Effect of Ethanol and Theophylline on Circadian Rhythm of Rat Locomotion

The effect of ethanol and theophylline on the circadian rhythm of rat locomotion was investigated. Male Wistar rats synchronized to 12: 12 h light-dark cycles were divided into four groups for treatment with saline, ethanol, theophylline, and ethanol plus theophylline. Animals in each group were orally administered saline, ethanol (2.0 g/kg body wt), theophylline (10 mg/kg body wt), and ethanol plus theophylline, respectively, six times every 2 h during the 12-h light span. Spontaneous loco-motor activity was continuously monitored by an animal activity recorder at 15-min intervals. Total activity count, circadian rhythm characteristics of activity (amplitude, acrophase, and mesor), power spectral patterns, and slope of fluctuation (a measurement of ultradian periodicity) were calculated. Ethanol administration decreased the total activity count by 60% and phase-delayed the onset of activity rhythm by 9.5 h on the day after treatment. The absolute value of the slope of fluctuation was increased by ethanol administration. The mean recovery time evaluated by rhythm detection was 3.8 days. Theophylline administration increased the light phase activity, but caused no phase delay of the onset time of the locomotor activity rhythm. The decrease in total activity count and phase delay of onset of the activity rhythm caused by ethanol were partially antagonized by theophylline. However, the prolonged effects of ethanol, represented by a late recovery time and an increase in the slope of fluctuation, were not influenced by theophylline.     

生理节律与日常活动对人体疲劳程度的影响

目的:研究生理节律和日常活动分别对人体疲劳程度的影响大小。方法:选取某校7名大学生志愿者,在军训期间对每日军训科目严格限制条件下进行该实验,以闪光临界融合频率、心率变异性、反应时、静态姿势图TLX-NASA量表评分作为指标,对每天分别在训练前和训练后疲劳程度的大小进行测量,以这些指标描述训练前后的疲劳程度。结果:反应时降低(0.60±0.09)、反应正确率提高(0.97±0.03);闪光临界光融合频率升高(40.84±2.14);心率变异性TP(3076.60±382.08)降低、心率变异性SDNN(55.28±16.85)降低;静态姿势图晃动减少,中低频率段(0.15±0.01)、前后方向重心变位(7.92±0.63),TLX-NASA量表评分降低(30.47±10.23)。以上差异均具有统计学意义(P<0.05)。结论:生理节律相对于日常活动对机体的疲劳状态有更大的影响。     

Effect of Colostomy on the Circadian Rhythm in DNA Synthesis in the Rat Colon

Synthesis of DNA and mitosis in gut epithelium are not constant or random events but rather are characterized by circadian rhythmicity, which we reported persists even in fasted rats. Others suggest that rhythms persist because rats anticipate food, causing nerve impulses to propagate caudally in the gut at usual meal times, or that digestive products from previous feedings cause rhythms in the lower tract. We studied colonic DNA synthesis in rats that had been given colostomies. In one study, the distal colon was isolated neurally from proximal gut by means of an end colostomy. In a second study, rats were subjected to loop colostomy; some intrinsic innervation of the gut wall remained intact. Sprague-Dawley male rats, 8 weeks old, were acclimated to a 12:12 light-dark cycle. Colostomies were performed after a 48-h fast. The rats were fed ad libitum for 4 weeks after surgery. Operated rats and an equal number (n = 30) of control rats (unoper-ated) were divided into four subgroups that were killed at 07:00,13:00,19:00, and 01:00 h. Each rat was injected with tritiated thymidine 30 min before it was killed. Proximal and distal colon were analyzed for incorporation of radioactivity (DNA synthesis). Results are reported as counts per minute per microgram of DNA and were analyzed using analysis of variance and the t test. Significant daily variation was found in proximal colon, both from control and operated rats. Rhythms were still present in colon distal to loop colostomy but were lost in the distal stump in rats that received an end colostomy. The mammalian “biological clock” regulates most circadian rhythms by neurohumoral mechanisms; however, our results suggest that the intrinsic enteric nervous system is important in the propagation of a signal that causes rhythmic cell proliferation in the gut in the intact animal.     

Some Perturbations That Disturb the Circadian Melatonin Rhythm

The circadian melatonin rhythm is highly reproducible and generally not easily altered. The few perturbations that are capable of significantly changing either the amplitude or the pattern of the 24-h melatonin rhythm are summarized herein. Aging alters cyclic melatonin production by decreasing the amplitude of the nocturnal melatonin peak in all species in which it has been studied. The best known acute suppressor of nocturnal melatonin is light exposure. The brightness of light required to acutely depress pineal melatonin production is species dependent; of the visible wavelengths, those in the blue range (∼500-520 nm) seem most effective in suppressing melatonin production. Nonvisible, nonionizing radiation in the extremely low frequency range (e.g., 60 Hz) seems also capable of altering pineal melatonin synthesis. Hormones have relatively little influence on the circadian production of melatonin, although either adrenalectomy or hypo-physectomy does attenuate the amplitude of the melatonin cycle. Exercise at the time of high melatonin production rapidly depresses pineal concentrations of the indole without influencing its synthesis; the mechanism of this suppression remains unknown.     

宽叶吊兰叶绿素生物合成的昼夜节律变化

在被子植物中,从谷氨酰-tRNA到叶绿素的生物合成是由许多酶催化的级联反应,其中间代谢产物具有较强的光反应活性和细胞毒性,因此这一过程在细胞内受到严格的调控。本研究通过检测宽叶吊兰叶片叶绿素生物合成途径的14种中间产物含量随昼夜节律的变化,探讨昼夜节律对宽叶吊兰叶绿素生物合成的影响。结果表明,中间产物ALA(δ-氨基乙酰丙酸)、PBG(胆色素原)、ProtoⅨ(原卟啉Ⅸ)、Heme(血红素)、Mg-ProtoⅨ(镁原卟啉Ⅸ)、Chlide a(叶绿素酸酯a)、Chlide b(叶绿素酸酯b)、Chl a(叶绿素a)、Chl b(叶绿素b)受光诱导,而UrogenⅢ(尿卟啉Ⅲ)、CoprogenⅢ(粪卟啉Ⅲ)和Pchlide(原叶绿素酸脂)受黑暗诱导,尤其是Pchlide在黑暗中的积累量显著增加;Mpe(镁原卟啉Ⅸ单甲酯)和Mpde(镁原卟啉Ⅸ二酯)具有2个积累峰值,分别出现在中午12∶00和夜间24∶00。说明叶绿素生物合成受昼夜节律的调控,但其中间代谢产物含量的变化规律与昼夜节律并不完全一致。     

Timekeeping Through Social Contacts: Social Synchronization of Circadian Locomotor Activity Rhythm in the Carpenter Ant Camponotus paria

In ant colonies a large proportion of individuals remain inside nests for most of their lives and come out only when necessary. It is not clear how, in a nest of several thousand individuals, information about local time is communicated among members of the colony. Central to this seem to be circadian clocks, which have an intrinsic ability to keep track of local time by entraining to environmental light-dark, temperature, and social cycles. Here, the authors report the results of their study aimed at understanding the role of cyclic social interactions in circadian timekeeping of a day-active species of carpenter ant Camponotus paria. The authors found that daily social interactions with visitors (worker ants) was able to synchronize the circadian locomotor activity rhythm of host worker ants and queens, in one-on-one (pair-wise) and multi-individual (group-wise) interactions. Interestingly, the outcome of cyclic social interactions was context specific; when visitor workers socially interacted with host workers one-on-one, host workers considered the time of interaction as subjective day, but when visitor workers interacted with a group of workers and queens, the hosts considered the time of interaction as subjective night. These results can be taken to suggest that members of the ant species C. paria keep track of local time by socially interacting with workers (foragers) who shuttle in and out of the colony in search of food. (Author correspondence: vsharma@jncasr.ac.in)     

Social Interactions and the Circadian Rhythm in Locomotor Activity in the Cockroach Leucophaea maderae

The role of social interactions in entrainment has not been extensively studied in the invertebrates. Leucophaea maderae is a gregarious species of cockroach that exhibits extensive social interactions. Social interactions associated with copulation between the sexes have been shown to be regulated by the circadian system. We show here that social interactions between males are also under circadian control. We examined the question of whether or not these rhythmic social contacts could function as zeitgebers capable of regulating circadian phase and period. Animals initially in phase that were housed as groups or pairs of single sex or mixed sex in constant darkness for 2–7 weeks were found to drift out of phase. Their behavior was not significantly different from individual animals maintained in isolation. Further, animals that were initially out of phase by 12 h housed as groups or pairs were not significantly different in phase from animals that were isolated. The results show the circadian clocks of cockroaches are remarkably insensitive to the extensive social interactions that occur between individuals.     

杨梅素对高脂喂养小鼠代谢及自发活动节律的影响研究

摘要 目的：探讨杨梅素对高脂喂养小鼠代谢情况及自发活动节律的影响。方法：6周龄清洁级C57BL/6雄性小鼠15只,随机分为普通饲料组（CON）、高脂饲料组（HFD）、高脂饲料+杨梅素组100 mg /（kg?d）组（HFD+MYR）。从干预第10周开始使用Clocklab生物节律采集分析系统记录三组小鼠自发活动数据。干预第13周结束,检测三组小鼠体重、血脂数据。结果：与CON组相比,HFD组体重、甘油三酯、总胆固醇、低密度脂蛋白均显著升高（P<0.001）,高密度脂蛋白显著降低（P<0.001）,活动峰值时相（Activity phase）显著后移（P<0.001）,自发活动量中值（Activity mesor）和总自发活动量（Total counts）明显增加（P<0.05）,HFD+MYR组体重和低密度脂蛋白无明显变化（P>0.05）,甘油三酯、总胆固醇均显著升高（P< 0.01）,高密度脂蛋白显著降低（P<0.01）,活动峰值时相显著后移（P<0.001）,自发活动量中值和总自发活动量无明显变化（P>0.05）。与HFD组相比,HFD+MYR组体重、甘油三酯、总胆固醇、低密度脂蛋白明显降低（P<0.05）,高密度脂蛋白明显升高（P<0.05）,活动峰值时相明显前移（P<0.05）,自发活动量中值和总自发活动量明显减少（P<0.05）。结论：杨梅素可改善高脂喂养小鼠的代谢状态及减轻小鼠自发活动节律紊乱。     

Effects of Prolonged Exposure to Darkness on Circadian Photic Responsiveness in the Mouse

Circadian rhythms in mammals are generated by an endogenous pacemaker but are modulated by environmental cycles, principally the alternation of light and darkness. Although much is known about nonparametric effects of light on the circadian system, little is known about other effects of photic stimulation. In the present study, which consists of a series of five experiments in mice, various manipulations of photic stimulation were used to dissect the mechanisms responsible for a variation in the magnitude of light-induced phase-shifts that results from prolonged exposure to darkness. The results confirmed previous observations that prolonged exposure to darkness causes an increase in the magnitude of phase shifts (both phase advances and phase delays) evoked by discrete light pulses. The results also indicated that the increase in responsiveness results from the lack of exposure to light per se and not from collateral effects of exposure to constant darkness such as the lack of previous entrainment. The lack of exposure to light causes the circadian system to undergo a process of dark adaptation similar to dark adaptation in the visual system but with a much slower temporal course. The results suggest that circadian dark adaptation may take place at the retinal level, but it is not clear whether it involves a change in the sensitivity or maximal responsiveness of the system.     

Provisional QTL for Circadian Period of Wheel Running in Laboratory Mice: Quantitative Genetics of Period in RI Mice

Wheel running was monitored in B X D recombinant inbred (RI) mice under dark-dark (DD) conditions, and the mean circadian period was calculated for each strain. There were significant differences for this trait among B X D recombinant inbred strains (p <. 0001) and a narrow-sense heritability of 21%. Analysis of strain means and variances indicates that at least four segregating loci contribute to the genetic variance for the free-running circadian period in this population. Correlation of the strain means for the circadian period of wheel running for each RI strain against the distribution of markers at over 1500 loci along the mouse genome identified a number of provisional quantitative trait loci (QTL). There were provisional QTL for wheel running atp <. 001 on chromosome 11 and atp <. 01 on chromosomes 1, 6, 9, 17, and 19. Most were in agreement with a second analysis done under similar conditions.     

The Effect of Old Age on the Free-Running Period of Circadian Rhythms in Rat

The free-running period is regarded to be an exclusive feature of the endogenous circadian clock. Changes during aging in the free-running period may therefore reflect age-related changes in the internal organization of this clock. However, the literature on alterations in the free-running period in aging is not unequivocal. In the present study, with various confounding factors kept to a minimum, it was found that the free-running periods for active wakefulness, body temperature, and drinking behavior were significantly shorter (by 12-17 min) in old than in young rats. In addition, it was found that the day-to-day stability of the different sleep states was reduced in old rats, whereas that of the drinking rhythm was enhanced. Transient cycles were not observed, nor were there any age-related differences in daily totals of the various sleep-wake states. The amplitudes of the circadian rhythms of active wakefulness, quiet sleep, and temperature were reduced, whereas those of paradoxical sleep and quiet wakefulness remained unchanged.     

Circadian Rhythm in Pineal Methionine S-Adenosyltransferase

Abstract: The circadian rhythm of methionine S -adenosyltransferase, which catalyzes the formation of S -adenosylmethionine, a cosubstrate for melatonin in the pineal gland, follows the pattern of hydroxyindole- O -methyltransferase. Around the middle of the dark period, methionine S -adenosyltransferase and hydroxyindole- O -methyltransferase appear to be elevated by 2.5- and 1.5-fold, respectively, and tend to fall back during the light period.     

Circadian Rhythm in Plasma Noradrenaline of Healthy Sleep-Deprived Subjects

Under normal sleep-wake conditions, noradrenaline (NA) secretions in supine subjects exhibit a weak circadian variation with a peak that occurs around noon; the sleep span is characterized by reduced NA secretion. Some investigators have reported that the circadian NA rhythm is completely obliterated during sleep deprivation. In our laboratory, plasma NA was assayed every hour for 24 h in nine healthy men 20-23 years of age. All men were deprived of sleep and were required to eat and walk around every hour to prevent sleep. However, subjects remained supine for 20 min before blood samples were collected to eliminate the effect of activity. Persistence of a slight decrease in the night concentration in several subjects, despite sleep deprivation, suggests that NA secretion may be influenced by a biological clock whose activity becomes visible when the influence of posture is removed.     

The Circadian Rhythm of Plasma Thyrotropin in Depression and Recovery

The 24-hr patterns of plasma thyrotropin have been observed in 12 endogenous depressed patients in both depressed and recovered states and in 13 normal subjects. A clear circadian rhythm was detected in controls with high values at night. In depression, the circadian rhythm was altered with amplitude reduction and blunted nocturnal secretion, abnormalities particularly relevant in bipolar patients. This flattened profile could be linked to the blunted response of TSH to TRH administration reported in depressed patients. Normal nyctohemeral patterns have been restored after recovery. These chronobiological abnormalities as well as their normalization under antidepressant drugs seem to be similar to those reported for various parameters (e.g. temperature, Cortisol, etc) in depression which could support the chronobiological hypothesis for affective disorders.     

The Circadian Rhythm of Plasma Thyrotropin in Depression and Recovery

The 24-hr patterns of plasma thyrotropin have been observed in 12 endogenous depressed patients in both depressed and recovered states and in 13 normal subjects. A clear circadian rhythm was detected in controls with high values at night. In depression, the circadian rhythm was altered with amplitude reduction and blunted nocturnal secretion, abnormalities particularly relevant in bipolar patients. This flattened profile could be linked to the blunted response of TSH to TRH administration reported in depressed patients. Normal nyctohemeral patterns have been restored after recovery. These chronobiological abnormalities as well as their normalization under antidepressant drugs seem to be similar to those reported for various parameters (e.g. temperature, Cortisol, etc) in depression which could support the chronobiological hypothesis for affective disorders.     

Sympathetic Regulation of Circadian Rhythm of Serotonin N-Acetyltransferase Activity in Pineal Gland of Infant Rat

Abstract: The circadian rhythms of serotonin N -acetyltransferase activity in the pineal glands of infant and adult rats were compared. The nighttime increase of N -acetyltransferase activity in the pineals of infant rats was blocked by removal of superior cervical ganglion or by pretreatment with reserpine, l -propranolol, and cycloheximide. Injection of isoproterenol to infant rats markedly elevated pineal N -acetyltransferase activity. When the pineal glands of infant rats were organ-cultured, N -acetyltransferase activity spontaneously increased 7–12 h after the rats were killed. When infant rats were previously denervated or pretreated with reserpine and their pineals were cultured, this spontaneous elevation of N -acetyltransferase activity was abolished, indicating that the transient increase of the enzyme activity in organ culture was due to a liberation of catecholamine from degenerating nerve endings. Additional illumination until midnight prevented the nighttime increase of N -acetyltransferase activity in intact infant rats but not in blinded infant rats. These observations are taken to indicate that N -acetyltransferase rhythm in immature rat pineals is regulated by the sympathetic nerves in the same manner as in adult rat pineals, that the immature rat pineal does not contain a time-keeping system, and that there is no extraretinal light perception in infant rats as far as N -acetyltransferase rhythm is concerned.     

血压昼夜节律特征及其分子调控机制

正常血压具有典型的昼夜节律特征。血压昼夜节律异常与高血压靶器官损害和心血管事件发生呈明显相关关系,是独立于血压水平的重要致病因素。血压昼夜节律的产生和维持与时钟基因的周期性表达有关。时钟基因bmal1、per2是体内生物钟系统运行的关键基因,其表达水平和节律变化直接调节血压的昼夜节律。     

血压昼夜节律特征及其分子调控机制

正常血压具有典型的昼夜节律特征。血压昼夜节律异常与高血压靶器官损害和心血管事件发生呈明显相关关系,是独立于血压水平的重要致病因素。血压昼夜节律的产生和维持与时钟基因的周期性表达有关。时钟基因bmal1、per2是体内生物钟系统运行的关键基因,其表达水平和节律变化直接调节血压的昼夜节律。