Hours After Lights On Research Articles

Circadian variation of gentamicin toxicity in rats.

Two undesired effects of the aminoglycoside antibiotic gentamicin are ototoxicity and nephrotoxicity. This study investigated if these adverse effects vary according to the circadian time of its administration. This study entails laboratory animal research. Four groups of Sprague-Dawley rats were synchronized to a 12:12 light/dark schedule. Each group receiving the antibiotic (100 mg/kg gentamicin sulfate) at a different circadian time. Auditory brainstem response was obtained at pretreatment and at 2, 4, and 6 weeks. At all measured frequencies, hearing losses were significantly (P < .001) greater when gentamicin was administered during the diurnal rest span than the nighttime activity span. At 4 weeks, the average total hearing loss, quantified by elevation of threshold values over the tested auditory frequencies, was 31.3 and 25.6 dB for the 2 hours after lights on (HALO) and 8 HALO groups, respectively. The loss progressed at 6 weeks to 42.5 (2 HALO) and 37.5 (8 HALO) dB. At 6 weeks, the 14 and 20 HALO groups had losses of 17.5 and 26.3 dB, respectively. Trough serum gentamicin concentration significantly (P < .01) increased during treatment, being the highest at 4 weeks. Urine urea nitrogen 24-hour levels of the 2 and 8 HALO groups differed significantly (P < .01) from the 14 and 20 HALO groups. Ototoxicity was greater when gentamicin was administered during their diurnal rest than during nocturnal activity. A dosing paradigm may be used to deliver a lower therapeutic antimicrobial concentration during the nighttime rest period when the studied adverse effects are of highest risk.

Chronopharmacology of Angiotensin II–receptor Blockers in Stroke-Prone Spontaneously Hypertensive Rats

Protective effect of valsartan (Val), an angiotensin II (AII)-receptor blocker (ARB), against organ damage is reported to depend on the dosing time in hypertensive patients. Dosing-time–dependent effect of Val on survival of stroke-prone spontaneously hypertensive rats (SHRSP) under a 12-h lighting cycle was examined. Val (4 mg/kg per day) and olmesartan medoxomil (OM) (1 mg/kg per day), another ARB with a slower dissociation from the AII receptor, were given once daily at 2, 8, 14, or 20 HALO (hours after lights on). Dosing-time–dependent differences in plasma drug concentrations and effect on blood pressure (BP) were also evaluated. Survival of SHRSP showed a dosing-time–dependent change during Val therapy, with a peak at 2 HALO and a trough at 14 HALO. OM equally prolonged survival in all groups. The BP-lowering effect persisted for more than 24 h after dosing of Val at 2 HALO and of OM at 2 and 14 HALO, but disappeared at 5.5-h after Val dosing at 14 HALO. Plasma concentrations of Val and OM were higher after dosing at 2 HALO than at 14 HALO. These results suggest that the chronopharmacological phenomenon of Val was partly due to the dosing-time–dependent difference in plasma concentration and subsequent duration of the antihypertensive effect. Slower dissociation of OM from AII receptors might have blunted a potential dosing-time–dependent event.

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.

Circadian Variations in the Activities of 6‐Phosphogluconate Dehydrogenase and Glucose‐6‐Phosphate Dehydrogenase in the Liver of Conrol 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.

Circadian-Rhythm-dependent Effects of L-NG-Nitroarginine Methyl Ester (L-Name) on Morphine-Induced Analgesia

Circadian changes in the interactions between L-NG-nitroarginine methyl ester (L-NAME), a nitric oxide synthase (NOS) inhibitor, and morphine-induced antinociception were investigated by the mouse hot-plate test. Born the basal pain sensitivity and morphine-induced analgesia undergo significant 24h variations. L-NAME (40 mg/kg, ip) alone did not show any antinociceptive activity, but potentiated morphine-induced analgesia when combined with morphine at all injection times. In terms of percentage absolute potentiation (%AP), L-NAME dramatically augmented the analgesic effect of morphine in the late dark period at 19 hours after lights on (HALO). It is concluded that nitric oxide (NO) is involved in the modulation of the analgesic effect of morphine; thus, the L-NAME and morphine combination might be beneficial in alleviating pain.

Circadian Reactivity Rhythm of Rat Gastric Mucosa to Restraint-Cold Stress and Indomethacin: Temporal Variation in the Protective Effect of Iloprost

In this study, the time-dependent ulcerogenic effects of restraint-cold stress and indomethacin on the gastric mucosa and the temporal variation in the protective effect of iloprost, a synthetic stable analog of prostacyclin, were investigated in rats synchronized to 12h light and 12h darkness, lights on at 08:00. The severity of gastric ulceration produced by either stress or indomethacin showed marked circadian variation; it was greatest at 11 HALO (hours after lights on) for restraint-cold stress and at 23 HALO for indomethacin. The severity of the induced ulcerogenesis was least at 7 HALO for both stimuli. The protective effect of iloprost against restraint-cold stress was most prominent at 15 HALO and 19 HALO with an approximately 80% protection score. On the other hand, pretreatment with iloprost reduced the indomethacin-induced mucosal injury only at 23 HALO. The circadian variation in the effect of iloprost and in the rhythmic modalities of these two experimental ulcer models are indicative of differences in their underlying mechanisms. In experimental models of ulceration, the circadian time of application of the ulcerogenic stimulus must be considered as an important experimental factor. Moreover, the protective effectiveness of antiulcer drugs can express time-dependent differences and must also be taken into account in investigative research. (Chronobiology International, 14(6), 575–583, 1997)

Surgical influence on murine immunity and tumor growth: relationship of body temperature and hormones with splenocytes.

Adrenalectomy predisposed the C3HeB/FeJ Mouse to tumor from a low dose of tumor cells, derived from a C3H spontaneous mammary adenocarcinoma. Sham surgery had a similar effect. In contrast, ovariectomized females, intact females, and male mice did not allow the low dose of cells to develop into a tumor. In order to better understand the role of hormones on the immune system controlling tumor growth, normal C3HeB/FeJ mice were studied for the effect of corticosterone or estradiol on splenic lymphocyte surface antigen expression. Adrenalectomy and ovariectomy caused a decrease in the percentage of all T cell subclasses and an increase in absolute numbers of immunoglobulin-bearing cells. Reconstitution of ovariectomized mice with estradiol did not significantly alter lymphocyte cell surface antigen expression. In contrast, injection of corticosterone into adrenalectomized mice brought these values to normal. Further study on normal mice placed on a 12:12-hr light:dark schedule showed that the hours after lights on (HALO) had a significant effect (analysis of variance) on body temperature, percentage of splenic B cells, T pan, T helper and T suppressor cells, and absolute numbers of T pan cells. Brain dehydroepiandrosterone sulfate correlated positively with T pan lymphocytes, but showed no significant effect on HALO. In contrast, body temperature showed a strong circadian rhythm (P less than 0.001). In addition, the presentation of estrus was circadian rhythmic (P = 0.003) with 58% of mice in estrus at 16 HALO and only 8% at 4 HALO. Multiple regression analysis revealed body temperature was strongly associated with absolute numbers of splenic T lymphocytes and their subsets, as well as percentage of B lymphocytes, Thy 1.2-, and Lyt-2-bearing cells. Similarly, HALO and estrous cycle stage were associated with percentage of T helper cells. The data showed that body temperature and hormones were associated with the cell surface antigens on lymphocytes and suggest that they affect lymphocyte function.

Circadian rhythm in prostacyclin activity in gastric tissue of the fasting rat

Gastroduodenal ulcer disease may result from the desynchronization of the circadian rhythms of gastric protective and destructive factors. The purpose of this study was to evaluate whether gastric tissue 6-keto prostaglandin F1α (PGF1α) catabolic derivative of the putative protective factor prostacyclin, is produced in a circadian fashion in the rat model. Forty-eight male Sprague-Dawley rats were acclimatized in sound-attenuated, lightproof chambers for 3 weeks on a 12:12 hour light/dark entrainment schedule. After an 18-hour fast, six rats were killed at each of eight sampling times. The stomachs were exposed, remove and assayed for total 6-keto PGF1α content by radioimmunoassay. Cosinor analysis of the data showed significant (p = 0.0262) circadian rhythmicity in 6-keto PGF1α content with an acrophase (peak time) value of 0503 HALO (hours after lights on) or in the middle of the lights-on inactive period for the rats. Hypothetically, the circadian rhythm in some gastric protective factors may render the gastric mucosa vulnerable to injury in a circadian fashion.

Circadian rhythms of gastric mucus efflux and residual mucus gel in the fasting rat stomach

We hypothesized that two putative gastric protective factors, mucus efflux and residual mucus gel content, would manifest circadian rhythms, as reported in several other gastric functions. Rats were adapted for three weeks on a 12-hr light schedule, fasted 18-hr and studied at 3-hr intervals. Under anesthesia, the stomachs were cannulated and filled with test solution. Thirty minutes later, they were drained and the luminal fluid was analyzed for mucus content by Alcian blue binding. Residual mucus gel was determined by direct injection of dye into the lumen. Alcian blue binding of rat mucus was expressed as equivalent milligrams of porcine mucin. Both parameters showed a significant (P less than 0.001) circadian rhythm. Mucus efflux peaked at 5:03 +/- 0:52 HALO (hours after lights on), and residual mucus at 6:00 +/- 0.46 HALO. Thus, the interplay of circadian rhythms in aggressive and defensive gastric mucosal functions is supported.

Circadian rhythms of acid and bicarbonate efflux in fasting rat stomach

One model of gastric ulcerogenesis implicates a disruption of complementary circadian rhythms between protective and destructive factors. The purpose of this study was to compare circadian rhythms in gastric production of H+ and HCO3- in fasted rats. Sprague-Dawley rats were acclimatized in sound-attenuating, light-proof chambers for 3 wk on a 12:12-h light-dark schedule. Eighteen-hour fasted rats were studied at each of eight sampling times. After anesthesia, the stomachs were cannulated and filled with test solution. Thirty-minute gastric samples were titrated for H+ or assayed for HCO3-. Cosinor analysis of the data showed significant (P less than 0.05) circadian rhythms for both H+ and HCO3-. Peak times were 22:45 HALO (hours after lights on) (4:45 A.M.) for H+ and 05:41 HALO (11:41 A.M.) for HCO3-. These data demonstrate that H+ and HCO3- secretion in the fasting rat gastric lumen follow circadian rhythms with different peak times. Theoretically, this may result in circadian rhythmicity of relative mucosal vulnerability to injury.

Orcadian Rhythm of Trehalose in the Face Fly Musca Autumnalis De Geer

Trehalose levels were determined over two 24 hr spans in groups of face fly adults 3-4 days after emergence from the puparium. Face fly pupae were placed in rearing chambers at 27 degrees C in a staggered light-dark regimen, LD 16:8, so that at a given clock hour, samples could be obtained at several different hours after lights on (HALO). Trehalose was determined in hemolymph collected from a puncture in the intersegmental membrane of the abdomen. Treated hemolymph samples were passed through a Bio-Rad Amino 5-S disaccharide column and a Waters 410 refractive index detector was used to differentiate among sugars. The circadian acrophase derived by cosinor analysis in hemolymph trehalose (when the values were 25.49 and 26.86 micrograms/microliters on the first and second days respectively) occurred at -226 degrees (ca 15 HALO) and the bathyphase at 24 HALO. The mesor = 11.82 micrograms/microliters trehalose, the amplitude = 8.57 micrograms/microliters trehalose and the P-value for presence of a rhythm was 0.003. Based on these data, differences between control and test flies in a bioassay of hypertrehalosemic activity would be most easily observed at 0-8 HALO, while exogenous hypotrehalosemic activity would be best assayed at 12-20 HALO.