Chronopharmacological effects on nicotine repeated administration on heart rate, body temperature and locomotor activity circadian rhythms in rats

The aim of this study was to compare morning and evening repeated nicotine administration on the circadian rhythms of heart rate (H), body temperature (T) and locomotor activity (A) in unrestrained rats by using implanted radio-telemetry transmitters. The study was divided into three 7-day periods: a control period (P1), a treatment period (P2) and a recovery period (P3). During P2, four rats received nicotine (1mg.kg(-1)) subcutaneously at 09.00 h and four rats received nicotine in the same conditions at 21.00 h. For P1, P2 and P3, a power spectrum analysis was applied in order to determine the dominant period of rhythmicity. If H, T and A circadian rhythms were detected, the characteristics of these rhythms were determined by cosinor analysis, expressed as means+/-SEM and compared by ANOVA. Our results indicated: (1) a lack of detection of A circadian rhythm during P2 for the morning group while H and T circadian rhythms were detected for the morning and evening group whatever the period. (2) alterations of mesors, amplitudes and acrophases of H and T circadian rhythms for the morning and evening group during P2 and alterations of mesor, amplitude and acrophase of A circadian rhythm for the evening group. Furthermore these alterations were significantly different for the morning and evening group during P2. These results showed that the time of administration of nicotine differently affect H, T and A rhythms. The authors suggest that these effects can be mediated by central cholinergic and/or monoaminergic mechanisms.     

Photoaffinity labeling of DNA polymerase from Thermus thermophilus and DNA template by photoreactive analogs of dCTP

The aim of this study was to evaluate the influence of nicotine on the daily rhythms of heart rate, body temperature and locomotor activity in unrestrained rats by use of implanted radiotelemetry transmitters. The study was divided into three seven-day periods: a control period, a treatment period and a recovery period. The control period was used for baseline measurement of heart rate, body temperature and locomotor activity. During the treatment period three rats received nicotine (1 mg kg(-1), s.c.) at 0900 h. Three rats received saline under the same experimental conditions. Heart rate, body temperature and locomotor activity were continuously monitored and plotted every 10 min. During the three periods a power spectrum analysis was used to determine the dominant period of rhythmicity. If daily rhythms of heart rate, body temperature and locomotor activity were detected, the characteristics of these rhythms, i.e. the mesors, amplitudes and acrophases, were determined by cosinor analysis, expressed as means +/- s.e.m. and compared by analysis of variance. Nicotine did not suppress daily rhythmicity but induced decreases of amplitudes and phase-advances of acrophases for heart rate, body temperature and locomotor activity. These perturbations might result from the effects of nicotine on the suprachiasmatic nucleus, the hypothalamic clock that co-ordinates biological rhythms.     

Test type influences the expression of lithium chloride-induced hyperalgesia

Male and female strain A/J mice were exposed to environmental tobacco smoke that was generated by burning Kentucky 1R4F reference cigarettes. Exposures lasted 6 hours per day, 5 days per week for a total of 5 months, followed by a 4-month recovery period in air. Chamber concentrations of total suspended particulate matter (TSP) ranged from 50 to 90 mg/m3. Under these conditions, the average lung tumor multiplicity was 1.2 to 1.4 tumors per lung, significantly higher (p < 0.05) than in concomitant controls. ETS exposure led to a comparatively modest increase in cell proliferation in the alveolar zone during the first 2 weeks and in the terminal airways during the first 6 weeks. In the nasal passages cell proliferation was increased throughout, but reverted down to normal when the animals were placed in air. Smoke exposure increased immunostaining for cytochrome P4501A1 in airways and parenchyma. Exposure to the smoke gas phase only produced a similar increase in lung tumor multiplicity as did exposure to full smoke, but failed to induce P4501A1. This suggested that gas-phase constituents play an important role in tobacco smoke carcinogenesis. The strain A/J lung tumor model is thus suitable to study questions associated with tobacco smoke toxicity and carcinogenicity.     

Effects of cigarette smoke on N-nitrosobis(2-oxopropyl)amine-induced pancreatic and respiratory tumorigenesis in hamsters

Influences of cigarette smoke on N-nitrosobis(2-oxopropyl)amine (BOP)-induced pancreatic duct and respiratory tract tumorigenesis were investigated using a hamster two-stage carcinogenesis model. Male 5-week-old hamsters were divided into 5 groups. Group 1 was s.c. injected with BOP at a dose of 10 mg/kg once a week for 3 weeks as an initiation treatment together with cigarette smoke exposure over the same 4-week period. Group 2 was exposed to cigarette smoke for 26 weeks after the BOP-initiation. Groups 3 and 4 were respectively given the BOP-initiation alone and the 26-week cigarette smoke exposure without initiation. Group 5 served as a sham-smoked negative control. The experiment was terminated 30 weeks after the first BOP injection. The incidence of pancreatic adenocarcinomas was significantly decreased in Group 1 as compared to the Group 3 value (P < 0.01) while the Group 2 value did not show any change. In contrast, the incidence of laryngeal and tracheal proliferative lesions (hyperplasias and papillomas) was significantly increased in Group 2 over Group 3 (P < 0.01). The incidence of pulmonary hyperplasias was also increased in Group 2 over Group 3 (P < 0.05), although that of pulmonary adenomas or adenocarcinomas was decreased in Group 2 as compared to the Group 3 value (P < 0.01). Cigarette smoke exposure in the BOP-initiation phase (Group 1) did not affect the development of respiratory proliferative lesions. No animals in Groups 4 and 5 developed any tumors in the pancreas or respiratory tract. Our results thus indicate that cigarette smoke exposure inhibits pancreatic carcinogenesis when given in the initiation phase, whereas it modulates (enhances or suppresses) the development of proliferative lesions in the respiratory tract if applied during the promotion stage to hamsters pretreated with BOP.     

Comparative evaluation of the structural characteristics of the circadian cardiovascular rhythms of healthy persons and in ischemic heart disease

Certain indices of haemodynamics and ECG have been recorded in a biorhythmological study in 141 patients with ischaemic heart disease and in 26 practically healthy individuals. It was established that both the healthy individuals and the patients with ischaemic heart disease have diurnal rhythms of pulse rate, systolic and diastolic pressure, minute heart volume, R--R QRST, TQ intervals and R and T waves on ECG. The acrophases of diurnal rhythms of these indices in the healthy people are in mutual concordance with maximum figures during the daily and early evening hours. In the healthy the acrophase of T wave is seen during the day, in patient with ischaemic heart disease at night and early in the morning. This points to disorders of the bioelectric processes in the myocardium due to its nutritional changes over the 24 hours.     

Cell adhesion molecules in vasculitis

Daytime sleepiness is a common complaint in blind subjects. Abnormally timed melatonin has been invoked as a possible cause of both daytime sleepiness and nighttime awakening. In free-running blind individuals, there is an opportunity to assess the relationship between endogenous melatonin rhythms and subjective sleepiness and naps. The aim of this study was to characterize melatonin rhythms and simultaneously to evaluate subjective napping. A total of 15 subjects with no conscious light perception (NPL) were studied for 1 month. Prior to the study, sleep disorders were assessed using the Pittsburgh Sleep Quality Index. Cosinor and regression analysis revealed that 9 of the 15 NPL subjects had free-running 6-sulphatoxymelatonin (aMT6s) rhythms (period [tau] range = 24.34 to 24.79 h), 3 were entrained with an abnormal phase, and 3 were normally entrained. Most of the subjects (13 of 15) had daytime naps; the 2 individuals who did not made conscious efforts not to do so. Subjects with abnormal aMT6s rhythms had more naps of a longer duration than did those with normal rhythms. Free-running nap rhythms occurred only in subjects with free-running aMT6s rhythms. The 2 abnormally entrained subjects who napped did so at times that coincided with high levels of aMT6s (mean aMT6s acrophase [phi] +/- SD = 14.30 +/- 1.08 h, 20.30 +/- 0.62 h; mean nap time +/- SD = 14.01 +/- 3.60 h, 18.23 +/- 3.20 h, respectively). Regardless of aMT6s rhythm abnormality, significantly more naps occurred with a 4-h period before and after the estimated aMT6s acrophase. In 4 free-running subjects, aMT6s acrophase (phi) passed through an entire 24-h period. When aMT6s was in a normal phase position (24:00 to 06:00 h), night-sleep duration tended to increase with a significant reduction in the number and duration of naps. Sleep onset and offset times tended to advance and delay as the aMT6s rhythms advanced and delayed. Our results show a striking relationship between the timing of daytime production of melatonin and the timing of daytime naps. This suggests that abnormally timed endogenous melatonin may induce sleepiness in blind subjects.     

Twenty-four-hour concentration profiles of gonadotropin and estradiol (E2) in prepubertal and early pubertal girls: the diurnal rise of E2 is opposite the nocturnal rise of gonadotropin

To investigate the detailed pattern of circulating gonadotropin and estradiol (E2) concentrations around the onset of puberty, plasma gonadotropin and E2 were measured at 20-min intervals for 24 h in seven prepubertal and six early pubertal normal short girls. The hormone concentrations obtained were analyzed by Cluster pulse detection algorithm, cosinor analysis, and cross-correlation analysis. All subjects showed spontaneous LH and FSH pulses, and six early pubertal girls showed spontaneous E2 pulses. Cosinor analysis revealed 24-h LH rhythms in all subjects except two early pubertal girls and 24-h FSH rhythms in all subjects except one early pubertal girl. The acrophases (clocktime for maximal value) in the 24-h rhythm of LH and FSH were both found in the late hours of sleep. All subjects except three prepubertal girls showed significant 24-h E2 rhythms. In contrast to the 24-h LH and FSH rhythms, the acrophase of the 24-h E2 rhythm was found in the daytime waking period. Cross-correlation analysis demonstrated significant positive cross-correlations between LH and E2 that were maximum at an E2 lag of 5.7-9.3 h in three of the six early pubertal girls. In conclusion, the E2 concentration profiles in girls around the onset of puberty show marked 24-h rhythm, with acrophase during the daytime waking period. There exists a 5.7- to 9.3-h time lag between LH and E2 time series, and this long time lag might correspond to the time required for aromatization for E2 synthesis.     

Non-24-hour sleep-wake syndrome in a sighted man: circadian rhythm studies and efficacy of melatonin treatment

The case of a 41-year-old sighted man with non-24-hour sleep-wake syndrome is presented. A 7-week baseline assessment confirmed that the patient expressed endogenous melatonin and sleep-wake rhythms with a period of 25.1 hours. We sought to investigate the underlying pathology and to entrain the patient to a normal sleep-wake schedule. No deficiency in melatonin synthesis was found. Furthermore, normal coupling between the melatonin and sleep propensity rhythms was documented using an "ultrashort" sleep-wake protocol. Environmental light exposure was monitored for 41 days, and the circadian timing was calculated. Sensitivity to photic input was determined with light-induced melatonin-suppression tests. Three intensities (500, 1,000, and 2,500 lux) were examined during three separate trials. The 2,500-lux trial resulted in 78% suppression, but the lesser intensity exposures were without substantial effect. Thus, the patient appeared to be subsensitive to bright light. A 4-week trial of daily melatonin administration (0.5 mg at 2100 hours) stabilized the endogenous melatonin and sleep rhythms to a period of 24.1 hours, albeit at a somewhat delayed phase. A 14-month follow-up interview revealed that the patient continued to take melatonin daily, and his sleep-wake schedule was stable to a near 24-hour schedule.     

Food and the circadian activity of the hypothalamic-pituitary-adrenal axis

Temporal organization is an important feature of biological systems and its main function is to facilitate adaptation of the organism to the environment. The daily variation of biological variables arises from an internal time-keeping system. The major action of the environment is to synchronize the internal clock to a period of exactly 24 h. The light-dark cycle, food ingestion, barometric pressure, acoustic stimuli, scents and social cues have been mentioned as synchronizers or "zeitgebers". The circadian rhythmicity of plasma corticosteroids has been well characterized in man and in rats and evidence has been accumulated showing daily rhythmicity at every level of the hypothalamic-pituitary-adrenal (HPA) axis. Studies of restricted feeding in rats are of considerable importance because they reveal feeding as a major synchronizer of rhythms in HPA axis activity. The daily variation of the HPA axis stress response appears to be closely related to food intake as well as to basal activity. In humans, the association of feeding and HPA axis activity has been studied under physiological and pathological conditions such as anorexia nervosa, bulimia, malnutrition, obesity, diabetes mellitus and Cushing's syndrome. Complex neuroanatomical pathways and neurochemical circuitry are involved in feeding-associated HPA axis modulation. In the present review we focus on the interaction among HPA axis rhythmicity, food ingestion, and different nutritional and endocrine states.     

Diurnal mood variation in major depressive disorder.

Depression disturbs mood, but a clear picture of diurnal mood rhythms in depression has yet to emerge. This study examined variations in positive affect (PA) and negative affect (NA), two dimensions of mood that generate diurnal patterns among healthy individuals. Repeated measurements of NA and PA in daily life were obtained over 6 days from 47 depressed outpatients and 39 healthy individuals using the Experience Sampling Method. Relative to healthy individuals, depressed individuals exhibited increasing PA levels during the day with a later acrophase. In contrast, depressed persons' NA exhibited a more pronounced diurnal rhythm and was more variable from moment to moment than healthy individuals'. Ambulatory mood measurements in depression suggest distinct diurnal disturbances of positive and negative affect. (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Phase control of ultradian feeding rhythms in the common vole (Microtus arvalis): the roles of light and the circadian system

In their ultradian (2- to 3-hr) feeding rhythm, common voles show intraindividual synchrony from day to day, as well as interindividual synchrony between members of the population, even at remote distances. This study addresses the question of how resetting of the ultradian rhythm, a prerequisite for such synchronization, is achieved. Common voles were subjected to short light-dark cycles (1 hr darkness with light varying between 0.7 and 2.5 hr); to T cycles (long light-dark cycles in the circadian range--16 hr darkness and 3-13 hr light); to light pulses (15 min) during different circadian and ultradian phases; and to addition of D2O to the drinking water (25%). Short light-dark cycles and D2O were also applied to voles without circadian rhythmicity, after lesions of the suprachiasmatic nuclei. In these experiments, four hypotheses on synchronization of ultradian rhythmicity were tested: (I) synchronization by a direct response to light; (II) synchronization via the circadian system with multiple triggers, here called "cogs," each controlling a single ultradian feeding bout; and (III and IV) synchronization via the circadian system with a single "cog," which resets an ultradian oscillator and either (III) originates directly from the circadian pacemaker, or (IV) is mediated via the overt circadian activity rhythm. Short light-dark cycles failed to entrain ultradian rhythms, either in circadian-rhythmic or in non-circadian-rhythmic voles; light pulses did not cause phase shifts; and in extreme T cycles no stable phase relationship with light could be demonstrated. Thus, Hypothesis I was rejected. Changes in the circadian period (tau) were generated as aftereffects of light pulses, by entrainment in various T cycles, and by the addition of D2O to the drinking water. These changes in tau did not lead to parallel, let alone proportional, changes in the ultradian period. This excluded Hypothesis II. Both in T-cycle experiments and in the D2O experiments with circadian-rhythmic voles, the phase of ultradian feeding bouts was locked to the end of circadian activity rather than to the most prominent marker of the pacemaker, the onset of circadian activity. This was not expected under Hypothesis III, but was consistent with entrainment via activity (Hypothesis IV). On the basis of these experiments, we conclude that the most likely mechanism of ultradian entrainment is that of a light-insensitive ultradian oscillator, reset every dawn by the termination of the activity phase controlled by the circadian pacemaker, which is itself entrained by the light-dark cycle. Neither in circadian-rhythmic nor in non-circadian-rhythmic voles was the period of the feeding rhythm lengthened by administration of D2O. This insensitivity to deuterium is exceptional among biological rhythms.     

Effects of tobacco smoke exposure on the kinetics of bupivacaine in mice

The aim of this work was to determine the effects of different time of tobacco smoke exposure on pharmacokinetics of bupivacaine in mice. Mice were exposed to tobacco smoke during 4 days (group T4) or 8 days (group T8) using the Hamburg II smoking machine. Controls were exposed under the same experimental conditions but without tobacco smoke. Serum pharmacokinetic parameters, protein or erythrocyte binding of bupivacaine were measured on the 4th and 8th day of exposure. Furthermore the urines were kept during 24 hours and urine metabolite percentages were determined. After the short exposure (4 days), no differences between treated and control groups were reported in contrary to the longer exposure (8 days), where data showed a significantly increased metabolism and elimination of bupivacaine in the treated group compared to the controls. Our data indicate that tobacco smoke acts at different levels i.e. metabolism, elimination and binding of bupivacaine. Tobacco smoke exposure increases the metabolism of bupivacaine by activating the hydroxylation route and by inducing an important elimination of 3OH-bupivacaine. Besides, it increases the permeability of the cell membranes and facilitates the penetration of bupivacaine and desbutylbupivacaine in erythrocytes.     

A double-blind placebo-controlled trial evaluating the safety and efficacy of acarbose for the treatment of patients with insulin-requiring type II diabetes

OBJECTIVE: To determine whether a forced titration of acarbose (from 50 to 300 mg three times daily) administered over a 24-week period, in conjunction with diet and insulin therapy, improves glycemic control and reduces daily insulin requirements in insulin-requiring type II diabetes. RESEARCH DESIGN AND METHODS: This multicenter, randomized, double-blind, placebo-controlled trial was 36 weeks in duration. The trial consisted of a 6-week pretreatment period, a 24-week double-blind treatment period, and a 6-week post-treatment follow-up period. The primary efficacy variables were the mean change from baseline in HbA1c levels and the mean percentage change from baseline in total daily insulin dose. RESULTS: Treatment with acarbose was associated with significant reductions in HbA1c levels of 0.40% (P = 0.0001) and in total daily insulin dose of 8.3% (P = 0.0015). There were also significant reductions in all plasma glucose variables measured, including a 0.9 mmol/l reduction in fasting glucose (P = 0.0440), a 2.6 mmol/l reduction in glucose Cmax (P = 0.0001) and a 270 mmol.min-1.l-1 reduction in glucose area under the curve (P = 0.0002). Although acarbose treatment was associated with a greater incidence of adverse events than was placebo treatment, primarily flatulence and diarrhea, these events did not generally prevent patients from completing the study. CONCLUSIONS: The results of this study suggest that acarbose is a safe and effective adjunct to diet and insulin therapy for the management of insulin-requiring type II diabetes.     

Fear of contagion: a response to stress?

Alterations of neutrophil functions by tobacco products may play a central role in the pathogenesis of periodontal diseases and several smoking-related systemic diseases. In the present study, we examined the in vitro effects of cigarette smoke on neutrophils at times and concentrations that may be encountered during smoke exposure. We measured the level of smoke exposure in the in vitro system by measuring the levels of nicotine and comparing these to levels in the oral cavity in smokers before and after smoking. We examined both the unstimulated and stimulated release of 2 oxidative burst products: superoxide (O-2) and hydrogen peroxide (H2O2). Salivary washings were collected from 7 smokers (> 1 pack/day) before smoking a cigarette. Immediately after they smoked a cigarette, a second set of washings was collected. In vitro exposure to smoke involved incubating aliquots of neutrophils in phosphate-buffered saline for 1 to 5 minutes. Nicotine and cotinine levels were quantitated using gas chromatography, with detection by electron impact mass spectrometry. Peripheral neutrophils were isolated from medically healthy non-smoking volunteers via a double-density gradient technique and incubated in vitro with whole cigarette smoke for 0 to 5 minutes. Phorbol myristate acetate (PMA; 10(-7) M) was used to stimulate half of the cell aliquots. Superoxide generation was assessed through the superoxide dismutase (SOD) inhibitable reduction of ferricytochrome c. H2O2 production was assessed through the H2O2-dependent breakdown of dichlorofluorescin diacetate to its fluorophore and measured by flow cytometry. There was a marked elevation in salivary nicotine concentration from before smoking (mean: 80.8 ng) to after smoking (mean 1,685 ng/mL). In the in vitro smoke box system, there was a time-related elevation in nicotine from 1 to 5 minutes (50-->136 ng/mL). In PMA-stimulated cells exposed to smoke, there was a time-related inhibition of both superoxide and H2O2 production. However, in unstimulated cells exposed to smoke, there was a time-related increase in the release of superoxide and H2O2. A novel finding in unstimulated cells exposed to smoke was that there appeared to be 2 distinct populations of cells--one of "high" H2O2 producers and one of "low" H2O2 producers. The proportion of high H2O2 producers increased relative to smoke exposure. The relative production of H2O2 in the unstimulated high producers was comparable to PMA-stimulated cells at 5 minutes. This release of superoxide and H2O2 in unstimulated cells exposed to smoke may alter the pathogenic processes both in periodontal diseases and other systemic diseases.     

The carcinogenic potential of the gas phase of environmental tobacco smoke

Female strain A/J mice were exposed to unfiltered or HEPA-filtered environmental tobacco smoke (ETS). Total suspended particulates (TSP) in the full smoke exposure chamber was 78.5 mg/m3 and in the filtered smoke chamber 0.1 mg/m3; nicotine concentrations in the full and filtered smoke chamber were 13.4 and 3.1 mg/m3, respectively. Animals exposed to filtered ETS (6 h a day, 5 days a week) and killed after 5 months had a higher lung tumor incidence and multiplicity than controls maintained in filtered air, although the differences were not statistically significant. Animals exposed to filtered and full ETS and allowed to recover in air for 4 months had an average of 1.2 +/- 0.3 tumors per lung and 1.3 +/- 0.3 tumors per lung, respectively. Air exposed control animals had an average tumor multiplicity 0.5 +/- 0.1 tumors per lung. Increased immunostaining for CYP 1A1 was not evident in the lung of animals exposed to filtered smoke. Based on the chamber concentrations of selected nitrosamines and polycyclic aromatic hydrocarbons, the possible maximum uptakes by the mice of NNK, NNN and benzo[a]pyrene during the 5 months exposure period were three to six orders of magnitude below doses reported in the literature to produce 1 lung tumor in strain A/J mice. It was concluded that the gas phase of ETS is as carcinogenic as is full ETS. The carcinogenicity of the gas phase may be due to some as yet unidentified, yet highly potent carcinogens or by placing a substantial, possibly free radical-mediated oxidative stress on the lung.     

The role of melatonin in the human fetus (review)

Melatonin, an indole amine, primarily derived from the pineal gland is secreted during the hours of darkness. Melatonin acts as a hormonal transduction of photoperiod influencing the timing of seasonal and daily (circadian) physiological rhythms. Maternal melatonin crosses the placenta and enters the fetal circulation providing photoperiodic information to the fetus influencing the subsequent circadian and seasonal rhythms of the offspring. The function of melatonin in humans is more obscure. However, melatonin has attained prominence as a treatment for disturbed circadian rhythms and sleep patterns which occur as a result of transmeridian travel, shift work or blindness. The biological clock, the hypothalamic suprachiasmatic nuclei (SCN), possesses melatonin receptors, in both the adult and fetal human. This concurs with the reported influence of melatonin on human circadian rhythmicity and indicates that this influence may begin in utero. Melatonin receptors are widespread in the human fetus and occur in both central and peripheral tissue from early in fetal development. Thus, the influence of melatonin on the developing human fetus may not be limited to entraining circadian rhythmicity. Considering the transplacental availability of melatonin to the fetus the ingestion of melatonin by pregnant women may be inadvisable.     

Long-term registration of cutaneous microcirculation during general anesthesia

The temporal dynamics of the systemic arterial pressure can be monitored noninvasively from the skin of the earlobe or forehead by photoplethysmography under the provision that the active control of the microcirculatory perfusion is eliminated. Using this approach, we have been able to detect a highly stable blood pressure rhythm in the range of 0.15 Hz during psychophysical relaxation or sleep. The aim of the present study was to investigate the occurrence and behavior of blood pressure rhythms below 0.2 Hz during general anesthesia. In 30 patients (ASA groups I-II) undergoing basic surgical procedures, photoplethysmographic recordings from the earlobe were made during the whole time of anesthesia. The recorded signals were divided into segments of 200 s of duration, the temporal structure of which was analyzed by fast Fourier transform. Different characteristic patterns of rhythmical behavior were detected: (1) absence of activity below 0.2 Hz ('low-frequency range'); (2) slow sinusoidal rhythmicity below 0.05 Hz; (3) 'chaotic' behavior, i.e. multiple incoherent fluctuations without stationary periods or amplitudes; (4) short-term rhythmical activity at about 0.15 Hz, and (5) long-term rhythmical activity at about 0.15 Hz. In patients sufficiently sedated to eliminate low-frequency activity, rhythmicity could sometimes be triggered by certain surgical stimuli, the response to which was suppressed by injection of opioids. The data presented strongly suggest that rhythmical perfusion patterns of the cutaneous microcirculation could serve as an indicator for the depth of anesthesia.     

Circadian patterns of locomotor activity and body temperature in blind mole-rats, Spalax ehrenbergi

A wide variety of organisms exhibit circadian rhythms, regulated by internal clocks that are entrained primarily by the alternating cycle of light and darkness. There have been few studies of circadian rhythms in fossorial species that inhabit a microenvironment where day-night variations in most environmental parameters are minimized and where exposure to light occurs only infrequently. In this study, daily patterns of locomotor activity and body temperature (Tb) were examined in adult blind mole-rats (Spalax ehrenbergi). These fossorial rodents lack external eyes but possess rudimentary ocular structures that are embedded in the Harderian glands and covered by skin and fur. Most individual mole-rats exhibited circadian rhythms of locomotor activity, but some animals were arrhythmic. Individuals that did exhibit robust rhythms of locomotor activity also showed rhythms of Tb. In most cases, Tb was highest during the phase of intense locomotor activity. Locomotor activity rhythms could be entrained to light:dark cycles, and several mole-rats exhibited entrainment to non-24-h light cycles (T-cycles) with period lengths ranging from T = 23 h to T = 25 h. Some individuals also showed entrainment to daily cycles of ambient temperature. There was considerable interindividual variation in the daily patterns of locomotor activity among mole-rats in virtually all the conditions of environmental lighting and temperature employed in this study. Thus, whereas it appears likely that photic cues have a significant role in the entrainment of circadian rhythms in mole-rats, the amount of variability in rhythm patterns among individuals appears to be much greater than for most species that have been studied.     

The effect of dietary fiber supplementation in man. I. Modification of eating habits

Six subjects were studied for an 8-week period that consisted of a 3-week control period, followed by a 3-week period during which their daily diets were supplemented with 3 oz of a high fiber breakfast food, All-bran, and a final 2 weeks on their regular diet. Daily diet records of food intake were recorded and analyzed for seven dietary constituents; carbohydrates, proteins, fats, cholesterol, fiber, alcohol, and total calories. The most significant change in eating behavior due to the fiber food supplementation was a decrease in eating eggs, butter, and breakfast meats. These foods were most often replaced because all six subjects chose to eat the major portion of All-bran during breakfast. An increase in milk and fruit also occurred during the supplemented feeding. These particular foods were added to make All-bran more palatable and served to increase carbohydrate and protein intake. Five subjects added the supplement to the between meal-time intake and thus caused an increase in total daily caloric intake. At lunch and dinner few foods were altered with no particular pattern of substitution. Notwithstanding the knowledge that increased fiber content may have beneficial effects, none of the subjects modified his eating behavior to include even 1 oz of a high fiber food daily after the experimental period was concluded. Thus behavior modification by forced diet intake of a high fiber breakfast food resulted in definite diet pattern changes that did not persist following the experimental period.     

Generation and entrainment of circadian rhythms

1. The present brief review examines some of the new developments in the area of circadian rhythm research. 2. The discovery of the mouse clock and m-per genes and their similarity to other clock genes like per and tim has provided new insight into the control of rhythms in vertebrates. In mice, these genes are expressed in the site of the biological clock, the suprachiasmatic nucleus (SCN), and so will now become a focus of research into the generation of rhythmicity. 3. Because SCN cells expressing endogenous rhythms have a periodicity different from 24 h, there must be mechanisms in place to reset the rhythms on a daily basis. This is achieved in mammals by retinal light perception and neural transmission through several discrete pathways to the SCN. 4. The nature of the neurotransmitters involved in this transfer of environmental information to the timing system is controversial and may even very between similar species but, in the rat, there is compelling evidence that a serotonergic pathway is pre-eminent in mediating the effects of light. How the re-setting is achieved at the cellular level is not known.