Time-Dependent Effects of Trichloroethylene on Motor Activity in Rats

Circadian variations in acute and subacute neurobehavioural effects of trichloroethylene (TRI: 1.2 g/kg i.p.) were investigated in the rat under a light: dark = 12:12 hr cycle. An acute effect of TRI evaluated by decreased muscle tone was maximal during the early dark phase (21:00). A subacute effect of TRI was evaluated by a continuous recording of spontaneous locomotor activity in the rat. The circadian rhythm in spontaneous locomotor activity was extensively impaired by the injection of TRI for three consecutive days. Spectral analysis of spontaneous locomotor activity showed that ultradian periods became more dominant than the circadian period, and the 1//fluctuation of the spectrum disappeared after the injection of TRI. The effect of TRI on the circadian rhythm in spontaneous locomotor activity was circadian-phase dependent, and the treatment of TRI at 09:00 provoked greater circadian rhythm impairment than that at 21:00. The mechanisms of the time-dependent effect of TRI on neurobehaviour are the subject of further investigation.     

Time-Dependent Effects of Trichloroethylene on Motor Activity in Rats

Circadian variations in acute and subacute neurobehavioural effects of trichloroethylene (TRI: 1.2 g/kg i.p.) were investigated in the rat under a light: dark = 12:12 hr cycle. An acute effect of TRI evaluated by decreased muscle tone was maximal during the early dark phase (21:00). A subacute effect of TRI was evaluated by a continuous recording of spontaneous locomotor activity in the rat. The circadian rhythm in spontaneous locomotor activity was extensively impaired by the injection of TRI for three consecutive days. Spectral analysis of spontaneous locomotor activity showed that ultradian periods became more dominant than the circadian period, and the 1//fluctuation of the spectrum disappeared after the injection of TRI. The effect of TRI on the circadian rhythm in spontaneous locomotor activity was circadian-phase dependent, and the treatment of TRI at 09:00 provoked greater circadian rhythm impairment than that at 21:00. The mechanisms of the time-dependent effect of TRI on neurobehaviour are the subject of further investigation.     

Circadian variation of carrageenan-paw edema in the rat

The circadian variation of carrageenan (carr)-induced paw edema was studied in sham-operated and adrenalectomized rats. The edema was produced by carr injection into the plantar tissue at 03:00, 09:00, 15:00 and 20:00 hr. In sham-operated rats the rate of appearance of maximal edema was much faster in the evening than in the morning: at 20:00 hr, it was obtained 2 hours after carr injection while at 09:00 hr it took 4 hours. At 03:00 and 15:00 hr, maximal edema was found respectively 2.5 and 4 hours after carr. In adrenalectomized rats, maximal edema at 4 hours of investigation was always larger than in sham-operated animals but the rate of appearance of edema did not change throughout the day as it was obtained 3 hours after carr administration. At 09:00 and 20:00 hr injection of hydrocortisone (HC) to adrenalectomized rats produce the same dose-dependent effect on the rate of formation of edema. However, to reproduce in adrenalectomized animals the rates of formation of edema similar to those obtained in sham-operated rats, an injection of 18 mg/kg HC was required at 09:00 hr while less than 2 mg/kg was needed at 20:00 hr. The results suggest that the circadian rhythm of carr edema is related to circadian variation in the corticosteroid system.     

Metabolism of l-Tyrosine in Aspergillus sojae

Circadian rhythmicity was investigated in isolated small intestine and mucosal epithelial cells from rats on restricted-feeding regimen (food available from 17:00 to 23:00 every day). In the isolated intestine, daily rhythms synchronized to meal-timing were found in the activity patterns of l-leucine, l-lysine and d-glucose transport, and mucosal γ-glutamyltransferase and sucrase, and in the rates of lactate formation from glucose; the nadirs occurred at 12:00 and the peaks at 23:00. These same patterns were also noted with the mucosal epithelial cells prepared at distinct times of day from rats on meal-feeding regimen. The fasted rat intestine responded to refeeding with prompt increase in transport activity, i.e., out of phase with the original rhythm. Intraperitoneal administration of cyloheximide suppressed the daily rise in leucine transport activity, indicating that the transport rhythm was entrained by or closely associated with the rhythmic fluctuation in protein synthesis in the epithelial cells, which in turns is cued by the feeding schedule. The kinetic parameters estimated for leucine transport, the apparent affinity constant for transport and the maximal transport rate, were significantly higher at high activity periods. It is suggested that the rhythmic increase in transport activity is not only associated with membrane hyperpolarization but may be mediated by the emergence of a high capacity transport system.     

Plasma Corticosterone, Motor Activity and Metabolic Circadian Patterns in Streptozotocin-Induced Diabetic Rats

Experiments were conducted in male rats to study the effects of streptozotocin-induced diabetes on circadian rhythms of (a) plasma corticosterone concentrations; (b) motor activity; and (c) metabolic patterns. Animals were entrained to LD cycles of 12: 12 hr and fed ad libitum.

A daily rhythm of plasma corticosterone concentrations was found in controls animals with peak levels at 2400 hr and low values during the remaining hours. This rhythm was statistically confirmed by the cosinor method and had an amplitude of 3.37μg/100 ml and the acrophase at 100 hr. A loss of the normal circadian variation was observed in diabetic animals, with a nadir at the onset of light period and high values throughout the remaining hours; cosinor analysis of these data showed no circadian rhythm, delete and a higher mean level than controls.

As expected, normal rats presented most of their motor activity during the dark period with 80+ of total daily activity; the cosinor method demonstrated a circadian rhythm with an amplitude of 60+ of the mean level and the acrophase at 0852 hr. Both diabetic and control rats showed a similar activity during the light phase, but diabetic animals had less activity than controls during the night and their percentage of total daily activity was similar in both phases of the LD cycle (50+ for each one). With the cosinor method we were able to show the persistence of a circadian rhythm in the motor activity of diabetic rats, but with a mesor and amplitude lower than in controls (amplitude rested at 60+ of the mean level) and its acrophase advanced to 0148 hr.

The metabolic activity pattern of diabetic rats also changed: whereas controls showed a greater metabolic activity during the night (70+ food; 82+ water; 54+ urine; 67+ faeces), diabetics did not show differences between both phases of the LD cycle. Water ingested and urine excreted by the diabetic group were higher than normal during light and dark periods; food consumed and faeces excreted were higher than controls only in the light phase.

These data suggest that alterations in circadian rhythms of plasma corticosterone and motor activity are consecutive to the loss of the feeding circadian pattern, due to polyphagia and polydipsia showed by these animals, which need to extend intakes during the light and dark phases.     

Locomotor activity rhythm in two wrasses,Halichoeres tenuispinnis andPteragogus flagellifera,under various light conditions

The locomotor activity rhythms were examined by using an actograph with infra-red photo-electric switches for two species of wrasses, (Halichoeres tenuispinnis andPteragogus flagellifera) under various light conditions. InH. tenuispinnis, the locomotor activity of almost all fish under light-dark cycle regimen (LD12:12; 06:00–18:00 light, 18:00–06:00 dark) commenced somewhat earlier than the beginning of light period and continued till somewhat earlier than the beginning of the dark period. This species clearly showed free-running activity rhythms under both constant illumination (LL) and constant darkness (DD). Therefore,H. tenuispinnis appeared to have a circadian rhythm. The length of the circadian period ranged from 23 hr. 30 min. to 23 hr. 44 min. under LL, and was from 23 hr. 39 min. to 24 hr. 18 min. under DD. On the other hand, the locomotor activity ofP. flagellifera occurred mostly in the light period under LD 12:12. The activity of this species continued through LL, but was greatly suppressed in DD, so that none of the fish had any activity rhythm in both constant conditions. It was known from field observations thatH. tenuispinnis burrowed and lay in sandy bottoms, whileP. flagellifera hid and rested in bases of seagrasses and shallow crevices of rocks during the night. In the present two wrasses, it seemed that the above-mentioned difference of noctural behavior was closely related to the intensity of the endogenous factor in the activity rhythm.     

Circadian oscillations of thyroid hormones and insulin in the serum of fasting rats

Adult male Wistar rats adapted to a 12:12 h light:dark regimen, fed or after a 24- or 48-h fast, were decapitated at 3-h intervals during a single day. They were deprived of food at day-time intervals ensuring that on decapitation they had fasted for the same length of time, i.e. 24 or 48 h. Thyroid hormones, insulin and glucose concentrations were determined in their serum. Fasting did not significantly affect circadian thyroxine, triiodothyronine and reverse triiodothyronine rhythms compared with the findings in fed animals; 24, but not 48 hours' fasting led to a shift in the acrophase of circadian insulin and glucose oscillations compared with fed rats. The maintenance of original circadian thyroid hormones and insulin rhythm in rats which fasted for short lengths of time testifies to a dependence of the stimulus on the time of day.     

Digestive tract cell proliferation and food consumption patterns of Ha/ICR mice

The relationship between the daily pattern of food consumption and the proliferation rate of the oesophagus, stomach, forestomach, small intestine and colon of Ha/ICR mice was examined. Proliferative activity was determined by [3H]TdR incorporation on a wet weight tissue basis, along with selective counting of labelled nuclei. Under conditions of ad libitum feeding with a 12 hr light cycle (lights on at 0600) mice eat most of their food during the dark period. A distinct circadian rhythm was observed in the oesophagus, stomach, forestomach and colon with the peak of [3H]TdR incorporation between 0400 and 0600 and the nadir between 1600 and 1800. Although a circadian fluctuation was observed in the small intestine, its amplitude was much less than in other areas. This rhythmic change in proliferation rate could be phase shifted by allowing the mice to feed only between 0800 and 1600 for 14 days. Under these conditions the peak in proliferative activity occurred between 1800 and 2000. Fasting reduced the daily level of proliferative activity in all of the digestive tract sites studied, and for all areas except the oesophagus greatly reduced or eliminated the circadian fluctuation. The forestomach and colon were the most influenced by fasting with 24 hr [3H]TdR incorporation reduced to 30-40% of the control value. Refeeding following a 48 hr fast produced a rapid increase in proliferative activity peaking at levels well above the control value at 16 hr after the onset of refeeding. The major exception to this was the small intestine which slowly returned to the control value during the first 24 hr. Partial refeeding produced a diminished refeeding response. Once the normal pattern of food consumption was re-established following refeeding the normal proliferative fluctuations were again observed.     

Daily Changes of Plasma Corticosterone by an 8-h Daytime Feeding Occur Without Body Weight Loss or Severe Food Restriction in the Rat

Different studies have reported that daytime feeding entrains the circadian rhythm of corticosterone secretion in rats. However, it remained unclear whether calorie restriction or daytime feeding access have an effect. The aim of our study is to evaluate the effect of an 8-h daytime feeding access on the circadian rhythm of plasma corticosterone. Eleven adult male Wistar rats were assigned to two different conditions of access to food: ad lib feeding for one week and daytime feeding for the following two weeks. On the 7th, 14th and 21st day, blood samples were collected every 4 h from 08:00 to 04:00. Food intake and body weight were recorded daily. During daytime feeding, rats ingested 88% of the amount of food ingested over 24 h in the ad lib feeding period. However, body weight increased significantly from the first day to the end of experiment. Peak plasma corticosterone was 12 h shifted during daytime feeding period compared to the ad lib condition. This study showed that an 8-h daytime feeding entrained the circadian rhythm of plasma corticosterone without body weight loss or severe food restriction.     

Daily Changes of Plasma Corticosterone by an 8-h Daytime Feeding Occur Without Body Weight Loss or Severe Food Restriction in the Rat

Different studies have reported that daytime feeding entrains the circadian rhythm of corticosterone secretion in rats. However, it remained unclear whether calorie restriction or daytime feeding access have an effect. The aim of our study is to evaluate the effect of an 8-h daytime feeding access on the circadian rhythm of plasma corticosterone. Eleven adult male Wistar rats were assigned to two different conditions of access to food: ad lib feeding for one week and daytime feeding for the following two weeks. On the 7th, 14th and 21st day, blood samples were collected every 4 h from 08:00 to 04:00. Food intake and body weight were recorded daily. During daytime feeding, rats ingested 88% of the amount of food ingested over 24 h in the ad lib feeding period. However, body weight increased significantly from the first day to the end of experiment. Peak plasma corticosterone was 12 h shifted during daytime feeding period compared to the ad lib condition. This study showed that an 8-h daytime feeding entrained the circadian rhythm of plasma corticosterone without body weight loss or severe food restriction.     

Malate Dehydrogenase Activity of Rat Testis: Circadian Rhythm and its Ontogeny

Malate dehydrogenase activity and soluble protein content in testes from rats exposed to a 14:00 h light:10:00 h dark photoperiod, have been determined every two or four hours over a 24 hour period in 5, 15, 25 and 120 day-old rats. By using the Cosinor method, the ontogeny of an unimodal rhythm was studied for MDH activity and soluble protein content in testis. In 5 and 15 day-old rats, the MDH acrophases were recorded around 19:00 h and 17:00 h, respectively. Rats aged 25 and 110 days showed the MDH acrophases during the dark period. An inversion of the MDH circadian rhythms was detected in 25 day-old compared to those of 5 and 15 day-old rats. An inversion of the protein circadian rhythm was also detected at 15 days compared to that at 5 days. These inversions persist in the adult rats. The amplitude of the MDH and protein rhythms reached the lowest value in adulthood. The mean daily value of testicular MDH increased between day 5 and 15, decreasing at day 35 and remaining unchanged until adulthood. The variation of malate dehydrogenase activity, soluble protein content levels, and the circadian rhythm parameters during the maturation process may be related to gonad development.     

Digestive Tract Cell Proliferation and Food Consumption Patterns of Ha/Icr Mice

The relationship between the daily pattern of food consumption and the proliferation rate of the qesophagus, stomach, forestomach, small intestine and colon of Ha/ICR mice was examined. Proliferative activity was determined by [³H]TdR incorporation on a wet weight tissue basis, along with selective counting of labelled nuclei. Under conditions of ad libitum feeding with a 12 hr light cycle (lights on at 0600) mice eat most of their food during the dark period. A distinct circadian rhythm was observed in the oesophagus, stomach, forestomach and colon with the peak of [³H]TdR incorporation between 0400 and 0600 and the nadir between 1600 and 1800. Although a circadian fluctuation was observed in the small intestine, its amplitude was much less than in other areas. This rhythmic change in proliferation rate could be phase shifted by allowing the mice to feed only between 0800 and 1600 for 14 days. Under these conditions the peak in proliferative activity occurred between 1800 and 2000. Fasting reduced the daily level of proliferative activity in all of the digestive tract sites studied, and for all areas except the oesophagus greatly reduced or eliminated the circadian fluctuation. the forestomach and colon were the most influenced by fasting with 24 hr [³H]TdR incorporation reduced to 30–40% of the control value. Refeeding following a 48 hr fast produced a rapid increase in proliferative activity peaking at levels well above the control value at 16 hr after the onset of refeeding. the major exception to this was the small intestine which slowly returned to the control value during the first 24 hr. Partial refeeding produced a diminished refeeding response. Once the normal pattern of food consumption was re-established following refeeding the normal proliferative fluctuations were again observed.     

Gastric Potential Difference in Fasted Rats: Circadian Studies

The pathophysiology of gastroduodenal ulcer disease remains the subject of intense research and controversy. One model of gastric ulcerogenesis implicates a disruption of complementary circadian rhythms between protective and destructive factors. Parallel circadian rhythms have been reported between acid secretion and gastric potential difference (PD) in in vitro models. The purpose of this study was to investigate the circadian measurements of PD, a parameter of intact gastric mucosal function and thus a putative parameter of gastric protection, in intact, fasted, anesthetized rats. Sixty-four male Sprague-Dawley rats were acclimatized in sound-attenuating, lightproof chambers for 3 weeks on a 12:12-h light-dark schedule. Eight rats were fasted 18 h before being sampled at each of eight times on the circadian clock (01:00, 04:00, 07:00, 10:00, 13:00, 16:00, 19:00. and 22:00 hours after lights on) (HALO). In each rat, after anesthesia (ketamine/ acepromazine) and laparotomy, the tip of a catheter (pre-filled with KC1 agar) was passed into the gastric corpus through the duodenum. The tip of a second KC1-agar catheter was placed within the peritoneal cavity. The position of the intragas-tric catheter was gently adjusted for obtaining the highest stable PD reading. The data showed significantly higher values at 07:00 and 10:00 HALO. The lowest value was at 13:00 HALO. The difference between high (10:00 HALO) and low (13:00 HALO) values was 4.5 mV or 13% of the mean. This difference was highly significant (p = 0.003) Analysis of variance showed that the values at 07:00 and 10:00 HALO were significantly higher than the values at 01:00, 13:00, and 16:00 HALO. Thus, the existence of a circadian rhythm in gastric PD is supported.     

Malate Dehydrogenase Activity of Rat Testis: Circadian Rhythm and its Ontogeny

Malate dehydrogenase activity and soluble protein content in testes from rats exposed to a 14:00 h light:10:00 h dark photoperiod, have been determined every two or four hours over a 24 hour period in 5, 15, 25 and 120 day-old rats. By using the Cosinor method, the ontogeny of an unimodal rhythm was studied for MDH activity and soluble protein content in testis. In 5 and 15 day-old rats, the MDH acrophases were recorded around 19:00 h and 17:00 h, respectively. Rats aged 25 and 110 days showed the MDH acrophases during the dark period. An inversion of the MDH circadian rhythms was detected in 25 day-old compared to those of 5 and 15 day-old rats. An inversion of the protein circadian rhythm was also detected at 15 days compared to that at 5 days. These inversions persist in the adult rats. The amplitude of the MDH and protein rhythms reached the lowest value in adulthood. The mean daily value of testicular MDH increased between day 5 and 15, decreasing at day 35 and remaining unchanged until adulthood. The variation of malate dehydrogenase activity, soluble protein content levels, and the circadian rhythm parameters during the maturation process may be related to gonad development.     

In vivo demonstration of the circadian thythm of cholesterol biosynthesis in the liver and intestine of the rat

The existence of a circadian rhythm in the rate of hepatic cholesterol synthesis in the rat has been demonstrated in vivo by measuring the conversion of both [1-(14)C]acetate and (3)H(2)O to cholesterol. By both methods there was observed a similar increase in the rate of hepatic cholesterol synthesis between the nadir at noon and the peak at midnight. Circadian changes in the rate of hepatic cholesterol synthesis measured in vivo with [1-(14)C]acetate were very similar to changes in the activity of hepatic microsomal HMG CoA reductase. Cholesterol synthesis in the jejunum and in the distal ileum was also shown to exhibit the same circadian rhythm in vivo but with smaller amplitude (1.6- and 1.3-fold, respectively). Rats trained to eat during a 4-hr period (9 am-1 pm) while housed under normal illumination showed changes in the timing of the circadian rhythm of cholesterol synthesis; in the liver the maximum rate of cholesterol synthesis occurred at 6 pm, 9 hr after the presentation of food, while the two sections of the intestine investigated exhibited a maximum synthetic response between noon and 6 pm. Results obtained in this study support the hypothesis that the major portion of the rise in HMG CoA reductase activity and the increase in overall rate of cholesterol synthesis in liver and intestine during the circadian rhythm are due to the ingestion of food. Under the limited feeding schedule (food access 9 am-1 pm), the rates of hepatic and intestinal synthesis of fatty acids from the injected acetate also showed a circadian rhythm with a peak at about 3 hr after presentation of food.     

A blood plasma inhibitor is responsible for circadian changes in rat renal Na,K-ATPase activity

Rhythmic changes in activity following a circadian schedule have been described for several enzymes. The possibility of circadian changes in Na,K-ATPase activity was studied in homogenates of rat kidney cortex cells. Male Sprague-Dawley rats were kept on a schedule of 12h light (06:00-18:00 h) and 12 h darkness (18:00-06:00 h) for 2 weeks. At the end of the conditioning period, one rat was killed every 2 h, until completion of a 24 h cycle. Outermost kidney cortex slices were prepared, homogenized and assayed for Na,K-ATPase activity. The whole procedure was repeated six times. Na,K-ATPase activity shows an important oscillation (2 cycles/24 h). Peak activities were detected at 09:00 and 21:00 h, whereas the lowest activities were detected at 15:00 and 01:00-03:00 h. The highest activity was 40+/-3 nmoles Pi mg protein(-1)min(-1) (09:00 h), and the lowest was 79+/-3 nmoles Pi mg protein(-1)min(-1) (15:00 h). The amount of the Na+-stimulated phosphorylated intermediate is the same for the 09:00 h and 15:00 h homogenates. Preincubation of 09:00 h kidney cortex homogenates with blood plasma drawn from rats at either 03:00 h or 15:00 h, significantly inhibited their Na,K-ATPase activity. This inhibition was not seen when the preincubation was carried out with either 09:00 h or 21:00 h blood plasma. The striking oscillation (2 cycles/24 h) of the Na,K-ATPase activity of rat kidney cortex cells is ascribed to the presence of an endogenous inhibitor in blood plasma.     

A new protocol for studying the early events during liver regeneration

Hepatic amino acid transport and ornithine decarboxylase (ODC) activity were measured as early events during liver regeneration in rats adapted to a meal-feeding protocol in which food was presented during the first 2 hr of a daily 12-hr dark period. Surgeries were performed during the early hours of the light period, and food was withheld on the day following surgery to control the effect of feeding on the parameters measured. Initial experiments indicated that rats maintained on this schedule were capable of surviving partial hepatectomy. The survival rate was greater and the fat pads larger among 56-day-old than among 42-day-old rats; this indicated that animals with greater metabolic reserves were better suited for these experiments. The hepatic α-aminoisobutyric acid (α-AIB) distribution ratio and ODC activity increased above control values by 2 hr following partial hepatectomy. The α-AIB distribution ratio peaked at 10 hr after surgery and remained above control values for an additional 16 hr. In contrast, ODC activity peaked by 4 hr after surgery, followed by two smaller peaks at 10 and 20 hr. In sham-hepatectomized rats both the α-AIB distribution ratio and the ODC activity increased above control values by 3 hr after surgery, but fell to control values by 15 hr. These findings show that increases in amino acid transport and ODC activity following partial hepatectomy occur independently of feeding. The identical time course for the initiation of both of these events suggests that they result from a common effector.     

Circadian variations of serotonin in plasma and different brain regions of rats

Most of the physiological processes that take place in the organism follow a circadian rhythm. Serotonin is one of the most important neurotransmitters in our nervous system, and has been strongly implicated in the regulation on the mammalian circadian clock, located in the suprachiasmatic nuclei (SCN). The present study analysed the levels of serotonin over a period of 24 h in the plasma and in different brain regions. The model used was of male Wistar rats, 14 +/- 2 weeks of age (n = 120), maintained under conditions of 12 h light and 12 h dark, and food and water ad libitum. The serotonin levels were measured by ELISA every hour at night (20:00-08:00 h) and every 4 h during the daytime (08:00-20:00 h). Ours results show that the maximum levels of serotonin in plasma were obtained at 09:00 and 22:00 and a minor peak at 01:00 h. In hypothalamus there was a significant peak at 22:00 and two minor peaks at 17:00 and 02:00 h; the same occurred in hippocampus with a significant peak at 21:00, and two secondary peaks at 24:00 and 05:00 h; in cerebellum there were two peaks at 21:00 and 02:00 h, while in striatum and pineal there were peaks at 21:00 h and 23:00, respectively. In conclusion, the higher levels of serotonin were during the phase of darkness, which varies depending on the region in which it is measured.     

Responses of the regressed ovary of the catfish, Heteropneustes fossils (Bloch), to interrupted-night photoperiods.

Interrupted-night photoperiod schedules were used to explore the possibility of the involvement of a ciradian rhythm in photosensitivity in ovarian recrudescence in the catfish, Heteropneustes fossilis. Interruption of the night of a basic short day (L/D 6:18) treatment by 1-h of light between 00(00) and 01(00) induced ovarian recrudescence which was significantly higher than that in the control group exposed to L/D 7:17. Scanning of the major part of the dark period (20(00-05(00)) to determine the duration of the photo-inducible phase shows that the photo-inducible phase lies between 20(00) and 03(00) with a peak from 00(00) to 01(00). Even 1-h of light in a regimen of L/D 1:23 presented between 20(00)-21(00), 22(00)-23(00), 00(00)-01(00), 02(00)-03(00), or 04(00)-05(00), produced significant ovarian recrudescence with a peak between 22(00) and 23(00). These results provide a clear demonstration of the possible involvement of a circadian mechanism for photoperiod measurement in the catfish.