclimated HA and LA mice to 5 degrees C or to daily swimming at 20 or 32 degrees C. Next, the acclimated mice were exposed to a Helox test at -2.5 degrees C and to a swim test at 20 degrees C to compare Vo(2) and hypothermia (DeltaT). Cold acclimation raised Vo(2) and decreased DeltaT. These effects were similar in both lines in the Helox test but were smaller in the HA than in the LA line in the swim test. HA and LA mice acclimated to 20 or 32 degrees C swims increased Vo(2) and decreased DeltaT elicited by swimming, but only HA mice acclimated to 20 degrees C swims increased Vo(2) and decreased DeltaT in the Helox test. We conclude that the between-line difference in swim Vo(2) results from a stronger modulation of thermogenic capacities of HA mice by a swim stress-related mechanism, resulting in SIA. We suggest that the predisposition to SIA observed in laboratory as well as wild animals may significantly affect both the results of laboratory measurements of Vo(2) and the interpretation of its intra- and interspecific variation.     

Adaptation to cold swim stress-induced hypothermia: Absence of Pavlovian conditional tolerance

Mice subjected to cold swim stress developed pronounced hypothermia. Exposure to warm water swim, however, had little or no effect on body temperature. After repeated exposure to cold swim, the stress-induced hypothermia was attenuated. The finding that cold swim resulted in hypothermia, whereas warm swim had no effect in this respect, provided a useful experimental design by which to assess the role of conditioning factors in the adaptation to the thermic effects of cold swim. In two subsequent experiments, mice received cold swim either in a familiar environment or in a novel environment. Adaptation to the thermic effects of cold swim was observed when mice were tested in the distinctive environment, regardless of the environmental cues previously paired with repeated exposure to the cold swim stress. These findings suggest that contextual cues were not of primary importance in the development of tolerance to the thermic effects of cold swim stress.     

Influence of enkephalinase inhibitors on gastric emptying in mice depends on the nature of the meal

The effects of two enkephalinase inhibitors (thiorphan and acétorphan) and DALAMIDE on gastric emptying of fat or non-fat meals were evaluated in mice. When administered intraperitonally at low doses (0.1 and 0.2 mg/kg) 30 min prior to a fatty (milk) meal, both thiorphan and acetorphan increased significantly (P less than 0.01) gastric emptying; these effects were maximal for 0.2 and 0.1 mg/kg respectively and decreased progressively to be not significant for doses higher than 5 mg/kg for thiorphan and 0.5 mg/kg for acetorphan. Similarly DALAMIDE given IP increased significantly (P less than 0.05) gastric emptying at doses of 0.5 and 1 mg/kg while a slowing of gastric emptying was obtained for 10 times higher doses. The effects of thiorphan (0.2 mg/kg) and DALAMIDE (0.5 mg/kg) were blocked by previous administration of naloxone (0.3 mg/kg) and methyl-naloxone (0.5 mg/kg) while only naloxone (0.3 mg/kg) blocked the slowing effect of high dose of DALAMIDE. Administered prior to a non-fat meal, thiorphan (1 mg/kg) stimulated gastric emptying and inhibited it at higher dosage (10 mg/kg). Neither acetorphan nor DALAMIDE at similar dosages affected the gastric emptying of a non-fat meal and the effects of thiorphan (1 and 0.1 mg/kg) were not blocked by naloxone (0.3 mg/kg). It is concluded that enkephalinase inhibitors (thiorphan and acetorphan) administered systemically stimulate the gastric emptying of a fat meal by increasing enkephalin levels in peripheral tissues, while thiorphan exhibits non-opiate effects on gastric emptying of a non-fat meal.     

Effects of temperature on larval fish swimming performance: the importance of physics to physiology

Temperature influences both the physiology offish larvae and the physics of the flow conditions under which they swim. For small larvae in low Reynolds number (Re) hydrodynamic environments dominated by frictional drag, temperature‐induced changes in the physics of water flow have the greatest effect on swimming performance. For larger larvae, in higher Re environments, temperature‐induced changes in physiology become more important as larvae swim faster and changes in swimming patterns and mechanics occur. Physiological rates at different temperatures have been quantified using Q₁₀s with the assumption that temperature only affected physiological variables. Consequently, Q₁₀s that did not consider temperature‐induced changes in viscosity overestimated the effect of temperature on physiology by 58% and 56% in cold‐water herring and cod larvae respectively. In contrast, in warm‐water Danube bleak larvae, Q₁₀s overestimated temperature‐induced effects on physiology by only 5–7%. This may be because in warm water, temperature‐induced changes affect viscosity to a smaller degree than in cold water. Temperature also affects muscle contractility and efficiency and at high swimming velocities, efficiency decreases more rapidly in cold‐exposed than in warm‐exposed muscle fibres. Further experiments are needed to determine whether temperature acts differently on swimming metabolism in different thermal environments. While hydrodynamic factors appear to be very important to larval fish swimming performance in cold water, they appear to lose importance in warm water where temperature effects on physiology dominate. This may suggest that major differences exist among locomotory capacities of larval fish that inhabit cold, temperate waters compared to those that live in warm tropical waters. It is possible that fish larvae may have developed strategies that affect dispersal and recruitment in different aquatic habitats in order to cope not only with temperature‐induced physiological challenges, but physical challenges as well.     

Physical dependence on physiologically released endogenous opiates

Mice which had been submitted to a chronic schedule of warm water swimming exhibited a naloxone precipiated withdrawal behaviour which was remarkably similar to that produced in mice following chronic morphine treatment. These results are consistent with the activation of endogenous opiates during swim stress in mice and present the possibility that opiate receptors are activated in a manner analogous to the repeated application of exogenous opiates, producing both tolerance and withdrawal-like behaviour.     

Cold water swim stress inhibits the nociceptive responses to intrathecally administered somatostatin,but not substance P

The effects of cold water swim stress (CWSS) on the nociceptive responses to i.t. administered substance P (SP) and somatostatin (SST) were examined. Male ICR mice, weighing about 30 g, were forced to swim in water at 20°C for 3 min. In unstressed mice, i.t. injection of SP (0.1 nmol) and SST (1 nmol), respectively, produced nociceptive-related behaviors. Although CWSS had no effect on the intensity of the SP-induced nociceptive responses, CWSS significantly reduced the intensity of the SST-induced nociceptive responses. The effect of CWSS on the SST-induced nociceptive responses was blocked by naloxone (5 mg/kg, s.c.) and naltrindole (1 mg/kg, s.c.), a selective δ-opioid receptor antagonist, but not by β-funaltrexamine (20 mg/kg, s.c.), a selective μ-opioid receptor antagonist. These results indicate that CWSS may selectively reduce the SST-induced nociceptive responses primarily through δ-opioid receptors.     

Increases in plasma beta-endorphin and tail flick latency in the rat following burn injury

In children with burn injuries we found, in earlier studies, an inverse association of plasma beta-endorphin immunoactivity (iB-EP) and pain levels. To further explore the effects of burn trauma on the peripheral release of beta-endorphin and the occurrence of centrally mediated stress analgesia, plasma iB-EP levels and tail flick latency (TFL) were measured in rats subjected (while anesthetized) to scald injury. In comparison to sham burn (dip in tepid water), burn injury increased plasma iB-EP and TFL; both the duration and magnitude of these effects were directly proportional to the extent of burns. In rats receiving no treatment, TFLs were unchanged throughout the time of the burn experiments. At 2 days post-burn TFLs were invariably back to pre-burn levels. Administration of the long-acting opioid antagonist naltrexone prior to burn injury prevented the rise in TFL. Thus the trauma of burns appeared to bring about a stress-induced analgesia (SIA). The marked increase in iB-EP during this SIA and its antagonism by naltrexone suggest that it was opioid and hormonal in character.     

Sudden Failure of Swimming in Cold Water

To investigate the effect of cold water on swimming four men who declared themselves good swimmers were immersed fully clothed on separate days in water at 23·7° and 4·7° C. The time that they were able to swim in the cold water was much shorter than in the warm. The two shortest swims ended after 1·5 and 7·6 minutes, before rectal temperature fell, when the men suddenly floundered after developing respiratory distress with breathing rates of 56–60/min. The other cold swims, by the two fattest men, ended less abruptly with signs of general and peripheral hypothermia.It is concluded that swimming in cold water was stopped partly by respiratory reflexes in the thin men and hypothermia in the fat, and partly by the cold water''s high viscosity. The longer swimming times of the fat men are attributed largely to their greater buoyancy enabling them to keep their heads above water during the early hyperventilation.The findings explain some reports of sudden death in cold water. It is clearly highly dangerous to attempt to swim short distances to shore without a life-jacket in water near 0° C.     

Stressors and pain sensitivity in CFW mice. Role of opioid peptides.

Effects of several environmental situations on pain threshold were studied in CFW male mice. Immobilization induced significant and naloxone reversible analgesia. Isolation produced analgesia which was partially reversed by naloxone. One minute swimming in + 4 degrees C or + 42 degrees C water increased naloxone reversible analgesia. Isolation produced analgesia which was partially reversed by naloxone. One minute swimming in 4 degrees C or + 42 degrees C water increased naloxone irreversible pain threshold. Other situations: drinking 2% NaCl solution, disturbance of light-dark cycle or social aggregation did not produce analgesia. The role of these situations as stress-inducers, as well as the role of endogenous opioid peptides in stress-induced analgesia, were discussed.     

Antinociceptive pattern of flavone and its mechanism as tested by formalin assay

Flavone, dextrose and long swim stress exhibited antinociception. Degree of antinociception was greater with long swim stress as compared to flavone or dextrose. Combination of these treatments resulted in potentiation of antinociception. Naloxone (opioid antagonist; 5 mg/kg i.p.) antagonised flavone or long stress induced antinociception showing opioid medicated mechanism, however, failed to reverse the potentiated antinociceptive component recorded in long stressed animals which received flavone and dextrose. Antinociceptive activity of flavone, dextrose and long swim stress which was documented by acetic acid assay has been confirmed in the present study. Role for opioid system in this action has been demonstrated. Therefore, formalin test can also be considered as an useful assay procedure for testing flavonoids. However, like acetic acid assay this assay procedure also has the limitation that it is unable to detect minor changes in the degree of antinociception produced by physiological interventions such as long swim and dextrose.     

Enhancement of swimming endurance in mice by highly branched cyclic dextrin

We investigated the ergogenic effect in mice of administering highly branched cyclic dextrin (HBCD), a new type of glucose polymer, on the swimming endurance in an adjustable-current swimming pool. Male Std ddY mice were administered a HBCD, a glucose solution or water via a stomach sonde 10 min before, 10 min after or 30 min after beginning swimming exercise, and were then obliged to swim in the pool. The total swimming period until exhaustion, an index of the swimming endurance, was measured. An ergogenic effect of HBCD was observed at a dose of 500 mg/kg of body weight, whereas it had no effect at a dose of 166 mg/kg of body wt (p < 0.05). The mice administered with the HBCD solution 10 min after starting the exercise were able to swim significantly longer (p < 0.05) than the mice who had ingested water or the glucose solution. The rise in mean blood glucose level in the mice administered with HBCD, which was measured 20 min after starting swimming, was significantly lower (p < 0.05) than that in the mice administered with glucose, although it was significantly higher (p < 0.05) than that in the mice administered with water. The mean blood insulin rise in the mice given HBCD was significantly lower (p < 0.05) than that in the mice given glucose. The mice administered with HBCD 30 min after starting the exercise swam significantly longer (p < 0.05) than the mice who had ingested water, although the enhancement of swimming time was similar to that of the glucose-ingesting mice. The gastric emptying rate of the HBCD solution was significantly faster (p < 0.05) than that of the glucose solution. However, this glucose polymer must have spent more time being absorbed because it has to be hydrolyzed before absorption, reflecting a lower and possibly longer-lasting blood glucose level. We conclude that the prolongation of swimming endurance in mice administered with HBCD depended on its rapid and longer-lasting ability for supplying glucose with a lower postprandial blood insulin response, leading to a delayed onset of fatigue.     

Factors influencing swimming in bay scallops, Argopectenirradians (Lamarck, 1819)

Factors influencing the probability, distance, and direction of swimming in bay scallops (Argopectenirradions Lamarck, 1819) were studied through a series of experimental releases in the field and in a 3-m tank. The probability of a scallop swimming was significantly influenced by the type of substratum on which it was released (sand vs. grassbed), by contact with two natural gastropod predators (Murex, Fasciolaria), and by the amount of rest allowed after a previous swim. The horizontal distance traveled by a swimming scallop was significantly influenced by artificial weight of a magnitude equivalent to a normal load of shell-encrusting organisms, by the amount of rest allowed after a previous swim, by the height attained in the water column, and by the scallop's size. The direction of scallop swimming was significantly influenced by the location along the mantle edge where a predator was contacted, and by factors probably related to the asymmetrical water flow pattern through the mantle cavity. Swimming in bay scallops apparently serves to maintain position in grassbeds and to avoid predators.     

Ethanol-induced analgesia

The effect of ethanol (ET) on nociceptive sensitivity was evaluated using a new tail deflection response (TDR) method. The IP injection of ET (0.5-1.5 g/kg) produced rapid dose-dependent analgesia. Near maximal effect (97% decrease in TDR) was produced with the 1.5 g/kg dose of ET ten minutes after injection. At ninety minutes post-injection there was still significant analgesia. Depression of ET-induced nociceptive sensitivity was partially reversed by a 1 mg/kg dose of naloxone. On the other hand, morphine (0.5 or 5.0 mg/kg IP) did not modify ET-induced analgesia, while 3.0 minutes of cold water swim (known to produce non-opioid mediated analgesia) potentiated ET-induced analgesic effect. The 0.5 g/kg dose of ET by itself did not depress motor activity in an open field test, but prevented partially the depression in motor activity produced by cold water swim (CWS). Thus the potentiation by ET of the depression of the TDR produced by CWS cannot be ascribed to the depressant effects of ET on motor activity.     

Sex differences in the effects of Tyr-MIF-1 on morphine- and stress-induced analgesia

There is evidence suggesting that the endogenous tetrapeptide, Tyr-MIF-1 (Tyr-Prol-Leu-Gly-amide), has antagonistic or modulatory effects on opioid-mediated analgesia. There is also substantial evidence for sex differences in opioid effects, whereby male rodents display greater levels of opioid-mediated analgesia than females. In the present study, determinations were made of the effects of Tyr-MIF-1 on morphine- and restraint stress-induced opioid analgesia in adult male and female deer mice, Peromyscus maniculatus. Intraperitoneal treatment with Tyr-MIF-1 (0.10–10 mg/kg) reduced morphine- and stress-induced analgesia in both male and female mice, with Tyr-MIF-1 having markedly greater antagonistic effects in male than female mice. These results indicate that there are sex differences in the modulatory (antiopiate) effects of Tyr-MIF-1 on opioid-mediated analgesia.     

人参总皂苷和远志总苷配伍对小鼠抗抑郁作用

目的确定人参总皂苷（GTS）和远志总苷（PTG）抗抑郁配伍剂量比例,形成参远苷（SGY）制剂,为研制开发抗抑郁新药提供实验数据。方法采用析因设计方法,GTS和PTG均选取25、50、100 mg/kg三个剂量,按照完全随机的两因素3×3实验设计,得到参远苷的9个不同配比组。C57BL/6J小鼠（用于悬尾实验）和ICR小鼠（用于强迫游泳实验）随机分为对照组、阳性药组（10 mg/kg,帕罗西汀用于悬尾实验;阿米替林用于强迫游泳实验）及参远苷的9个不同配比组,共11组。灌胃给药7 d,观察各组对悬尾或强迫游泳实验小鼠不动时间的影响,并通过空场实验观察参远苷各配比对小鼠自主活动的影响。参远苷与单味GTS、PTG的抗抑郁作用比较实验中,C57BL/6J小鼠（用于悬尾实验）和ICR小鼠（用于强迫游泳实验）随机分为对照组、阳性药组（10 mg/kg,帕罗西汀用于悬尾实验;阿米替林用于强迫游泳实验）、参远苷低中高剂量组（37.5、75、150 mg/kg）、GTS和PTG各四个剂量组（均为18.75、37.5、75、150 mg/kg）,共13组。灌胃给药7 d,观察各组对悬尾或强迫游泳实验小鼠不动时间的影响。结果析因设计结果表明,GTS和PTG之间无交互效应。参远苷配比组75 mg/kg（GTS∶PTG为50∶25）及150mg.kg-1（GTS∶PTG为100∶50）显著并稳定缩短悬尾或强迫游泳不动时间（P〈0.05）,得出GTS和PTG的剂量配伍比例为2：1。空场实验结果显示,参远苷各配比对小鼠运动总路程无影响。参远苷与单味GTS、PTG抗抑郁作用比较实验结果显示,GTS 75、150 mg/kg缩短悬尾实验小鼠不动时间（P〈0.01,P〈0.05）,对强迫游泳实验小鼠不动时间无影响。PTG 18.75、37.5 mg/kg缩短强迫游泳实验小鼠不动时间（P〈0.01,P〈0.05）,对悬尾实验小鼠不动时间无影响。参远苷75、150 mg/kg缩短悬尾实验小鼠不动时间（P〈0.05）。同时,参远苷37.5、75 mg/kg缩短强迫游泳实验小鼠不动时间（P〈0.01,P〈0.05）。结论 GTS和PTG以2：1的比例形成的参远苷（SYG）制剂,质量容易控制,作用机制多样,符合抑郁症复杂多样的发病机制,优于单味GTS和PTG,进一步研究之后,有可能成为新型的抗抑郁药物。     

Evolution of alternative foraging tactics driven by water temperature and physiological constraints in an amphibious snake

Amphibious predatory ectotherms live and forage in two environments (aquatic and terrestrial) that can drastically differ in temperature means and variance across space and time. The locomotor performance of ectotherms is known to be strongly affected by temperature. However, how differences in water temperature may drive the evolution of alternative foraging tactics in amphibious animals remains poorly understood. Fish‐eating Viperine snakes Natrix maura occur from high altitude cold water streams to warm shallow lakes, and employ two main feeding strategies: sentinel foraging (underwater sit‐and‐wait behaviour) and active foraging (fish chasing). Using 272 juvenile snakes we measured: the performance kinetics of diving and swimming in a wide range of water temperatures; basal metabolic levels in relation to body temperature; and the type of foraging mode expressed in water‐temperature‐acclimated snakes. Individual swimming performances increased with testing temperature (10, 15, 20, 25 or 30 °C). Apnoea time followed an opposite trend however, plausibly reflecting the fact that oxygen demands are related to the metabolic rate of ectotherms. That is, snake heart rates increased with body temperature. Snakes acclimated to 10 °C water mostly displayed sentinel foraging. By contrast, 20 °C and 30 °C water‐acclimated snakes were extremely active fish chasers. Individual apnoea times at the various testing temperatures were all correlated; as were individual swimming speeds. There was however no clear relationship between an individual's ability to hold its breath and its ability to swim, suggesting that both performance traits may be the target of different selective pressures. Fast swimming speed and long breath holding abilities are likely key determinants of both foraging success and predatory evasion, although in a context dependent manner. Active swimming foraging is likely to be advantageous in warm water (> 20 °C), while sentinel foraging appears better suited to cold water (< 14 °C). The physiological aspects of foraging tactics of amphibious snakes combined with field and laboratory observations support the idea that physiological and environmental constraints may generate shifts in habitat use and associated foraging tactics in amphibious ectotherms. Avenues for further research are discussed. © 2015 The Linnean Society of London, Biological Journal of the Linnean Society, 2015, 115 , 411–422.     

大鼠脊髓内甲啡肽、强啡肽A-(1—13)和吗啡在镇痛中的相互加强作用

1.大景以辐射热甩尾法测痛。应用脊髓蛛网膜下腔,连续累加注射法观察药物的镇痛作用。脊髓蛛网膜下腔单独注射甲啡肽100nmol不能提高痛阈,但与吗啡或强啡肽A-(1—13)合用时,可明显加强后者的镇痛作用。 2.脊髓蛛网膜下腔单独注射强啡肽A-(—13)2.5nmol本身无镇痛作用,但与吗啡合用时,却能明显加强吗啡的镇痛作用。 3.本文对连续累加注射法的特点及三类阿片受体及其配基对痛觉的调制作用,进行了讨论。     

Antidepressant-type effect of the NK3 tachykinin receptor agonist aminosenktide in mouse lines differing in endogenous opioid system activity.

The influence of the tachykinin NK3 receptor agonist, aminosenktide on the immobility in the forced swimming test was studied in mouse lines selectively bred for divergent magnitudes of stress-induced analgesia. The high analgesia (HA) line is known to display enhanced, and the low analgesia (LA) line displays reduced activity of the opioid system. Aminosenktide at doses of 125 microg/kg or 250 microg/kg intraperitoneally (IP) reduced, in naltrexone-reversible manner, the immobility more of opioid receptor-dense HA than of unselected mice, but was ineffective in the opioid receptor-deficient LA line. The effect of aminosenktide was quite similar to the antiimmobility action of desipramine (10 mg/kg IP), a prototypic antidepressant agent. None of the compounds increased animals' locomotion as found with an open field test; therefore their antiimmobility effect cannot be attributed to a change in general motility. The results claim that aminosenktide causes an antidepressant effect, and endogenous opioids are involved in this process.