EFFECTS OF PHASIC AND TONIC LIGHT INPUTS ON THE ORCADIAN ORGANIZATION OF THE SQUIRREL MONKEY

Abstract— The organization of the circadian timing system in Saimiri sciureus was probed using the phasic (abrupt transition) and tonic (continuous action) effects of light intensity. The behavior of the simultaneously monitored circadian rhythms of feeding behavior, colonic temperature, and urinary potassium excretion was studied in response to the phasic effects of (a) an abrupt 8-h phase delay in the light–dark (LD) cycle and (b) a series of non-24 h LD cycles ( T = 18 to 30 h). These studies demonstrated that the feeding and temperature rhythms were more tightly coupled to the light-dark cycle than was the rhythm of urinary potassium excretion. The tonic effects of constant levels of illumination confirmed this conclusion. In constant light, internal desynchronization spontaneously occurred in 25% of animals with the potassium rhythm exhibiting a period quite different from that of the feeding and colonic temperature rhythms. Thus, the response of the internal circadian timekeeping system to phasic and tonic light inputs shows that the system in this species comprises at least two potentially independent oscillators with differential light sensitivities.     

The effect of photoperiod and light irradiance on the antioxidant circadian system of two species of crayfish from different latitudes: Procambarus clarkii and P. digueti

This work was carried out to study the antioxidant circadian system of two species of crayfish of different latitude origin. We investigated (1) whether both species possess glutathione circadian rhythms and (2) whether both species' rhythms differ in their ability to synchronize to 24 h cycles. Two batches of Procambarus clarkii and P. digueti were kept in (1) light-dark (LD) 12:12 low irradiance (LI) cycles and then exposed to (2) 72 h of complete darkness, (3) LD 12:12 high irradiance (HI), (4) LD 20:4 LI and (5) LD 20:4 HI for 2 weeks. The midgut and hemolymph were sampled and reduced and oxidized glutathione as well as glutathione reductase and glutathione peroxidase were assayed. Cosinor and analysis of variance revealed differences between both species. Procambarus clarkii robust antioxidant circadian rhythms are able to entrain to all conditions resetting to lights on or off. However, the P. digueti weak circadian glutathione system did not entrain to the LD cycles, showing a random distribution of phases. In this species, LD 12:12 and 20:4 HI evidenced significant daily rhythms indicating a damped circadian antioxidative system that is enhanced by the effect of light. This suggests that each species' photoperiodic history determines the adaptive abilities of the circadian antioxidative mechanisms.     

Circadian gating of photoinduction of commitment to cell-cycle transitions in relation to photoperiodic control of cell reproduction in Euglena

A novel type of circadian and photoperiodic control of the cell division cycle was found in photoautotrophic Euglena gracilis. When algae entrained to 24 h light-dark (LD) cycles (14 h L) were transferred to continuous darkness (DD) at the eighth hour of the final LD photoperiod, cell-cycle transition was arrested in phase G1, S or G2. The subsequent exposure of these dark-arrested cells to a 6 h light-break allowed the dark-arrested cells to undergo cell-cycle progression in DD, in a manner dependent on the circadian phase; maximum photoinduction occurred around dusk. Inhibitor experiments suggested that the photoinduced commitment of G2 cells to cell division required light for a signal originating in noncyclic photosynthetic electron transport (PET), particularly cytochrome b6-f but not for the metabolic energy required by the process. The fact that the circadian rhythm of photoinduction ran out-of-phase from that of noncyclic PET signaling suggests that the site of regulation by the former rhythm is downstream of noncyclic PET. The occurrence of maximum photoinduction around dusk suggests that the 'external coincidence' model of photoperiodic induction describes the activation of the photoinductive phase. Further evidence supporting this hypothesis is the relationship between cell reproduction and day length; the resulting sigmoidal curve indicates a combined effect of photosynthesizing period and circadian stimulation around dusk. Circadian control is shown to be an integral part of the mechanism for 24 h LD cycle-induced synchronous cell division.     

Light effects in yeast: persisting oscillations in cell division activity and amino acid transport in cultures of Saccharomyces cerevisiae entrained by light-dark cycles.

Abstract— In addition to the direct inhibitory effects of visible light (cool-white fluorescent, < 3500 lux) on growth and amino acid transport previously reported for cultures of the yeast Saccharomyces cereui-siae (strain Y185 rho⁺) grown at 12°C in medium containing glucose, yeast carbon base, KH₂PO₄, ammonium ion and proline, we have found evidence for endogenous, light-entrainable, self-sustaining circadian and ultradian oscillators underlying both cell division and transport activity. Diurnal light (? 3000 lux) cycles (LD), imposed on cultures previously grown in the dark, phased or synchronized cell number increase to a 24-h period with bud release being confined primarily to the dark intervals (although not necessarily every cell divided during any given division ‘burst’). The observed division or budding rhythm freeran with a circadian period (?26h) only approximating 24 h for a number of days in constant darkness (DD) following prior entrainment by LD, thereby implicating an endogenous circadian clock. Further, a similar light-entrainable circadian rhythm in the uptake of “C-histidine or ¹4C-lysine occurred in nondividing (or very slowly dividing) cultures during the “stationary” (infradian) phase of growth synchronized by a 24-h LD cycle and then released into DD for as long as 10 days. Some experiments revealed a bimodal (ultradian) periodicity in both LD and DD with secondary peaks or shoulders occurring at intervals of ?12h, corresponding approximately to subjective ‘dawn’ and ‘dusk’. Transport in cultures of the Y185 rho^- petite mutant, which lacks cytochromes a/a₃, b and c_l, could not be synchronized by LD cycles, a finding that is consistent with the hypothesis that these chromophores may be primary photoreceptors for synchronization of rhythms in this microorganism.     

Sleep,circadian rhythms,and the pathogenesis of Alzheimer Disease

Disturbances in the sleep–wake cycle and circadian rhythms are common symptoms of Alzheimer Disease (AD), and they have generally been considered as late consequences of the neurodegenerative processes. Recent evidence demonstrates that sleep–wake and circadian disruption often occur early in the course of the disease and may even precede the development of cognitive symptoms. Furthermore, the sleep–wake cycle appears to regulate levels of the pathogenic amyloid-beta peptide in the brain, and manipulating sleep can influence AD-related pathology in mouse models via multiple mechanisms. Finally, the circadian clock system, which controls the sleep–wake cycle and other diurnal oscillations in mice and humans, may also have a role in the neurodegenerative process. In this review, we examine the current literature related to the mechanisms by which sleep and circadian rhythms might impact AD pathogenesis, and we discuss potential therapeutic strategies targeting these systems for the prevention of AD.     

Circadian rhythms of resistance to UV-C and UV-B radiation in Euglena as related to "escape from light" and "resistance to light"

Radiation-induced stress, either from visible or UV light, is strongest at midday. We found that, in the absence of stress or time cues, Euglena gracilis Z was the most resistant to UV-C and UV-B at subjective midday, whether judged from immediate or reproductive survival. The circadian UV-resistance rhythms were free-running in stationary cultures under 1-h light/1-h dark cycles or continuous darkness, indicating that cell-cycle dependent DNA susceptibility to UV was not involved. We moreover examined what was the primary cause of the circadian UV resistance, estimated as the immediate cell survival. The half-maximal lethal dose (LD(50)) of UV-C at subjective midday (the most resistant phase) was 156 J/m(2), which is approximately 3-fold that at subjective midnight. The same was true for UV-B, except the LD(50) was approximately 13-fold that of UV-C. Temperature during UV irradiation had little effect, indicating that survival was not mediated via enzymatic reactions. Non-enzymatic antioxidants were added 5 min before UV irradiation. Dimethylsulfoxide (a hydroxyl radical scavenger) increased survival after UV-B, but had little effect after UV-C; conversely, sodium ascorbate increased survival after UV-C, but not after UV-B. These findings suggest that circadian rhythms of resistance to UVs involve a common mechanism for maximizing non-enzymatic antioxidative capacity at subjective midday, but the specific antioxidants differ.     

Crayfish Procambarus clarkii retina and nervous system exhibit antioxidant circadian rhythms coupled with metabolic and luminous daily cycles

Based on previous work in which we proposed midgut as a putative peripheral oscillator responsible for circadian reduced glutathione (GSH) crayfish status, herein we investigated the retina and optic lobe-brain (OL-B) circadian GSH system and its ability to deal with reactive oxygen species (ROS) produced as a consequence of metabolic rhythms and light variations. We characterized daily and antioxidant circadian variations of the different parameters of the glutathione system, including GSH, oxidized glutathione (GSSG), glutathione reductase (GR) and glutathione peroxidase (GPx), as well as metabolic and lipoperoxidative circadian oscillations in retina and OL-B, determining internal and external GSH-system synchrony. The results demonstrate statistically significant bi- and unimodal daily and circadian rhythms in all GSH-cycle parameters, substrates and enzymes in OL-B and retina, as well as an apparent direct effect of light on these rhythms, especially in the retina. The luminous condition appears to stimulate the GSH system to antagonize ROS and lipid peroxidation (LPO) daily and circadian rhythms occurring in both structures, oscillating with higher LPO under dark conditions. We suggest that the difference in the effect of light on GSH rhythmic mechanisms of both structures for antagonizing ROS could be due to differences in glutathione-system coupling strength with the circadian clock.     

Light Treatment Improves Sleep Quality and Negative Affectiveness in High Arctic Residents During Winter

The seasonal extremes of photoperiod in the high Arctic place particular strain on the human circadian system, which leads to trouble sleeping and increased feelings of negative affect in the winter months. To qualify for our study, potential participants had to have been at Canadian Forces Station (CFS) Alert (82° 30′ 00″ N) for at least 2 weeks. Subjects filled out questionnaires regarding sleep difficulty, psychological well‐being and mood and wore Actigraphs to obtain objective sleep data. Saliva was collected at regular intervals on two occasions, 2 weeks apart, to measure melatonin and assess melatonin onset. Individuals with a melatonin rhythm that was in disaccord with their sleep schedule were given individualized daily light treatment interventions based on their pretreatment salivary melatonin profile. The light treatment prescribed to seven of the twelve subjects was effective in improving sleep quality both subjectively, based on questionnaire results, and objectively, based on the actigraphic data. The treatment also caused a significant reduction in negative affect among the participants. Since the treatment is noninvasive and has minimal associated side effects, our results support the use of the light visors at CFS Alert and other northern outposts during the winter for individuals who are experiencing sleep difficulty or low mood.     

On the Interactions of Melatonin/β-Cyclodextrin Inclusion Complex: A Novel Approach Combining Efficient Semiempirical Extended Tight-Binding (xTB) Results with Ab Initio Methods

Melatonin (MT) is a molecule of paramount importance in all living organisms, due to its presence in many biological activities, such as circadian (sleep–wake cycle) and seasonal rhythms (reproduction, fattening, molting, etc.). Unfortunately, it suffers from poor solubility and, to be used as a drug, an appropriate transport vehicle has to be developed, in order to optimize its release in the human tissues. As a possible drug-delivery system, β-cyclodextrin (βCD) represents a promising scaffold which can encapsulate the melatonin, releasing when needed. In this work, we present a computational study supported by experimental IR spectra on inclusion MT/βCD complexes. The aim is to provide a robust, accurate and, at the same time, low-cost methodology to investigate these inclusion complexes both with static and dynamic simulations, in order to study the main actors that drive the interactions of melatonin with β-cyclodextrin and, therefore, to understand its release mechanism.     

PHOTORECEPTIONS IN THE ECLOSION OF THE SILKWORM, Bombyx mort

When silkworms, Bombyx mori , were kept in a photoperiodic regime of LD 8:16 during pupal development, the moths showed overt bimodal eclosion rhythms with one peak in the dark period, and with the other peak at light-on. When the developing pupae were transferred from the photoperiodic cycle to continuous darkness, the eclosion of the dark period persisted with a free-running circadian rhythm, while the eclosion corresponding to the light-on peak was not shown. Vitamin A-deficiency. which brought about a loss of photoreceptive function in compound eyes, significantly reduced the light-on peak, but did not influence the timing of eclosion in the dark period. Covering compound eyes with black wax also reduced the light-on peak. These results show that the eclosion clock of the silkworm is most likely entrained by an extraretinal photoreceptor, but the eclosion at light-on is evoked by an exogenous light effect that is mediated via compound eyes     

Regulation of the Cyanobacterial Circadian Clock by Electrochemically Controlled Extracellular Electron Transfer

There is growing awareness that circadian clocks are closely related to the intracellular redox state across a range of species. As the redox state is determined by the exchange of the redox species, electrochemically controlled extracellular electron transfer (EC‐EET), a process in which intracellular electrons are exchanged with extracellular electrodes, is a promising approach for the external regulation of circadian clocks. Herein, we discuss whether the circadian clock can be regulated by EC‐EET using the cyanobacterium Synechococcus elongatus PCC7942 as a model system. In vivo monitoring of chlorophyll fluorescence revealed that the redox state of the plastoquionone pool could be controlled with EC‐EET by simply changing the electrode potential. As a result, the endogenous circadian clock of S. elongatus cells was successfully entrained through periodically modulated EC‐EET by emulating the natural light/dark cycle, even under constant illumination conditions. This is the first example of regulating the biological clock by electrochemistry.     

Home Lighting Before Usual Bedtime Impacts Circadian Timing: A Field Study

Laboratory studies suggest that evening light before bedtime can suppress melatonin. Here, we measured the range of evening light intensity people can generate with their household lights, and for the first time determined if varying home light before usual bedtime can shift circadian phase. This was a 3‐week study with two counterbalanced conditions separated by a 5‐day break. In a dim week, eight healthy subjects minimized their home light exposure from 4 h before habitual bedtime until a self‐selected bedtime. In a bright week, the subjects maximized their home lighting for the same time. The dim light melatonin onset (DLMO) was assessed after each week. On average subjects maximized their lights to approximately 65 lux and minimized their lights to approximately 3 lux. Wrist actigraphy indicated that subjects went to bed slightly later when lights were maximized (average 14 min later, P = 0.05), but wake time did not change. Every subject had a later DLMO after the week of maximum versus minimum light exposure (average 1:03 h later, P < 0.001). These results demonstrate that the light intensity people can generate at home in the few hours before habitual bedtime can alter circadian timing. People should reduce their evening light exposure to lessen circadian misalignment.     

Versatile application of indirect Fourier transformation to structure factor analysis: from X-ray diffraction of molecular liquids to small angle scattering of protein solutions

We highlight versatile applicability of a structure-factor indirect Fourier transformation (IFT) technique, hereafter called SQ-IFT. The original IFT aims at the pair distance distribution function, p(r), of colloidal particles from small angle scattering of X-rays (SAXS) and neutrons (SANS), allowing the conversion of the experimental form factor, P(q), into a more intuitive real-space spatial autocorrelation function. Instead, SQ-IFT is an interaction potential model-free approach to the 'effective' or 'experimental' structure factor to yield the pair correlation functions (PCFs), g(r), of colloidal dispersions like globular protein solutions for small-angle scattering data as well as the radial distribution functions (RDFs) of molecular liquids in liquid diffraction (LD) experiments. We show that SQ-IFT yields accurate RDFs of liquid H(2)O and monohydric alcohol reflecting their local intermolecular structures, in which q-weighted structure function, qH(q), conventionally utilized in many LD studies out of necessity of performing direct Fourier transformation, is no longer required. We also show that SQ-IFT applied to theoretically calculated structure factors for uncharged and charged colloidal dispersions almost perfectly reproduces g(r) obtained as a solution of the Ornstein-Zernike (OZ) equation. We further demonstrate the relevance of SQ-IFT in its practical applications, using SANS effective structure factors of lysozyme solutions reported in recent literatures which revealed the equilibrium cluster formation due to coexisting long range electrostatic repulsion and short range attraction between the proteins. Finally, we present SAXS experiments on human serum albumin (HSA) at different ionic strength and protein concentration, in which we discuss the real space picture of spatial distributions of the proteins via the interaction potential model-free route.     

An adaptive breath sampler for use with human subjects with an impaired respiratory function

An adaptive sampler for collecting 2.5 dm(3) samples of exhaled air from human subjects with an impaired respiratory function is described. Pressure in the upper respiratory tract is continuously monitored and the data used to control an automated system to collect select portions of the expired breathing cycle onto a mixed bed Tenax(trade mark) and Carbotrap(trade mark) adsorbent trap for analysis by GC-MS. The sampling approach is intended for use in metabolomic profiling of volatiles in human breath at concentrations greater than microg m(-3). The importance of experimental reproducibility in metabolomic data is emphasised and consequently a high purity air supply is used to maintain a stable exogenous volatile organic compound profile at concentrations in the range 5 to 30 microg m(-3). The results of a 90 day stability study showed that exogenous VOCs were maintained at significantly lower levels (40 times lower for isopropyl alcohol) and with significantly higher reproducibility (80 times lower standard deviation for isopropyl alcohol) than would have been be the case if ambient air had been used. The sampling system was evaluated with healthy controls alongside subjects with chronic obstructive pulmonary disease. Subjects were able to breathe normally with control subjects observed to breathe at a rate of 9 to 17 breaths per minute, compared to 16 to 30 breaths per minute for subjects with COPD. This study presents, for the first time, observations and estimates of intra-subject breath sample reproducibility from human subjects. These reproducibility studies indicated that VOCs in exhaled breath exhibit a variety of dynamic behaviours, with some species recovered with a RSD <30%, while other species were observed to have significantly more variable concentrations, 30 to 130% RSD. The approach was also demonstrated to reliably differentiate the differences in the VOC profiles between alveolar and dead space air.     

CIRCADIAN RHYTHM OF LOCOMOTOR BEHAVIOR IN A POPULATION OF Paramecium multimicronucleatum: ITS CHARACTERISTICS AS DERIVED FROM CIRCADIAN CHANGES IN THE SWIMMING SPEEDS AND THE FREQUENCIES OF AVOIDING RESPONSE AMONG INDIVIDUAL CELLS

Abstract The locomotor behavior of Paramecium is determined by two components: swimming speed and the frequency of avoiding responses. The circadian oscillations of these two components were examined in order to interpret characteristics of the circadian locomotor rhythm, previously found in a Paramecium population using an originally defined parameter, "traverse frequency" (Hasegawa et al ., 1978, 1982). In our present study, a modified version of the previously developed, fully computerized, close-up video/photoamplifier system was used. Results indicate that individual specimens swam fast and unidirectionally during the day, while at night, in a light–dark cycle, they swam slowly and frequently turned. This oscillatory pattern was sustained in continuous darkness, where fluctuation in the frequency of avoiding responses was a dominant characteristic. The time structure of the "random walk" of Paramecium behavior was also examined by constructing and stochastically testing histograms of the interval times between specimens consecutively traversing beneath an observation point. Statistical analyses of observation data indicated that the circadian organization of the two components by individual specimens resulted in a circadian accumulation/dispersal rhythm of the entire population. It was concluded that the circadian "traverse frequency" rhythm principally represented this circadian accumulation/dispersal rhythm.     

EFFECT OF PHOTIC STIMULATION ON THE HUMAN MENSTRUAL CYCLE

To test the hypothesis that artificial light can be used to regularize the human menstrual cycle, 16 women with histories of menstrual irregularity and/or abnormally long cycles were studied. It was assumed that a 29-day cycle is the "normal" length. Thus, light exposure was begun on the evening of day 14, with the expectation that ovulation would be triggered by day 15 and menstruation on day 30. The light regimen was continued for 2-3 nights more. Temperature graphs indicated all subjects were ovulating. 41 control and 41 matching experimental cycle lengths were obtained. The experimental cycle lengths were less variable than the control lengths and showed a sharp peak at 29 days. In the 11 subjects exposed to light for more than 1 cycle, 9 showed a decrease in the range of cycle length (3.3% level of significance difference between control and experimental groups in terms of cycle length). It is concluded that these data provide evidence that photic stimulation can regularize menstrual cycle length and thus influence the time of ovulation, thereby facilitating use of the rhythm method of birth control. Further studies involving larger samples and more sophisticated measurements of ovulation in relation to photic stimulation are recommended.     

Update on the positive effects of light in humans

The adverse effects of sunlight, from melanoma to cataracts, are well known and frequently reported (1). However, because humans evolved under sunlight, it is not surprising that there are many positive effects of light on human health. Light that reaches the human eye has two fundamental biological functions: regulation of the visual cycle and of circadian rhythm. We report here the most recent developments in both of these areas.     

An LD50 model for predicting psychotropic drug toxicity using biopartitioning micellar chromatography

The LD50 determination is the main way to measure the acute toxicity of all types of substances. At the present time, however, there is increasing opposition to the use of living animals in research and testing activities from animal rights groups as well as some scientists. Nevertheless, the need to have a tool for estimating the potential toxicity of new compounds for human consumption has encouraged the development of alternative methods. Under adequate conditions, the partitioning in micellar liquid chromatography can describe the drug biopartitioning. We have named this chromatographic system biopartitioning micellar chromatography (BMC). In this paper, an LD50 QRAR model developed for psychotropic drugs from their retention data in BMC, is described. The model's ability to predict new psychotropic drug toxicity is statistically proved.     

Time-dependent expression and processing of a hypothetical protein of possible importance for regulation of the Chlamydia pneumoniae developmental cycle.

Chlamydia pneumoniae is an obligate intracellular human pathogen infecting epithelial cells of the upper respiratory tract. It is a Gram-negative bacteria and has a unique biphasic developmental cycle. In this study, we use two-dimensional gel electrophoresis in combination with radioactive labeling to investigate time-dependent expression and processing of C. pneumoniae proteins. We report on (i) the identification of a hypothetical protein which is expressed late in the developmental cycle and subsequently processed; we speculate that this protein may be of importance for the developmental cycle of Chlamydia; (ii) the identification of the major outer membrane protein in three different variants, which may all be present in vivo.