Circadian rhythms of DNA synthesis in nasopharyngeal carcinoma cells

Nasopharyngeal carcinoma (NPC) occurs frequently in southern China. The circadian rhythm of DNA synthesis of a poorly differentiated NPC human cell line (CNE2) was investigated as an experimental prerequisite for designing chrono-chemotherapy schedules for patients with this disease. Twenty-two nude mice with BALB/c background were synchronized alternatively in 12 h of light and 12 h of darkness (LD12:12) for at least 3 wk prior to the transplantation of a CNE2 tumor fragment into each flank (area of ～2×2 mm²). Ten days later, a tumor sample (area of ～5 mm²) was obtained at 3, 9, 15, and 21 h after light onset (HALO) alternatively from different sites in each mouse. Single-cell suspensions were prepared and stained with propidium iodide. Cellular DNA content was measured with flow cytometry. Data were analyzed by ANOVA and cosinor methods. The average proportion of tumor cells in G₁, S or G₂-M phase varied according to circadian time with statistical significance. The maximum occurred at 9 HALO for G1, 2 HALO for S and 21 HALO for G₂-M phase cells. The approximate average distribution patterns of G₁ and G₂-M phases of cosine curve was 24 h. This was not the case for S-phase cells, which displayed a bimodal temporal pattern. Inter-individual variability in peak time was large, possibly due to relatively sparse sampling time. Nevertheless, no more than 6% of the time series displayed a maximum at 3 HALO for G₁, 21 HALO for S and 15 HALO for G₂-M. The cell cycle distribution of this human NPC cell line displayed circadian regulation following implantation into nude mice. The mechanisms involved in this rhythm and its relevance to the chrono-chemotherapy of patients deserve further investigation.     

Pharmacological effects of vinorelbine on body temperature and locomotor activity circadian rhythms in mice

The effects of vinorelbine (VRL) on the circadian rhythms in body temperature and locomotor activity were investigated in unrestrained B6D2F₁ mice implanted with radio-telemetry transmitters. A single intravenous VRL dose (24 or 12 mg/kg) was given at 7 h after light onset (HALO), a time of high VRL toxicity, and resulted in transient suppression of temperature and activity circadian rhythms in mice kept in light-dark (LD) 12h:12h. Such suppression was dose-dependent. It occurred within 1-5 d after VRL dosing. Recovery of both rhythms was partially complete within 5 d following the high dose and within 2 or 3 d after the low dose and was not influenced by suppression of photoperiodic synchronization by housing in continuous darkness. Moreover, VRL induced a dose-dependent relative decrease in amplitude and phase shift of the temperature circadian rhythm. The mesor and amplitude of the activity rhythm were markedly reduced following the VRL administration. The relevance of VRL dosing time was studied in mice housed in LD 12h:12h. Vinorelbine was injected weekly (20 mg/kg/injection) for 3 wk at 6 or 18 HALO. Vinorelbine treatment ablated the rest-activity and temperature rhythms 3-6 d after each dose, with fewer alterations after VRL dosing at 18 HALO compared to 6 HALO, especially for the body temperature rhythm. There was at least partial recovery 1 wk after dosing, suggesting the weekly schedule of drug treatment is acceptable for therapeutic purposes. Our findings demonstrate that VRL can transiently, yet profoundly, alter circadian clock function. Vinorelbine-induced circadian dysfunction may contribute to the toxicokinetics of this and possibly other anticancer drugs.     

Circadian and ultradian (12 h) rhythms of hepatic thiosulfate sulfurtransferase (rhodanese) activity in mice during the first two months of life

Thiosulfate sulfurtransferase (TST) is an important 'enzyme of protection,' that accelerates the detoxification of cyanide, converting it into thiocyanate. The TST physiological rhythm was investigated at wks 2, 4, and 8 of post-natal development (PND) in the mouse. The results revealed a statistically significant gender-related difference, with the highest activity in females, at all the documented PND stages. In the second week of PND (pre-weaning time), the circadian rhythm of the enzyme activity was associated with ultradian components. The prominent circadian rhythm (τ=24 h) peaked at the beginning of the light span, more precisely ∼3 HALO (Hours After Light Onset). A week after weaning (wk 4 of PND), an impairment of the rhythm, with the peak shifted toward the second half of photophase, was recorded. Four to 6 wks later, about wk 8 of PND, the circadian rhythm pattern was stabilized, with its peak then located at the beginning of the dark span (13 HALO). The obtained results showed a 12 h phase-shift of the circadian TST peak time during PND, suggesting that the rhythm stabilization is age-dependent.     

The effect of experimental diabetes on the twenty-four-hour pattern of the vasodilator responses to acetylcholine and isoprenaline in the rat aorta

The aim of this study was to investigate whether time-dependent variations in the relaxant effect of acetylcholine, an endothelium-dependent vasorelaxant via muscarinic receptors, and isoprenaline, a nonselective β-adrenoceptor agonist in rat aorta, are influenced by streptozotocin (STZ)-induced experimental diabetes. Adult male rats were divided randomly into two groups: control and STZ-induced (STZ, 55 mg/kg, intraperitoneal) diabetes. The animals were synchronized to a 12:12 h light-dark cycle (lights on 08:00 h) and sacrificed at six different times of day (1, 5, 9, 13, 17, and 21 hours after lights on; HALO) eight weeks after STZ injection. The in vitro responsiveness of thoracic aorta rings obtained from control and diabetic rats to acetylcholine (10^-9-10^-5 M) and isoprenaline (10^-10-10^-3 M) was determined in six different times. EC₅₀ (the concentration inducing half of the maximum response) values and maximum responses were calculated from cumulative concentration-response curves of the agonists and were analyzed with respect to time and STZ treatment. Treatment, time, and interactions between treatment and time were tested by two-way analysis of variance (ANOVA). To analyze differences due to biological time, one-way ANOVA was used. STZ treatment did not significantly change EC₅₀ values or maximum responses for both agonists. There were statistically significant time-dependent variations in the EC₅₀ values for isoprenaline and maximum responses for both acetylcholine and isoprenaline in control groups by one-way ANOVA, but significant time-dependent variations disappeared in the aortas isolated from STZ-induced diabetic rats. The vasodilator responses to acetylcholine and isoprenaline failed to show any significant interaction (treatment×time of study) between STZ treatment and time of sacrifice in both EC₅₀ values and maximum responses by two-way ANOVA. These results indicate there is a basic temporal pattern in the responses to acetylcholine and isoprenaline in rat aorta which continues in diabetes. It is shown for the first time that experimental diabetes does not change the 24 h pattern of responses to acetylcholine and isoprenaline, and that time-dependent variations in the responses to these agonists disappear in diabetic animals. Although further studies are required to define the underlying mechanism(s) of these findings, results suggest that experimental diabetes can modify the time-dependent vasorelaxant responses of rat aorta. This may help to understand the circadian rhythms in cardiovascular physiology and pathology or in drug effects in diabetes.     

The in Vitro Effect of Metyrapone on Steroid Synthesis in Mice Adrenals at Different Circadian Stages

The circadian rhythm of the in vitro biosynthesis of Cortisol and cortisone in mice adrenals has been documented in the absence and presence of 0.1 μmol metyrapone, an inhibitor of steroid 11β-monooxygenase. After 3 weeks of synchronization with 12 h light: 12 h darkness, adrenalectomy was performed at eight circadian stages: 0, 4, 9, 10, 13, 16, 21, and 22 h after light onset (HALO). Because it has been shown that mice adrenals could convert exogenous 11 -deoxy-cortisol, the synthesis of 11-oxysteroids (Cortisol + cortisone) in adrenal homoge-nates was studied from tritiated precursor. The pattern of steroid synthesis showed a maximum around the end (10 HALO) and a minimum at the beginning of the resting period (0 HALO); the variation was ∼ 10%. A similar pattern was observed in the presence of a ∼50% inhibiting dose of metyrapone. On the other hand, the percent inhibition of 11-oxysteroids synthesis was greater at the beginning of the resting period (0 HALO) and minimum around the end of the activity span (21 HALO), with an overall variation of 20%. However, the variations were statistically insignificant (unpaired t test).     

12-hour phase-shift of mice kidney rhodanese (thiosulfate sulfurtransferase) activity in the first two months of life

This study aimed to investigate and compare variation of renal rhodanese activity at 2^nd, 4^th and 8^th weeks of post-natal development (PND) in mice. The enzyme activity increased with age and was higher in females compared to males in all studied groups. Cosinor analysis revealed significant circadian rhythms (with period τ = 24 h) of enzyme activity in both genders with peak time shift during the PND. At the 2^nd week of PND (pre-weaning time), the circadian rhythm peaked at the beginning of light span, more precisely ≅1 HALO (Hours After Light Onset). A week after weaning (4^th week of PND), the peak time was located at the second half of photophase (≅9 HALO) in both genders. Four to six weeks later, about the 8^th week of PND, the circadian peak time was then recorded at ≅13 HALO. These findings suggest that rhodanese level and rhythm stabilization were age-dependent. Moreover, gender-related differences may stimulate discussions on the relationship between renal rhodanese and cyanide sensitivity.     

Controlled exposure to light and darkness realigns the salivary cortisol rhythm in night shift workers

The efficacy of a light/darkness intervention designed to promote circadian adaptation to night shift work was tested in this combined field and laboratory study. Six full-time night shift workers (mean age ± SD:37.1 ± 8.1 yrs) were provided an intervention consisting of an intermittent exposure to full-spectrum bright white light (∼2000 lux) in the first 6 h of their 8 h shift, shielding from morning light by tinted lenses (neutral gray density, 15% visual light transmission), and regular sleep/darkness episodes in darkened quarters beginning 2 h after the end of each shift. Five control group workers (41.1 ± 9.9 yrs) were observed in the presence of a regular sleep/darkness schedule only. Constant routines (CR) performed before and after a sequence of ∼12 night shifts over 3 weeks revealed that treatment group workers displayed significant shifts in the time of peak cortisol expression and realignment of the rhythm with the night-oriented schedule. Smaller phase shifts, suggesting an incomplete adaptation to the shift work schedule, were observed in the control group. Our observations support the careful control of the pattern of light and darkness exposure for the adaptation of physiological rhythms to night shift work.     

Circadian rhythm in dihydropyrimidine dehydrogenase activity and reduced glutathione content in peripheral blood of nasopharyngeal carcinoma patients

Dihydropyrimidine dehydrogenase (DPD) is a rate-limiting enzyme of 5-fluorouracil (5-FU) catabolism. Glutathione (GSH) is a tripeptide involved in platinum complex detoxification. This study explored the circadian rhythms of DPD activity and GSH concentration in the peripheral blood of 16 patients with histologically proven nasopharyngeal carcinoma (NPC) in order to guide the establishment of chronotherapeutic schedules for this cancer. DPD activity and GSH concentration were determined by high performance liquid chromatography (HPLC). Both variables displayed significant circadian rhythms (Cosinor analysis: p=0.009 and 0.012, respectively). Peak DPD activity occurred at about 02:30 h; whereas, peak GSH concentration occurred around 12:40 h. The differences between the peak and nadir mean values were 25.5% and 38.7%, respectively. The study showed that the circadian rhythms in DPD activity and GSH concentration in Chinese NPC are similar to those reported for western patients with colorectal cancer, despite the differences in race and kinds of cancer. These findings imply that the chronotherapeutic schedule of 5-FU and platinum used to treat European colorectal cancer patients probably is applicable to Chinese NPC patients.     

Possible evidence for shift work schedules in the media workers of the ant species Camponotus compressus

The locomotor activity rhythm of the media workers of the ant species Camponotus compressus was monitored under constant conditions of the laboratory to understand the role of circadian clocks in social organization. The locomotor activity rhythm of most ants entrained to a 24 h light/dark (12:12 h; LD) cycle and free-ran under constant darkness (DD) with circadian periodicities. Under entrained conditions about 75% of media workers displayed nocturnal activity patterns, and the rest showed diurnal activity patterns. In free-running conditions these ants displayed three types of activity patterns (turn-around). The free-running period (τ) of the locomotor activity rhythm of some ants (10 out of 21) showed period lengthening, and those of a few (6 out of 21) showed period shortening, whereas the locomotor activity rhythm of the rest of the ants (5 out of 21) underwent large phase shifts. Interestingly, the pre-turn-around τ of those ants that showed nocturnal activity patterns during earlier LD entrainment was shorter than 24 h, which became greater than 24 h after 6-9 days of free-run in DD. On the other hand, the pre-turn-around τ of those ants, which exhibited diurnal patterns during earlier LD entrainment, was greater than 24 h, which became shorter than 24 h after 6-9 days of free-run in DD. The patterns of activity under LD cycles and the turn-around of activity patterns in DD regime suggest that these ants are shift workers in their respective colonies, and they probably use their circadian clocks for this purpose. Circadian plasticity thus appears to be a general strategy of the media workers of the ant species C. compressus to cope with the challenges arising due to their roles in the colony constantly exposed to a fluctuating environment.     

X-ray induction of 6-thioguanine-resistant mutants in division arrested, G0/G1 phase Chinese hamster ovary cells

The cytotoxic and mutagenic effect of X-irradiation was determined with Chinese hamster ovary cells arrested in the G₀/G₁ phase of the cell cycle through 9 days incubation in serum-free medium. In comparison with exponential phase cultures, the arrested cells showed increased cytotoxicity and mutation induction over the dose range of 50–800 rad. Exponential cultures showed a linear mutant frequency-survival relationship while the arrested cells showed a biphasic linear relationship. A post irradiation holding period of 24 h does not result in any change in the mutant frequency. The increased sensitivity of the arrested cells to the mutagenic effects of X-rays appears to be a cell-cycle phase phenomenon. Upon readdition of serum, the arrested cells re-enter the cell cycle in a synchronous manner, reaching S phase at 10–12 h. Cells irradiated at 5 h after serum addition, i.e. in G₁, show a similar does response for mutant frequency, while those irradiated at 10 h or later, i.e. in late G₁, S or G₂, show lower mutation induction. These observations are consistent with a chromosome interchange mechanism of mutation induction by X-rays, possibly through interactions between repairing regions of the DNA. Irradiation of cells in the G₀/G₁ phase allow more time for such interactions in the absence of semiconservative DNA replication.     

Latitude dependent arrhythmicity in the circadian oviposition rhythm of Drosophila ananassae

Latitude dependent arrhythmicity in the circadian rhythm of oviposition of Drosophila ananassae strains originating from 8.1°N to 32.7°N was studied by inbreeding them in cycles of 12 h of light at 20 lux and 12 h of darkness. The number of inbreeding generations required to initiate arrhythmicity in oviposition rhythm was dependent on the origin of latitude of the strain. The strains from the lower latitudes became arrhythmic after notably more numbers of generations than those from the higher latitudes. This might be attributed to the higher inherent degree of oviposition rhythmicity in the F₁ generation, and enhanced photic sensitivity of the circadian pacemaker mediating entrainment of oviposition rhythm of the strains from lower latitudes as compared to those from the higher latitudes.     

24-hour changes in circulating prolactin, follicle-stimulating hormone, luteinizing hormone, and testosterone in young male rats subjected to calorie restriction

This work analyzes the effect of calorie restriction on the 24 h variation of pituitary-testicular function in young male Wistar rats by measuring the circulating levels of prolactin, follicle-stimulating hormone (FSH), luteinizing hormone (LH), and testosterone. Control animals were provided an equilibrium calorie diet and the experimental animals a calorie-restriction diet equivalent to 66% of food restriction for four weeks starting on day 35 of life. Different groups of control and experimental rats were killed at 6 h intervals around the clock, beginning 1 h after light on (HALO). Compared to the control animals, the mean secretion of prolactin was augmented and that of LH and testosterone decreased in calorie-restricted rats, whereas FSH release remained unchanged. Significant changes in the 24 h secretory pattern of circulating prolactin, LH, and testosterone occurred in the calorie-restricted rats. These include the appearance of a second maximum of plasma prolactin at 21 HALO, blunting of the LH peak seen at 13 HALO, and phase-shift of the testosterone peak from 13 HALO in controls to 17 HALO in calorie-restricted rats. The significant positive correlation between individual LH and testosterone levels found in controls was no longer observed in calorie-restricted rats. Availability of nutrients presumably affects the mechanisms that modulate the circadian variation of the pituitary-gonadal axis in growing male rats.     

The photoperiodic entrainment and induction of the circadian clock regulating seasonal responses in the migratory blackheaded bunting (Emberiza melanocephala)

The properties of the circadian photoperiodic oscillator have been investigated in detail only in the Japanese quail. While the study of the quail is clearly very important, one cannot simply assume that other species, especially passerines that seem to have a different circadian organization than quail, function the same way. The current set of experiments was conducted to understand the entrainment and photoinduction of the circadian photoperiodic oscillator in a passerine species, the blackheaded bunting (Emberiza melanocephala). The experimental paradigm used skeleton photoperiods with two light periods, the first called the “entraining light pulse” (E-pulse) and the second called the “inducing light pulse” (I-pulse). Three experiments were performed on photosensitive male birds (N=6-8/group). Experiment 1 investigated the effects of the temporal relationship between E- and I-pulses on photoperiodic induction. Buntings entrained to 8h:16h L:D for 4 wk were released into constant dim light (LL_dim, ∼1 lux). Beginning on subjective day 8, they received for 8 wk, E- and I-pulses only at alternate cycles. While I-pulse was 1 h and always began at zt 11.5, E-pulse varied in duration and timing (the 1h E-pulse beginning either at zt 0, zt 5, or zt 9, the 4h one beginning at zt 0 or zt 6, and the 10h one at zt 0; zeitgeber time 0=time of lights-on under 8h:16h L:D prior to release into LL_dim). A photoperiodic response was induced only when the E-pulse began at zt 0, and thus the beginning of E- and I-pulses were separated by 11.5 h. Experiment 2 determined whether the duration of the E-pulse influences the position of the photoinducible phase (φi) of the circadian photoperiodic oscillator. Birds were entrained to 1h:23h L:D or 10h:14h L:D for 2 wk, and then exposed to 1h I-pulse at zt 11.5, zt 15, or zt 18.5 for another 8 wk. Photoperiodic induction occurred at all 3 zts in birds entrained to 10 h but only at zt 11.5 in birds entrained to 1 h, which infers the circadian rhythm of photoinducibility (CRP) in buntings was re-entrained when I-pulse fell at zt 15 and after. The last experiment examined the possibility of the re-entrainment of the CRP to light pulses falling at zt 15 and after. Birds received 1h I-pulse for 8 wk at zt 15 following 2 wk of 2.5h:21.5h L:D or 3.5h:20.5h L:D, or at zt 21.5 or zt 22.5 following 2 wk of 10h:14h LD. Photoperiodic induction was consistent with the hypothesis of the re-entrainment of the CRP under these light-dark cycles. The I-pulse appeared to be interpreted as a “new dawn”, and so the photoperiodic induction was determined by the coincidence of φi with the E-pulse. These results suggest a phase-dependent action of light on the circadian oscillator regulating photoperiodic responses in the blackheaded bunting. This could be a useful strategy for a photoperiodic species to regulate its seasonal responses in nature.     

Relationship of atypical melatonin rhythm with two circadian clock outputs in B6D2F(1) mice

Circadian rhythms in body temperature, locomotor activity, and the circadian changes of plasma and pineal melatonin content were investigated in B6D2F(1) mice synchronized by 12 h of light and 12 h of darkness. During 8 wk continuous recording, activity and temperature displayed a marked stable and reproducible circadian rhythm, with both peaks occurring near the middle of darkness. Both 24- and 12-h rhythmic components were also significantly detected. Mean plasma melatonin concentration rose steadily during the light span and reached a maximum (30.6 +/- 10.0 pg/ml) at 11 h after light onset (HALO), then gradually decreased after the onset of darkness to a nadir (4.7 +/- 0.4 pg/ml) at 20 HALO. Mean pineal content followed a pattern parallel to that of plasma concentration (peak at 11 HALO: 17.7 +/- 1.0 pg/gland; trough at 17 HALO: 4.7 +/- 1.0 pg/gland). In addition, a second sharp peak was observed at 21 HALO (20.2 +/- 3.5 pg/gland). Plasma and pineal contents displayed large and statistically significant circadian changes, with a composite rhythm of period (24 + 12 h). This mouse model has predominant production and secretion of melatonin during the day. This possibly contributes to a similar coupling between chronopharmacology mechanisms and the rest-activity cycle in these mice and in human subjects.     

IL-12重组质粒联合骨髓间充质干细胞对MCF-7人乳腺癌细胞侵袭及裸鼠移植瘤生长的影响分析

目的探讨IL-12重组质粒联合骨髓间充质干细胞（BMSC）对MCF-7人乳腺癌细胞侵袭及裸鼠移植瘤生长的影响。 方法分离纯化培养BMSC原代细胞,制备BMSC条件培养基,分析BMSC条件培养基对MCF-7细胞株体外增殖和凋亡的影响;建立裸鼠MCF-7转移瘤模型,分为对照组、BMSC组、IL-12组以及联合组,各组每3 d进行一次瘤内注射,共注射3次,15 d后处死裸鼠,比较各组裸鼠肿瘤、脾脏重量。采用χ²检验、t检验以及方差分析进行统计学分析。 结果BMSC条件培养基能够抑制MCF-7细胞增殖,且随着作用时间的延长其抑制作用升高[24 h（13.42±1.93）%,48 h（16.83±1.77）%,72 h（20.21±2.01）,F = 6.271,P = 0.000]。BMSC条件培养基处理MCF-7细胞,可有效促进MCF-7细胞凋亡,且随着作用时间的延长细胞凋亡率升高[24 h（10.82±2.18）%,48 h（18.73±2.95）%,72 h（28.15±3.52）%,F = 9.215,P = 0.000]。与对照组裸鼠肿瘤体积[1 d（124.12±9.28）mm³,3 d（582.41±17.28） mm³,7 d（983.42±42.10） mm³,15 d（793.46±109.38） mm³]比较,BMSC组[1 d（132.61±12.41） mm³,3 d（378.46±23.08） mm³,7 d（542.61±58.49）mm³,15 d（329.48±47.51） mm³]、IL-12组[1 d（119.85±13.10） mm³,3 d（322.75±26.49） mm³,7 d（518.37±67.54）mm³,15 d（302.17±68.53） mm³]以及联合组[1 d（123.41±8.94）mm³,3 d（217.85±24.03）mm³,7 d（318.29±47.32） mm³,15 d（189.27±37.58）mm³]裸鼠肿瘤体积生长速度均减慢,差异具有统计学意义（F_1d=0.827,F_3d=37.583、F_7d=31.472、F_15d=15.372,P < 0.001）;处死各组裸鼠后裸鼠肿瘤质量比较,BMSC组[（529.42±98.74） mg]、IL-12组[（544.01±117.85）mg]以及联合组[（327.55±78.56） mg]均低于对照组[（877.42±120.11）mg],且联合组裸鼠肿瘤质量最低,差异具有统计学意义（F = 10.821,P < 0.001）;而裸鼠脾指数BMSC组（7.58±1.21）、IL-12组（7.63±1.09）以及联合组（10.03±1.52）均高于对照组（5.37±0.89）,联合组裸鼠脾质量最高,差异具有统计学意义（F = 13.411,P < 0.001）。 结论BMSC在体内外均具有抑制MCF-7肿瘤增殖作用,联合使用pcDNA6/IL-12对裸鼠MCF-7转移瘤抑制具有着明显的协同作用。     

Effects of photophase and altitude on oviposition rhythm of the himalayan strains of Drosophila ananassae

The effects of varying photophase and altitude of origin on the phase angle difference (Ψ) of the circadian rhythm of oviposition during entrainment to light-dark (LD) cycles and the aftereffects of such photophases on the period of the free-running rhythm (τ) in constant darkness (DD) were evaluated in two Himalayan strains of Drosophila ananassae, the high-altitude (HA) strain from Badrinath (5,123 m above sea level=ASL) and the low-altitude (LA) strain from Firozpur (179 m ASL). The Ψ (i.e., the hours from lights-on of the LD cycle to oviposition median) of both strains was determined in LD cycles in which the photophase at 100 lux varied from 6 to 18 h/24 h. The HA strain was entrained by all LD cycles except the one with 6 h photophase in which it was weakly rhythmic, but the LA strain was entrained by only three LD cycles with photophases of 10, 12, and 14 h, but photophases of 6, 8, 16, and 18 h rendered it arrhythmic. Lights-off transition of LD cycles was the phase-determining signal for both strains as oviposition medians of the HA strain occurred∼6 h prior to lights-off, while those of the LA strain occurred∼1 h after lights-off. The Ψ of the HA strain increased from∼2 h in 8 h photophase to∼11 h in 18 h photophase, while that of the LA strain increased from∼11 h in 10 h photophase to∼15 h in 14 h photophase. The aftereffects of photophase of the prior entraining LD cycles on τ in DD were determined by transferring flies from LD cycles to DD. The τ of the HA strain increased from∼19 to∼25 h when transferred to DD from LD 8:16 and LD 18:6 cycles, respectively, whereas the τ of the LA strain increased from∼26 to∼28 h when transferred to DD from LD 10:14 and LD 14:10 cycles, respectively. Thus, these results demonstrate that the photophases of entraining LD cycles and the altitude of origin affected several parameters of entrainment and the period of the free-running rhythm of these strains.     

Multiple oscillations in changing cell shape by the plasmodium of Physarum polycephalum: general formula governing oscillatory phenomena by the Physarum plasmodium

The long-term dynamics of an amoeboid cell shape were studied using Physarum polycephalum plasmodia with various sizes. Cell shape varied oscillatorily in a multiple periodic manner. The organism periodically elongated with period of T₇ = 10 h, branched with T₆ = 4 h, became uneven with T₅ = 30 min and T₄ = 10 min, and blew up with T₃ = 1.5 min. Tiny plasmodia changed shape much faster with T₃ = 1.3 min, T₂ = 24 s and T₁ = 3.3 s simultaneously. The plasmodial cytoskeleton also showed periodic pattern formation with T₆, T₅ and T₃. Periods of all known oscillatory phenomena in this organism correspond to some of the periods for the above seven rhythms, and the following geometric progression holds among the periods: T_i + 1/T_i = 7 and T_i + 2/T_i + 1 = 3, where i = 1, 3, 5. Thus, multiple oscillations in the plasmodium are organized globally.     

Temporal variation in drug interaction between lithium and morphine-induced analgesia

The administration-time-dependent aspects of the drug interaction between lithium and morphine-induced analgesia were studied using the mouse hot-plate test at six different times of day, each scheduled at 4 h intervals. Lithium treatment alone, in doses of 1 to 10 mmol/kg administered intraperitoneally (i.p.) did not significantly alter test latencies compared to the corresponding clock-time in saline-injected controls. Basal pain sensitivity and morphine-induced antinociceptive activity displayed significant circadian rhythms as assessed by the hot-plate response latencies, with higher values occurring during the nocturnal activity than during the daytime rest span. Acute administration of lithium, in a dose of 3 mmol/kg, 30 min prior to morphine dosing did not influence morphine-induced analgesia compared to all the clock-time test-matched morphine groups, except the 9 HALO (Hours After Lights On) one. There was a prominent potentiation of the morphine-induced antinociception at this biological time during combined drug treatment. The latter finding demonstrates that administration-time-dependent differences in drug-drug interactions need to be considered in both experimental designs and clinical settings.     

Accidents in children do not happen at random: predictable time-of-day incidence of childhood trauma

In a prospective study, 15,110 childhood traumas were recorded by the Pediatric Surgery Service (CHUV, Lausanne) between January 1, 1990 and December 31, 1997. The exact clock hour when the injury occurred and other germane data were obtained. Time series thus obtained were analyzed by several statistical (ANOVA, cosinor, χ², Table Curve, etc.) methods. High statistically significant circadian patterns were detected with a trough at night—almost no traumas/hour (t/h), and a peak in the afternoon (∼16:00h)—9.3±0.4 (SD) t/h. Such 24h variation was validated for the whole sample for the entire 8yr study span as well as the data of each year. Neither gender- nor age-related differences in the 24h pattern were detected between children under 5 yr of age, who have not yet attended school and children from 5 to 16 yr of age, who attend school. Small but statistically significant differences in the 24h patterns were observed when categorized by the type of activity associated with the trauma and the place of trauma occurrence. The great stability of the 24h pattern in childhood trauma over the 8yr study span suggests an endogenous origin in addition to the role presumably played by environmental factors. Periods of 12 and 8 h were also detected in the time series. The afternoon peak time of childhood traumas differs from that of adults, which is located ∼04:00h in rotating shift workers and automobile drivers and 06:00-08:00h in adult day-workers. The validation of a circadian pattern in childhood traumas with an afternoon peak should be taken into account in the design of children's preventative injury programs.     

Circadian variations in the activities of 6-phosphogluconate dehydrogenase and glucose-6-phosphate dehydrogenase in the liver of control and streptozotocin-induced diabetic rats

The aim of this study was to examine: the 24 h variation of 6-phosphogluconate dehydrogenase and glucose-6-phosphate dehydrogenase activities, key enzymes for the maintenance of intracellular NADPH concentration, in rat liver in control and streptozotocin-induced diabetic animals. Adult male rats were fed ad libitum and synchronized on a 12:12 h light-dark cycle (lights on 08:00 h). One group of animals was treated with streptozotocin (STZ, 55 mg/kg, intraperitoneal) to induce experimental diabetes. Eight weeks after STZ injection, the animals were sacrificed at six different times of day—1, 5, 9, 13, 17 and 21 Hours After Lights On (HALO)—and livers were obtained. Enzyme activities were determined spectrophotometrically in triplicate in liver homogenates and expressed as units per mg protein. 6-phosphogluconate dehydrogenase activity was measured by substituting 6-phosphogluconate as substrate. Glucose-6-phosphate dehydrogenase activity was determined by monitoring NADPH production. Treatment, circadian time, and interaction between treatment and circadian time factors were tested by either one or two way analysis of variance (ANOVA). Two-way ANOVA revealed that 6-phosphogluconate dehydrogenase activity significantly depended on both the treatment and time of sacrifice. 6-phosphogluconate dehydrogenase activity was higher in control than diabetic animals; whereas, glucose-6-phosphate dehydrogenase activity did not vary over the 24 h in animals made diabetic by STZ treatment. Circadian variation in the activity of 6-phosphogluconate dehydrogenase was also detected in both the control and STZ treatment groups (one-way ANOVA). Time-dependent variation in glucose-6-phosphate dehydrogenase activity during the 24 h was detected in control but not in diabetic rats. No significant interaction was detected between STZ-treatment and time of sacrifice for both hepatic enzyme activities. These results suggest that the activities of NADPH-generating enzymes exhibit 24 h variation, which is not influenced by diabetes.