Heat Shock Effects on the Circadian Rhythm of Protein Synthesis and Phosphorylation of Ribosomal Proteins in Gonyaulax polyedra

Circadian changes in protein synthesis and phosphorylation of ribosomal and cytoplasmic proteins in the marine dinoflagellate Gonyaulax polyedra were analyzed by radioactive labeling and polyacrylamide gel electrophoresis. Maximal rates of protein synthesis were found during the subjective night and minimal rates during the subjective day. Protein synthesis was inhibited by heat shock to a different extent at different circadian phases—maximally during the subjective night. Heat shock proteins (HSPs) having molecular weights of approximately 105, 89, 83, 66, 35, and 18 kDa were induced by these treatments. Induction of HSP89 and HSP35 showed circadian differences with maximal synthesis rates at CT 15, whereas most HSPs maintained a constant constitutive and induced synthesis. Recovery of normal protein synthesis after heat shock occurred faster during the subjective night than during the subjective day. Ribosomal proteins with molecular weights of 16 and 18 kDa were highly phosphorylated by [³⁵S] thio gamma adenosine triphosphate during day phase in a light-dark cycle or at CT 6 in constant dim light and labeled only to a minor degree during night phase or at CT 18. A ribosome-associated protein (35 kDa) was labeled during the day and not during the night, but after heat shock during both day and night. In the 200,000 g cytosolic fraction, a 35-kDa protein was found to be more intensely labeled at night than during the day phase after heat shock. The results of this study show a correlation between circadian changes in the overall protein synthesis and ribosomal protein phosphorylation. The rhythm of protein synthesis and phosphorylation of a ribosome-associated protein are drastically altered by heat shock and dependent on the circadian phase.     

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.     

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.     

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.     

A Circadian Rhythm in the Activity of Superoxide Dismutase in the Photosynthetic Alga Gonyaulax polyedra

The activity of superoxide dismutase in cell-free extracts of Gonyaulax made at different times of day and night was found to be three to four times higher during the day. This rhythm continued in cells kept in constant light, indicating that the regulation can be attributed to the cellular circadian clock.     

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。     

A Circadian Rhythm in the Activity of Superoxide Dismutase in the Photosynthetic Alga Gonyaulax polyedra

The activity of superoxide dismutase in cell-free extracts of Gonyaulax made at different times of day and night was found to be three to four times higher during the day. This rhythm continued in cells kept in constant light, indicating that the regulation can be attributed to the cellular circadian clock.     

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。     

Reliability of the Circadian Rhythm of Water and Macronutrient-Rich Diets Intake in Dietary Choice

Rats with ad libitum water and the ability to self-select among three macronutrient-rich diets—carbohydrate (CHO), protein (PRO), and lipid (LIP)—show a circadian rhythmicity in their ingestion. The aim of the present study was to determine whether this circadian rhythmicity is reliable from day to day. Eight rats were offered ad libitum water and a choice of three isoenergetic diet rations providing carbohydrate, protein, and lipid. Water and food intake was recorded every 3 h for 7 days. The reliability of the circadian rhythm of water and food intake was assessed by the Intraclass Correlation Coefficient (ICC) and the test-retest reliability using the Pearson's Correlation Coefficient (r). The results showed that the circadian rhythm of water, CHO, and PRO intake are strongly reliable. However, the circadian rhythm of LIP intake is less reproducible. Among the three reliable parameters—water, CHO, and PRO, the circadian rhythm of water intake was the most reproducible over 7 days. This suggests that water intake may be used as a marker of circadian rhythmicity in ingestive behavior.     

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。     

The Shape of the Endogenous Circadian Rhythm of Rectal Temperature in Humans

Fourteen healthy subjects have been studied in an isolation unit while living on a 30h “day” (20h awake, 10h asleep) for 14 (solar) days but while aware of real time. Waking activities were sedentary and included reading, watching television, and so forth. Throughout, regular recordings of rectal temperature were made, and in a subgroup of 6 subjects, activity was measured by a wrist accelerometer. Temperature data have been subjected to cosinor analysis after “purification,” a method that enables the endogenous (clock-driven) and exogenous (activity-driven) components of the circadian rhythm to be assessed. Moreover, the protocol enables effects due to the circadian rhythm and time-since-waking to be separated. Results showed that activity was slightly affected by the endogenous temperature rhythm. Also, the masking effects on body temperature exerted by the exogenous factors appeared to be less than average in the hours before and just after the peak of the endogenous temperature rhythm. This has the effect of producing a temperature plateau rather than a peak during the daytime. The implications of this for mental performance and sleep initiation are discussed. (Chronobiology International, 13(4), 261-271, 1996)     

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.     

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.     

Protein Synthesis in Euglena gracilis is Light-and Temperature-Dependent,Oscillating in a Circadian,Temperature-Compensated Manner

Abstract: Incorporation of radiolabelled amino acids into proteins of Euglena gracilis revealed that the amount of labelled protein depends on the conditions of illumination and temperature of cultivation. Protein synthesis was generally lower under dark conditions except at 37 °C. The largest amounts of labelled protein were measured at 21 °C and decreased at higher and lower temperatures. By separating the labelled proteins of the membraneous cell fraction from subcultures under a range of culture conditions, the synthesis of some specific proteins was found to be light- and/or temperature-dependent. On incubating cells taken at different times during a light/dark cycle and under constant conditions, a circadian rhythm of ³⁵S-methionine- as well as ³⁵S-cysteine-incorporation was detected. Thereby the cells incorporated ten-times less cysteine than methionine. Protein synthesis always peaked during the last quarter of the daily light phase, confirming the rhythmic rise in total protein. The length of the rhythm period, approximately 24 h, was nearly independent of the applied temperature in the range of 16 to 27 °C.