Your search keyword '"Ultradian rhythms"' showing total 660 results

101. TIME WITHIN: THE PERCEPTUAL RIVALRY SWITCH AS A NEURAL CLOCK.

Author

TILDEN, JAN D. and PETTIGREW, JOHN D.

Subjects

TIME perception, TIME -- Psychological aspects, HYPOTHESIS, DOPAMINERGIC mechanisms, BRAIN stem, ULTRADIAN rhythms

Published

2005

102. Wavelet analysis of circadian and ultradian behavioral rhythms

Author

Tanya L Leise

Subjects

Time series analysis, Fourier transform, Wavelet transform, Circadian rhythms, Ultradian rhythms, Rodent locomotor activity, Estrous cycle, Biology (General), QH301-705.5

Abstract

We review time-frequency methods that can be useful in quantifying circadian and ultradian patterns in behavioral records. These records typically exhibit details that may not be captured through commonly used measures such as activity onset and so may require alternative approaches. For instance, activity may involve multiple bouts that vary in duration and magnitude within a day, or may exhibit day-to-day changes in period and in ultradian activity patterns. The discrete Fourier transform and other types of periodograms can estimate the period of a circadian rhythm, but we show that they can fail to correctly assess ultradian periods. In addition, such methods cannot detect changes in the period over time. Time-frequency methods that can localize frequency estimates in time are more appropriate for analysis of ultradian periods and of fluctuations in the period. The continuous wavelet transform offers a method for determining instantaneous frequency with good resolution in both time and frequency, capable of detecting changes in circadian period over the course of several days and in ultradian period within a given day. The discrete wavelet transform decomposes a time series into components associated with distinct frequency bands, thereby facilitating the removal of noise and trend or the isolation of a particular frequency band of interest. To demonstrate the wavelet-based analysis, we apply the transforms to a numerically-generated example and also to a variety of hamster behavioral records. When used appropriately, wavelet transforms can reveal patterns that are not easily extracted using other methods of analysis in common use, but they must be applied and interpreted with care.

Published

2013

103. A Rhythm Estimator of Ship Noise.

Author

Chen Xixin, Jiang Guojian, Chang Daoqing, Lin Jianheng, and Li Xuejun

Subjects

ULTRADIAN rhythms, INTEGERS, ELECTRONIC modulation, LEAST squares, MATHEMATICAL statistics

Published

2002

104. Pollen tube vs CHUKNORRIS: the action is pulsatile.

Author

Gilroy, Simon

Subjects

*POLLEN tube, *REACTIVE oxygen species, *G proteins, *CELL growth, *HEURISTIC, *KYMOGRAPH

Abstract

The network of molecular components thought to regulate pollen tube growth presents an almost bewildering array of potential interactions. Damineli et al. (2017) have developed novel tools to help define the relationships between the kinetics of these proposed regulators and growth. They highlight both the insights and the challenges that extracting cause and effect from complex regulatory networks brings [ABSTRACT FROM AUTHOR]

Published

2017

105. RHYTHMS IN THE PROCESS OF DRAWING UP CRUSADING PROPOSALS IN THE PENINSULA.

Author

ISLA, AMANCIO

Subjects

ULTRADIAN rhythms, LEGITIMATION (Sociology), MUSLIMS, VISIGOTHS

Abstract

Copyright of Imago Temporis. Medium Aevum is the property of Consolidated Medieval Studies Research Group Space, Power & Culture and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

106. Influence of acoustic stimulation on the circadian and ultradian rhythm of premature infants.

Author

Dorn, Franziska, Wirth, Lara, Gorbey, Stefan, Wege, Mirjam, Zemlin, Michael, Maier, Rolf F., and Lemmer, Björn

Subjects

*ACOUSTIC stimulation, *PREMATURE infants, *CIRCADIAN rhythms, *ULTRADIAN rhythms, *STATISTICAL correlation, *HYDROCORTISONE, *SLEEP-wake cycle

Abstract

The aim of the present study was to evaluate the development of the circadian rhythm of the salivary cortisol in premature infants and its correlation with the onset of the sleep-activity behavior pattern during the first 3 weeks of life under controlled light:dark conditions. Furthermore, we investigated the influence of acoustic stimulation by audiotaped lullabies or the maternal voice on the cortisol values and long-term sleep-activity patterns. The study was a block-randomized, prospective clinical trial with a study population of 62 preterm neonates (30 < 37 gestational age). We compared two study groups who listened either to music or to the maternal voice (music: N = 20; maternal voice: N = 20) with a matched control group ( N = 22). The acoustic stimulation took place every evening between 20:00 and 21:00 h for 30 min over a period of 2 weeks. The cortisol values and activity-rest behavior of the neonates were determined during the first 3 weeks of life on the 1st, 7th and 14th day. Actigraphic monitoring was used to record the activity pattern continuously over 24 h and a validated algorithm for neonates was used to estimate sleep and wakefulness. The saliva samples were obtained 10 min before and 10 min after the acoustic interventions for the study groups. Additionally, saliva samples were obtained from the control group seven times over a 24-h period (20:00, 21:00, 01:00, 05:00, 08:00, 13:00 and 17:00 h). The cortisol data were analyzed by fast Fourier transformation to assess periodic characteristics and frequencies. Hierarchical linear modeling was further performed for the statistical analysis. Results: The cortisol rhythm analysis indicated a circadian rhythm pattern for only one premature infant, all others of the neonates showed no circadian or ultradian rhythm in cortisol. Cortisol level of the premature neonates was significantly higher during the first day of the study period at night-time (median: 17.1 nmol/L, IQR = 9.7-24.4 nmol/L) than on days 7 (median: 9.6 nmol/L, IQR = 4.7-14.6 nmol/L; Tukey-HSD, z = 4.12, p < 0.001) and 14 (IQR = 5.8-13.7 nmol/L; Tukey-HSD, z = 2.89, p < 0.05). No significant effect of acoustic stimulation was observed on the cortisol concentration and sleep-wake behavior. The activity-sleep rhythm of preterm neonates was dominated by ultradian rhythm patterns with a prominent period length of 4 h (30.5%). Activity frequencies of neonates were also significantly higher overnight on the first study day (mean: 329 ± 185.1 U) than of night seven (mean: 260.2 ± 132.4 U; Tukey-HSD, z = 2.50, p < 0.05). Quiet-activity patterns increased, whereas high-activity patterns decreased during the observation period. Average sleep time increased significantly during the study time from day 1 to day 7 (Tukey-HSD, z = 2.51, p < 0.05). In conclusion, premature infants showed higher cortisol levels - without a circadian rhythmicity - and higher activity frequencies in the first days after birth which may reflect an adaptation process of neonates after birth. Cortisol concentrations and the activity patterns were not influenced by music interventions. [ABSTRACT FROM AUTHOR]

Published

2014

107. Ultradian oscillations and pulses: coordinating cellular responses and cell fate decisions.

Author

Akihiro Isomura and Ryoichiro Kageyama

Subjects

*ULTRADIAN rhythms, *HOMEOSTASIS, *CIRCADIAN rhythms, *ARCTIC oscillation, *EMBRYOS

Abstract

Biological clocks play key roles in organismal development, homeostasis and function. In recent years, much work has focused on circadian clocks, but emerging studies have highlighted the existence of ultradian oscillators -those with a much shorter periodicity than 24 h. Accumulating evidence, together with recently developed optogenetic approaches, suggests that such ultradian oscillators play important roles during cell fate decisions, and analyzing the functional links between ultradian oscillation and cell fate determination will contribute to a deeper understanding of the design principle of developing embryos. In this Review, we discuss the mechanisms of ultradian oscillatory dynamics and introduce examples of ultradian oscillators in various biological contexts. We also discuss how optogenetic technology has been used to elucidate the biological significance of ultradian oscillations. [ABSTRACT FROM AUTHOR]

Published

2014

108. The roles and mechanism of ultradian oscillatory expression of the mouse Hes genes.

Author

Harima, Yukiko, Imayoshi, Itaru, Shimojo, Hiromi, Kobayashi, Taeko, and Kageyama, Ryoichiro

Subjects

*ULTRADIAN rhythms, *GENE expression, *LABORATORY mice, *SKELETAL muscle, *MESODERM, *INTRONS

Abstract

Somites, metameric structures, give rise to the vertebral column, ribs, skeletal muscles and subcutaneous tissues. In mouse embryos, a pair of somites is formed every 2 h by segmentation of the anterior parts of the presomitic mesoderm. This periodic event is regulated by a biological clock called the segmentation clock, which involves cyclic expression of the basic helix-loop-helix gene Hes7 . Hes7 oscillation is regulated by negative feedback with a delayed timing. This process has been mathematically simulated by differential-delay equations, which predict that negative feedback with shorter delays would abolish oscillations or produce dampened but more rapid oscillations. We found that reducing the number of introns within the Hes7 gene shortens the delay and abolishes Hes7 oscillation or results in a more rapid tempo of Hes7 oscillation, increasing the number of somites and vertebrae in the cervical and upper thoracic region. We also found that Hes1 , a Hes7-related gene, is expressed in an oscillatory manner by many cell types, including fibroblasts and neural stem cells. In these cells, Hes1 expression oscillates with a period of about 2–3 h, and this oscillation is important for cell cycle progression. Furthermore, in neural stem cells, Hes1 oscillation drives cyclic expression of the proneural genes Ascl1 and Neurogenin2 and regulates multipotency. Hes1 expression oscillates more slowly in embryonic stem cells, and Hes1 oscillation regulates their fate preferences. Taken together, these results suggest that oscillatory expression with short periods (ultradian oscillation) is important for many biological events. [ABSTRACT FROM AUTHOR]

Published

2014

109. Ultradian corticosterone pulses balance glutamatergic transmission and synaptic plasticity.

Author

Sarabdjitsingh, Ratna Angela, Jezequel, Julie, Pasricha, Natasha, Mikasova, Lenka, Kerkhofs, Amber, Karst, Henk, Groc, Laurent, and Joëls, Marian

Subjects

*CORTICOSTERONE, *NEUROPLASTICITY, *EXCITATORY amino acid agents, *ULTRADIAN rhythms, *LABORATORY rodents

Abstract

The rodent adrenal hormone corticosterone (CORT) reaches the brain in hourly ultradian pulses, with a steep rise in amplitude before awakening. The impact of a single CORT pulse on glutamatergic transmission is well documented, but it remains poorly understood how consecutive pulses impact on glutamate receptor trafficking and synaptic plasticity. By using high-resolution imaging and electrophysiological approaches, we report that a single pulse of CORT to hippocampal networks causes synaptic enrichment of glutamate receptors and increased responses to spontaneously released glutamatergic vesicles, collectively abrogating the ability to subsequently induce synaptic long-term potentiation. Strikingly, a second pulse of CORT one hour after the first-mimicking ultradian pulses-completely normalizes all aspects of glutamate transmission investigated, restoring the plastic range of the synapse. The effect of the second pulse is precisely timed and depends on a nongenomic glucocorticoid receptor-dependent pathway. This normalizing effect through a sequence of CORT pulses- as seen around awakening-may ensure that hippocampal glutamatergic synapses remain fully responsive and able to encode new stress-related information when daily activities start. [ABSTRACT FROM AUTHOR]

Published

2014

110. Ultradian rhythm unmasked in the Pdf clock mutant of Drosophila.

Author

Seki, Yuuichi and Tanimura, Teiichi

Subjects

*ULTRADIAN rhythms, *GENETIC mutation, *MAXIMUM entropy method, *CIRCADIAN rhythms, *DROSOPHILA behavior

Abstract

A diverse range of organisms shows physiological and behavioural rhythms with various periods. Extensive studies have been performed to elucidate the molecular mechanisms of circadian rhythms with an approximately 24 h period in both Drosophila and mammals, while less attention has been paid to ultradian rhythms with shorter periods. We used a video-tracking method to monitor the movement of single flies, and clear ultradian rhythms were detected in the locomotor behaviour of wild type and clock mutant flies kept under constant dark conditions. In particular, the Pigment-dispersing factor mutant ( Pdf) demonstrated a precise and robust ultradian rhythmicity, which was not temperature compensated. Our results suggest that Drosophila has an endogenous ultradian oscillator that is masked by circadian rhythmic behaviours. [ABSTRACT FROM AUTHOR]

Published

2014

111. Chronobiological studies of chicken IgY: Monitoring of infradian, circadian and ultradian rhythms of IgY in blood and yolk of chickens.

Author

Jin-Xin He, Diraviyam Thirumalai, Rüdiger Schade, and Xiao-Ying Zhang

Subjects

*CHRONOBIOLOGY, *ULTRADIAN rhythms, *CIRCADIAN rhythms, *BLOOD testing, *CHICKENS, *IMMUNOGLOBULIN G

Abstract

IgY is the functional equivalent of mammalian IgG found in birds, reptiles and amphibians. Many of its biological aspects have been explored with different approaches. In order to evaluate the rhythmicity of serum and yolk IgY, four chickens were examined and reared under the same conditions. To monitor biological oscillations of IgY in yolk and serum, the eggs and blood samples were collected over a 60 day period and the rhythm of yolk and serum IgY was determined by direct-ELISA. Results indicated that, there is a significant circaseptan rhythm in yolk IgY and circaquattran rhythm in serum IgY. The serum IgY concentration reached a peak in the morning, decreased to a minimum during the daytime and increased again at night revealing a significant circadian rhythm was superimposed by an ultradian rhythm. These data are suited to address the controversies concerning the IgY concentration in egg yolk and blood of laying hens. In addition, this study raised new questions, if the different rhythms in yolk and serum are concerned. [ABSTRACT FROM AUTHOR]

Published

2014

112. Subcutaneous pulsatile glucocorticoid replacement therapy.

Author

Russell, Georgina M., Durant, Claire, Ataya, Alia, Papastathi, Chrysoula, Bhake, Ragini, Woltersdorf, Wolfram, and Lightman, Stafford

Subjects

*SUBCUTANEOUS infusions, *GLUCOCORTICOIDS, *ULTRADIAN rhythms, *CIRCADIAN rhythms, *PULSE (Heart beat)

Abstract

The glucocorticoid hormone cortisol is released in pulses resulting in a complex and dynamic ultradian rhythm of plasma cortisol that underlies the classical circadian rhythm. These oscillating levels are also seen at the level of tissues such as the brain and trigger pulses of gene activation and downstream signalling. Different patterns of glucocorticoid presentation (constant vs pulsatile) result not only in different patterns of gene regulation but also in different neuroendocrine and behavioural responses. Current 'optimal' glucocorticoid replacement therapy results in smooth hormone blood levels and does not replicate physiological pulsatile cortisol secretion. Validation of a novel portable pulsatile continuous subcutaneous delivery system in healthy volunteers under dexamethasone and metyrapone suppression. Pulsatile subcutaneous hydrocortisone more closely replicates physiological circadian and ultradian rhythmicity. [ABSTRACT FROM AUTHOR]

Published

2014

113. Pregnancy-induced changes in ultradian rhythms persist in circadian arrhythmic Siberian hamsters.

Author

Yan Wang, Z., Cable, Erin J., Zucker, Irving, and Prendergast, Brian J.

Subjects

*ULTRADIAN rhythms, *PREGNANCY, *ARRHYTHMIA, *CIRCADIAN rhythms, *LOCOMOTOR control, *HAMSTERS as laboratory animals

Abstract

The impact of pregnancy and lactation on ultradian rhythms (URs) and circadian rhythms (CRs) of locomotor activity was assessed in circadian rhythmic and arrhythmic Siberian hamsters maintained in a long-day photoperiod (16 h light/day). Progressive decrements in CR robustness and amplitude over the course of gestation were accompanied by enhanced URs. Dark-phase UR period and amplitude increased during early gestation and complexity and robustness increased during late gestation. The persistence of pregnancy-associated enhancements of URs in circadian arrhythmic (ARR) hamsters suggests that reproductive modulation of the UR waveform is not dependent on coherent circadian organization. The increased incidence of dark-phase URs appeared more rapidly in ARR dams than entrained (ENTR) dams. Throughout gestation, the percentage of dams with dark-phase URs was significantly greater in the ARR group. Gestational increases in UR complexity and robustness emerged earlier and were greater in ARR than ENTR dams. The attenuation of CRs during lactation is correlated with increased expression of URs. Relaxation of circadian control of the dam's behavior may increase fitness by permitting more efficient interactions with circadian arrhythmic pups. [ABSTRACT FROM AUTHOR]

Published

2014

114. Circahoralian (Ultradian) metabolic rhythms.

Author

Brodsky, V.

Subjects

*ULTRADIAN rhythms, *PROTEIN synthesis, *ENZYME kinetics, *CELL communication, *PHYSIOLOGICAL adaptation, *ADENOSINE triphosphate, *CELL respiration

Abstract

This review presents data concerning metabolic rhythms with periods close to one hour (20 to 120 min): their occurrence, biochemical organization, nature, and significance for adaptations and age-related changes of cells and organs. Circahoralian (ultradian) rhythms have been detected for cell mass and size, protein synthesis, enzyme activities, concentration of ATP and hormones, cell respiration, and cytoplasm pH. Rhythms have been observed in bacteria, yeasts, and protozoa, as well as in many cells of metazoans, including mammals, in vivo and in cell cultures. In cell populations, the rhythms are organized by direct cell-cell communication. The biochemical mechanism involves membrane signal factors and cytoplasmic processes resulting in synchronization of individual oscillations to a common rhythm. Phosphorylation of proteins is the key process of coordination of protein synthesis and enzyme activity kinetics. The fractal nature of circahoralian rhythms is discussed as well as the involvement of these rhythms in adaptations of the cells and organs. Senescent decrease in rhythm amplitudes and correspondingly in cell-cell communication has been observed. The possibility of remodeling these changes through the intercellular medium has been predicted and experimentally shown. Perspectives for studies of the organizers and disorganizers of cell-cell communication in the intercellular medium along with appropriate receptors are discussed with special emphasis on aging and pathology. One perspective can be more precise definition of the range of normal biochemical and physiological state with the goal of correction of cellular functions. [ABSTRACT FROM AUTHOR]

Published

2014

115. Simulation of an ultradian sleep homeostasis through fitting time courses of its EEG indicators obtained during baseline recordings of night sleep.

Author

Putilov, Arcady A.

Subjects

*ELECTROENCEPHALOGRAPHY, *ULTRADIAN rhythms, *SLEEP-wake cycle, *WAKEFULNESS, *SIMULATION methods & models, *POLYSOMNOGRAPHY

Abstract

The elaborated version of the two-process model of sleep–wake regulation proposes more complex mathematical formulation for an ultradian process than for a homeostatic process. Numerical simulation of these two processes includes fitting time courses of electroencephalographic (EEG) indexes obtained for a baseline sleep and for the following episode challenged by shortening/prolongation of wakefulness. In the present paper, the possibilities of simplification of this approach were evaluated. Similar simple formulae were applied for description of both processes, and their parameters were derived by fitting time course of the EEG indexes obtained for only baseline sleep of 14 women. The derived parameters were then used to predict time courses representing 24-h sequences of very short (20 min) naps obtained for nine sleep-deprived and nine sleep-restricted men. The results suggest a possibility to apply such model-based analysis to any of numerous polysomnographic recordings of sleep routinely collected in clinical sleep laboratories. [ABSTRACT FROM AUTHOR]

Published

2014

116. The Development of Sleep-Wake Rhythms and the Search for Elemental Circuits in the Infant Brain.

Author

Blumberg, Mark S., Gall, Andrew J., and Todd, William D.

Subjects

*SLEEP-wake cycle, *CIRCADIAN rhythms, *ULTRADIAN rhythms, *SUPRACHIASMATIC nucleus, *RATTUS norvegicus, *PROSENCEPHALON

Abstract

Despite the predominance of sleep in early infancy, developmental science has yet to play a major role in shaping concepts and theories about sleep and its associated ultradian and circadian rhythms. Here we argue that developmental analyses help us to elucidate the relative contributions of the brainstem and forebrain to sleep-wake control and to dissect the neural components of sleep-wake rhythms. Developmental analysis also makes it clear that sleep-wake processes in infants are the foundation for those of adults. For example, the infant brainstem alone contains a fundamental sleep-wake circuit that is sufficient to produce transitions among wakefulness, quiet sleep, and active sleep. In addition, consistent with the requirements of a "flip-flop" model of sleep-wake processes, this brainstem circuit supports rapid transitions between states. Later in development, strengthening bidirectional interactions between the brainstem and forebrain contribute to the consolidation of sleep and wake bouts, the elaboration of sleep homeostatic processes, and the emergence of diurnal or nocturnal circadian rhythms. The developmental perspective promoted here critically constrains theories of sleep-wake control and provides a needed framework for the creation of fully realized computational models. Finally, with a better understanding of how this system is constructed developmentally, we will gain insight into the processes that govern its disintegration due to aging and disease. [ABSTRACT FROM AUTHOR]

Published

2014

117. Coupling-dependent metabolic ultradian rhythms in confluent cells.

Author

Yang S, Yamazaki S, Cox KH, Huang YL, Miller EW, and Takahashi JS

Subjects

Animals, Ketoglutaric Acids, Glutamine, Cell Cycle, Circadian Rhythm physiology, Mammals, Ultradian Rhythm, Circadian Clocks

Abstract

Ultradian rhythms in metabolism and physiology have been described previously in mammals. However, the underlying mechanisms for these rhythms are still elusive. Here, we report the discovery of temperature-sensitive ultradian rhythms in mammalian fibroblasts that are independent of both the cell cycle and the circadian clock. The period in each culture is stable over time but varies in different cultures (ranging from 3 to 24 h). We show that transient, single-cell metabolic pulses are synchronized into stable ultradian rhythms across contacting cells in culture by gap junction-mediated coupling. Coordinated rhythms are also apparent for other metabolic and physiological measures, including plasma membrane potential (Δψ p ), intracellular glutamine, α-ketoglutarate, intracellular adenosine triphosphate (ATP), cytosolic pH, and intracellular calcium. Moreover, these ultradian rhythms require extracellular glutamine, several different ion channels, and the suppression of mitochondrial ATP synthase by α-ketoglutarate, which provides a key feedback mechanism. We hypothesize that cellular coupling and metabolic feedback can be used by cells to balance energy demands for survival.

Published

2022

118. Effect of Protein Synthesis Rhythm-Organizing Signal Persists for a Day after Single Administration of Melatonin to Rat.

Author

Zvezdina, N., Malchenko, L., Konchenko, D., Dubovaya, T., and Brodskii, V.

Subjects

*CELL communication, *ULTRADIAN rhythms, *PROTEIN synthesis, *MELATONIN, *LABORATORY rats

Abstract

Melatonin administered to rat intraperitoneally organizes ultradian rhythm of protein synthesis in hepatocytes that persists for 1 day after exposure to the synchronizing signal. Hepatocytes were isolated 1 day after melatonin administration and cultured on coverslips in a serum-free medium. In 24 h in culture, the kinetics of protein synthesis was analyzed. In our previous experiments, we detected a rhythm in cells isolated in 1.5 h, but not in 3 days after melatonin administration to the rat. We have found that synchronization of oscillations of the protein synthesis intensity in vivo persists over 1 day after rat exposure to melatonin. Phenylephrine, an efficient synchronizer of protein synthesis in vitro, does not organize the rhythm in vivo. [ABSTRACT FROM AUTHOR]

Published

2014

119. The endogenous circadian temperature period length (tau) in delayed sleep phase disorder compared to good sleepers.

Author

Micic, Gorica, Bruyn, Amanda, Lovato, Nicole, Wright, Helen, Gradisar, Michael, Ferguson, Sally, Burgess, Helen J., and Lack, Leon

Subjects

*ATTENTION-deficit hyperactivity disorder, *CIRCADIAN rhythms, *MEDICAL thermometry, *SLEEP disorders treatment, *INSOMNIA, *ULTRADIAN rhythms

Abstract

The currently assumed aetiology for delayed sleep phase disorder ( DSPD) is a delay of the circadian system. Clinicians have sought to use bright light therapy, exogenous melatonin or chronotherapy to correct the disorder. However, these treatments have achieved unreliable outcomes for DSPD patients and, as such, one suggestion has been that the disorder may be caused by a longer than normal circadian rhythm period length (i.e. tau). The present study investigated this premise using a 78-h ultradian, ultra-short sleep-wake cycle. This constant bedrest routine was used to simulate a series of 1-h long 'days' by alternating 20-min sleep opportunities and 40 min of enforced wakefulness. Thirteen participants were recruited for the study including, six people diagnosed with DSPD according to the International Classification of Sleep Disorders-2 [mean age = 22.0, standard deviation ( SD) = 3.3] and seven good sleepers (mean age = 23.1, SD = 3.9) with normal sleep timing. The DSPD participants' core temperature rhythm tau (mean = 24 h 54 min, SD = 23 min) was significantly longer ( t = −2.33, P = 0.04, Cohen's d = 1.91) than the good sleepers' (mean 24 h 29 min, SD = 16 min). The temperature rhythm of the DSPD participants delayed more rapidly (i.e. >25 min day−1) than the good sleepers'. These findings provide an explanation for the difficulty that DSPD patients have in phase advancing to a more conventional sleep time and their frequent relapse following treatment. The outcomes of this study support a vigorous and continued application of chronobiological and behavioural therapies to entrain DSPD patients to their desired earlier sleep times. [ABSTRACT FROM AUTHOR]

Published

2013

120. The long-term effects of phase advance shifts of photoperiod on cardiovascular parameters as measured by radiotelemetry in rats.

Author

Molcan, L, Teplan, M, Vesela, A, and Zeman, M

Subjects

*RADIO telemetry, *ULTRADIAN rhythms, *CIRCADIAN rhythms, *LABORATORY rats, *GLUCOCORTICOID regulation, *HYPERTENSIVE encephalopathy

Abstract

Cardiovascular parameters, such as blood pressure and heart rate, exhibit both circadian and ultradian rhythms which are important for the adequate functioning of the system. For a better understanding of possible negative effects of chronodisruption on the cardiovascular system we studied circadian and ultradian rhythms of blood pressure and heart rate in rats exposed to repeated 8 h phase advance shifts of photoperiod. The experiment lasted 12 weeks, with three shifts per week. Spectral power as a function of frequency for both circadian and harmonic ultradian rhythms was expressed as the circadian–ultradian power ratio. The circadian rhythms of blood pressure, heart rate and locomotor activity were recorded during the control light:dark (LD) regimen with higher values during the D in comparison with the L. Phase advance shifts resulted in a diminished circadian–ultradian power ratio for blood pressure, heart rate and locomotor activity indicating suppressed circadian control of these traits greater in heart rate than blood pressure. In conclusion, rats kept under irregular LD conditions have suppressed circadian control of heart rate, blood pressure and locomotor activity and rely more on an acute response to the LD regime. Their ability to anticipate regular loads can be weakened and in this way chronodisruption can contribute to the pathogenesis of cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2013

121. Circadian and ultradian components of hunger in human non-homeostatic meal-to-meal eating.

Author

Wuorinen, Elizabeth C. and Borer, Katarina T.

Subjects

*ULTRADIAN rhythms, *HUNGER, *FOOD habits, *GASTROINTESTINAL system physiology, *CALORIC expenditure, *POSTMENOPAUSE

Abstract

Abstract: A unifying physiological explanation of the urge to initiate eating is still not available as human hunger in meal-to-meal eating may not be under homeostatic control. We hypothesized that a central circadian and a gastrointestinal ultradian timing mechanism coordinate non-deprivation meal-to-meal eating. We examined hunger as a function of time of day, inter-meal (IM) energy expenditure (EE), and concentrations of proposed hunger-controlling hormones ghrelin, leptin, and insulin. Methods: In two crossover studies, 10 postmenopausal women, BMI 23–26kg/m2 engaged in exercise (EX) and sedentary (SED) trials. Weight maintenance meals were provided at 6h intervals with an ad libitum meal at 13h in study 1 and 21h snack in study 2. EE during IM intervals was measured by indirect calorimetry and included EX EE of 801kcal in study 1, and 766–1051kcal in study 2. Hunger was assessed with a visual analog scale and blood was collected for hormonal determination. Results: Hunger displayed a circadian variation with acrophase at 13 and 19h and was unrelated to preceding EE. Hunger was suppressed by EX between 10 and 16h and bore no relationship to either EE during preceding IM intervals or changes in leptin, insulin, and ghrelin; however leptin reflected IM energy changes and ghrelin and insulin, prandial events. Conclusions: During non-deprivation meal-to-meal eating, hunger appears to be under non-homeostatic central circadian control as it is unrelated to EE preceding meals or concentrations of proposed appetite-controlling hormones. Gastrointestinal meal processing appears to intermittently suppress this control and entrain an ultradian hunger pattern. [Copyright &y& Elsevier]

Published

2013

122. Brown adipose tissue thermogenesis, the basic rest–activity cycle, meal initiation, and bodily homeostasis in rats.

Author

Blessing, William, Mohammed, Mazher, and Ootsuka, Youichirou

Subjects

*BROWN adipose tissue, *BODY temperature regulation, *FOOD consumption, *HOMEOSTASIS, *LABORATORY rats, *ULTRADIAN rhythms, *HEART beat measurement

Abstract

Abstract: Laboratory rats alternate between behaviorally active and inactive states every 1–2h throughout the 24hour day, the ultradian basic rest–activity cycle (BRAC). During the behaviorally active phases of the BRAC, brown adipose tissue (BAT) temperature, body and brain temperature, and arterial pressure and heart rate increase in an integrated manner. Since the BAT temperature increases are substantially greater than the corresponding body and brain temperature increases, BAT thermogenesis contributes to the body and brain temperature increases. When food is available ad libitum, eating commences approximately 15min after the onset of an episodic increase in BAT temperature, and not at other times. If no food is available, the rat still disturbs the empty food container approximately 15min after the onset of an episodic increase in BAT temperature, and not at other times. The increase in brain temperature that precedes eating may facilitate the cognitive processing that occurs during the search for food, when the rat engages with the external environment. Rather than being triggered by changes in levels of body fuels or other meal-associated factors, in sedentary laboratory rats with ad libitum access to food, meal initiation normally occurs as part of the centrally-programmed ultradian BRAC. BRAC-associated BAT temperature increases occur in a thermoneutral environment and they are not preceded by falls in body or brain temperature, so they are not homeostatic thermoregulatory responses. The pattern of integrated behaviors and physiological functions associated with the BRAC presumably reflects Darwinian natural selection, and homeostatic thermoregulatory explanations of the BRAC-associated changes in temperature should be considered in this context. [Copyright &y& Elsevier]

Published

2013

123. Biological and psychological rhythms: An integrative approach to rhythm disturbances in autistic disorder.

Author

Botbol, Michel, Cabon, Philippe, Kermarrec, Solenn, and Tordjman, Sylvie

Subjects

*AUTISM, *CIRCADIAN rhythms, *ADAPTABILITY (Personality), *INDIVIDUAL differences, *PSYCHOANALYSTS, *ULTRADIAN rhythms

Abstract

Abstract: Biological rhythms are crucial phenomena that are perfect examples of the adaptation of organisms to their environment. A considerable amount of work has described different types of biological rhythms (from circadian to ultradian), individual differences in their patterns and the complexity of their regulation. In particular, the regulation and maturation of the sleep–wake cycle have been thoroughly studied. Its desynchronization, both endogenous and exogenous, is now well understood, as are its consequences for cognitive impairments and health problems. From a completely different perspective, psychoanalysts have shown a growing interest in the rhythms of psychic life. This interest extends beyond the original focus of psychoanalysis on dreams and the sleep–wake cycle, incorporating central theoretical and practical psychoanalytic issues related to the core functioning of the psychic life: the rhythmic structures of drive dynamics, intersubjective developmental processes and psychic containment functions. Psychopathological and biological approaches to the study of infantile autism reveal the importance of specific biological and psychological rhythmic disturbances in this disorder. Considering data and hypotheses from both perspectives, this paper proposes an integrative approach to the study of these rhythmic disturbances and offers an etiopathogenic hypothesis based on this integrative approach. [Copyright &y& Elsevier]

Published

2013

124. Ultradian metabolic rhythm in the diazotrophic cyanobacterium Cyanothece sp. ATCC 51142.

Author

Červený, Jan, Sinetova, Maria A., Valledor, Luis, Sherman, Louis A., and Nedbal, Ladislav

Subjects

*ULTRADIAN rhythms, *NITROGEN fixation, *CIRCADIAN rhythms, *PROTEIN synthesis, *CARBOHYDRASES, *PROTEIN spectra, *NITROGENASES

Abstract

The unicellular cyanobacterium Cyanothece sp. American Type Culture Collection (ATCC) 51142 is capable of performing oxygenic photosynthesis during the day and microoxic nitrogen fixation at night. These mutually exclusive processes are possible only by temporal separation by circadian clock or another cellular program. We report identification of a temperature-dependent ultradian metabolic rhythm that controls the alternating oxygenic and microoxic processes of Cyanothece sp. ATCC 51142 under continuous high irradiance and in high CO2 concentration. During the oxygenic photosynthesis phase, nitrate deficiency limited protein synthesis and CO2 assimilation was directed toward glycogen synthesis. The carbohydrate accumulation reduced overexcitation of the photosynthetic reactions until a respiration burst initiated a transition to microoxic N2 fixation. In contrast to the circadian clock, this ultradian period is strongly temperature-dependent: 17 h at 27 °C, which continuously decreased to 10 h at 39 °C. The cycle was expressed by an oscillatory modulation of net O2 evolution, CO2 uptake, pH, fluorescence emission, glycogen content, cell division, and culture optical density. The corresponding ultradian modulation was also observed in the transcription of nitrogenase-related nifB and nifH genes and in nitrogenase activities. We propose that the control by the newly identified metabolic cycle adds another rhythmic component to the circadian clock that reflects the true metabolic state depending on the actual temperature, irradiance, and CO2 availability. [ABSTRACT FROM AUTHOR]

Published

2013

125. Ultradian and circadian modulation of dream recall: EEG correlates and age effects.

Author

Chellappa, Sarah Laxhmi and Cajochen, Christian

Subjects

*ULTRADIAN rhythms, *CIRCADIAN rhythms, *DREAMS, *ELECTROENCEPHALOGRAPHY, *RAPID eye movement sleep, *ELECTROPHYSIOLOGY

Abstract

Abstract: Dreaming occurs during non-rapid eye movement (NREM) and rapid eye movement (REM) sleep, which both are regulated by homeostatic, ultradian, and circadian processes. However, the magnitude of how ultradian REM and NREM sleep and its EEG correlates impact onto dream recall remains fairly unknown. In this review, we address three questions: 1. Is there an ultradian NREM–REM sleep modulation in successful dream recall, which is gated by the circadian clock? 2. What are the key electrophysiological correlates that account for dream recall during NREM and REM sleep and 3. Are there age-related changes in the ultradian and circadian regulation in dream recall and its electrophysiological correlates? Knowledge on the specific frequency and topography NREM and REM sleep differences prior to dream recall may pinpoint to the cerebral correlates that account for this cognitive process, and hint to their possible physiological meaning. [Copyright &y& Elsevier]

Published

2013

126. Which theories on sleep ultradian cycling are favored by the positive links found between the number of cycles and REMS?

Author

Le Bon, Olivier

Subjects

*ULTRADIAN rhythms, *BIOLOGICAL rhythms, *SLEEP, *RAPID eye movement sleep, *EYE movements

Abstract

Theories still compete nowadays to explain the sleep ultradian cycling between rapid eye movement sleep (REMS) and non-rapid eye movement sleep (NREMS), both in monophasic and polyphasic sleep organizations. Predictions on which of these theories is the most heuristic can be made on the basis of the relationships between the number of alternations and the respective durations of REMS and NREMS. Links having been found in humans and rodents between the number of cycles and REMS favor hypotheses that make this sleep state the central tenet of the ultradian cycling process. On the basis of these conclusions, a comprehensive hypothesis is proposed on how things could work. The proposal is then discussed at the light of most of the evidence available in the field. [ABSTRACT FROM AUTHOR]

Published

2013

127. Notch-Inducible Hyperphosphorylated CREB and Its Ultradian Oscillation in Long-Term Memory Formation.

Author

Zhang, Jiabin, Little, Christopher J., Tremmel, Daniel M., Yin, Jerry C. P., and Wesley, Cedric S.

Subjects

*LONG-term memory in adolescence, *NOTCH genes, *CREB protein, *ULTRADIAN rhythms, *PHOSPHORYLATION, *NEUROPLASTICITY, *CELL receptors, *DROSOPHILA as laboratory animals

Abstract

Notch is a cell surface receptor that is known to regulate developmental processes by establishing physical contact between neighboring cells. Many recent studies show that it also plays an important role in the formation of long-term memory (LTM) in adults, implying that memory formation requires regulation at the level of cell- cell contacts among brain cells. Neither the target of Notch activity in LTM formation nor the underlying mechanism of regulation is known. We report here results of our studies in adult Drosophila melanogaster showing that Notch regulates dCrebB-17A, the CREB protein. CREB is a transcriptional factor that is pivotal for intrinsic and synaptic plasticity involved in LTM formation. Notch in conjunction with PKC activity upregulates the level of a hyperphosphorylated form of CREB (hyper-P04 CREB) and triggers its ultradian oscillation, both of which are linked to LTM formation. One of the sites that is phosphorylated in hyper-P04 CREB is serine 231, which is the functional equivalent of mammalian CREB serine 133, the phosphorylation of which is an important regulator of CREB functions. Our data suggest the model that Notch and PKC activities generate a cyclical accumulation of cytoplasmic hyper-P04 CREB that is a precursor for generating the nuclear CREB isoforms. Cyclical accumulation of CREB might be important for repetitive aspects of LTM formation, such as memory consolidation. Because Notch, PKC, and CREB have been implicated in many neurodegenerative diseases (e.g., Alzheimer's disease), our data might also shed some light on memory loss and dementia. [ABSTRACT FROM AUTHOR]

Published

2013

128. Neonatal monosodium glutamate treatment counteracts circadian arrhythmicity induced by phase shifts of the light–dark cycle in female and male Siberian hamsters.

Author

Prendergast, Brian J., Onishi, Kenneth G., and Zucker, Irving

Subjects

*MONOSODIUM glutamate, *ULTRADIAN rhythms, *HYPOTHALAMIC hormones, *SUPRACHIASMATIC nucleus, *HYPOGONADISM, *OBESITY, *HAMSTERS

Abstract

Abstract: Studies of rats and voles suggest that distinct pathways emanating from the anterior hypothalamic-retrochiasmatic area and the mediobasal hypothalamic arcuate nucleus independently generate ultradian rhythms (URs) in hormone secretion and behavior. We evaluated the hypothesis that destruction of arcuate nucleus (ARC) neurons, in concert with dampening of suprachiasmatic nucleus (SCN) circadian rhythmicity, would compromize the generation of ultradian rhythms (URs) of locomotor activity. Siberian hamsters retain-->of both sexes treated neonatally with monosodium glutamate (MSG) that destroys ARC neurons were subjected in adulthood to a circadian disrupting phase-shift protocol (DPS) that produces SCN arrhythmia. MSG treatments induced hypogonadism and obesity, retain-->and markedly reduced the size of the optic chiasm and optic nerves. MSG-treated hamsters exhibited normal entrainment to the light–dark cycle, but MSG treatretain-->ment counteracted the circadian arrhythmicity induced by the DPS protocol: only 6% of retain-->MSG-treated hamsters exhibited circadian arrhythmia, whereas 50% of control hamsters were circadian disrupted. In MSG-treated hamsters that retained circadian rhythmicity after DPS treatment, quantitative parameters of URs appeared normal, but in the two MSG-treated hamsters that became circadian arrhythmic after DPS, both dark-phase and light-phase URs were abolished. Although preliminary, these data are consistent with reports in voles suggesting that the combined disruption of SCN and ARC function impairs the expression of behavioral URs. The data also suggest that light thresholds for entrainment of circadian rhythms may be lower than those required to disrupt circadian organization. [Copyright &y& Elsevier]

Published

2013

129. Absence of systematic relationships between REMS duration episodes and spectral power Delta and Ultra-Slow bands in contiguous NREMS episodes in healthy humans.

Author

Bon, O. Le and Linkowski, P.

Subjects

*RAPID eye movement sleep, *NON-REM sleep, *NEUROPHYSIOLOGY, *POLYSOMNOGRAPHY, *SLEEP-wake cycle, *ULTRADIAN rhythms

Abstract

Previous studies in animals and humans have reported correlations between the durations of rapid eye movement sleep (REMS) episodes and immediately preceding or subsequent non-REMS (NREMS) episodes. The relationship between these two types of sleep is a crucial component in understanding the regulation and neurophysiology of ultradian alternations that occur during sleep. Although the present study replicated previous studies, we also measured NREMS in terms of spectral power Delta and Ultra-Slow bands in addition to duration in examining correlations. The spectral power Delta band, also known as slow-wave activity, measures sleep quantity and is believed to reflect sleep physiology better than mere episode durations. The Ultra-Slow spectral power band was analyzed in parallel. Healthy human participants of both sexes (n = 26, age range 15-45 yr, n = 12 female) were carefully selected to participate in two consecutive series of home polysomnograms performed after 2 nights of habituation to the equipment. In the analyses, REMS episode durations (minutes) were compared with immediately preceding and immediately subsequent NREMS episodes (Delta and Ultra-Slow power) in each sleep cycle. REMS episode duration was more strongly correlated with preceding NREMS episodes than with subsequent NREMS episodes. However, in most cases, no correlations were observed in either direction. One ultradian sleep regulation hypothesis, which is based on stronger correlations between REMS and subsequent NREMS episode durations, holds that the main purpose of REMS is to reactivate NREMS during each sleep cycle. The present results do not support that hypothesis. [ABSTRACT FROM AUTHOR]

Published

2013

130. Brown adipose tissue thermogenesis precedes food intake in genetically obese Zucker (fa/fa) rats.

Author

Kontos, Anna, de Menezes, Rodrigo C., Ootsuka, Youichirou, and Blessing, William

Subjects

*BROWN adipose tissue, *BODY temperature regulation, *FOOD consumption, *BODY temperature, *LABORATORY rats, *COMPARATIVE studies

Abstract

In Sprague–Dawley rats, brown adipose tissue (BAT) thermogenesis occurs in an episodic ultradian manner (BAT on-periods) as part of the basic rest–activity cycle (BRAC). Eating occurs approximately 15min after the onset of BAT on-periods. Zucker obese (fa/fa) rats eat larger less frequent meals than control rats. In chronically instrumented conscious unrestrained Zucker obese rats we examined ultradian fluctuations in BAT, body and brain temperatures, and the relation between BAT temperature and eating. The interval between BAT temperature peaks for the 12hour dark phase was 121±3 (mean±SE) min for Zucker obese rats and 91±3min for control lean rats (p<0.01). Corresponding values for the light phase were 148±6 and 118±4min (p<0.01). Mean BAT and body temperatures were lower in Zucker obese rats, in comparison with lean controls, during both BAT on-periods and BAT off-periods. Mean brain temperatures were lower during BAT off-periods. Amplitudes of the BRAC-related increases in all 3 temperatures were greater in the Zucker obese rats. Meal onset in Zucker obese rats commenced 15±1min after the onset of a BAT on-period, not significantly different for the delay observed in lean control rats (18±1min, p>0.05). Thus periods between eating are increased in the Zucker obese rats, but the action of leptin, absent in these animals, is not crucial for the timing of eating in relation to increases in BAT and body temperature. Lack of the normal excitatory action of leptin on brain-regulated BAT sympathetic discharge could also contribute to lower BAT thermogenesis in Zucker obese rats. [ABSTRACT FROM AUTHOR]

Published

2013

131. Transcriptional regulation of episodic glucocorticoid secretion

Author

Liu, Ying, Smith, Lorna I., Huang, Victoria, Poon, Victoria, Coello, Ana, Olah, Mark, Spiga, Francesca, Lightman, Stafford L., and Aguilera, Greti

Subjects

*CIRCADIAN rhythms, *ULTRADIAN rhythms, *GLUCOCORTICOIDS, *STEROIDOGENIC acute regulatory protein, *HOMEOSTASIS, *POLYMERASE chain reaction, *MELANOCORTIN receptors, *CYTOCHROME P-450

Abstract

Abstract: Circadian and ultradian variations of basal glucocorticoid secretion and transient elevations during stress are essential for homeostasis. Using intronic qRT-PCR to measure changes in primary transcript (hnRNA) we have shown that secretory events induced by stress or ACTH injection are followed by episodic increases in transcription of rate limiting steroidogenic proteins, such as steroidogenic acute regulatory protein (StAR), cytochrome P450 side chain cleavage and melanocortin receptor associated protein. These transcriptional episodes imply rapid turnover of steroidogenic proteins and the need of de novo synthesis following each secretory event. In addition to episodic ACTH secretion, it is likely that intracellular feedback mechanisms at the adrenal fasciculata level contribute to the generation of episodes of transcription. The time relationship between activation and translocation of the CREB co-activator, transducer of regulated CREB activity (TORC) to the nucleus preceding transcriptional episodes suggest the involvement of TORC in the transcriptional activation of StAR and other steroidogenic proteins. [Copyright &y& Elsevier]

Published

2013

132. Minding the gaps that link intrinsic circadian clock within the heart to its intrinsic ultradian pacemaker clocks. Focus on "The cardiomyocyte molecular clock, regulation of Scn5a, and arrhythmia susceptibility".

Author

Lakatta, Edward G., Yaniv, Yael, and Maltsev, Victor A.

Subjects

*BIOLOGICAL rhythms, *ULTRADIAN rhythms, *HEART cells, *ARRHYTHMIA

Abstract

The article focuses on the study "The cardiomyocyte molecular clock, regulation of Scn5a, and arrhythmia susceptibility" performed by E.A. Schroder and colleagues published in the January 30, 2013 issue of the journal. Topics of discussion included were link of cardiac circadian clock to those of cardiac ultradian clocks, diurnal pattern of heart rate and beat, regulation of the cardiac impulse beyond the Na+ channels.

Published

2013

133. A Minimal Physiologically Based Model of the HPA Axis under Influence of the Sleep-Wake Cycles.

Author

Postnova, S., Fulcher, R., Braun, H. A., and Robinson, P. A.

Subjects

*HYPOTHALAMIC-pituitary-adrenal axis, *CIRCADIAN rhythms, *ULTRADIAN rhythms, *SLEEP-wake cycle, *HYDROCORTISONE, *PARAVENTRICULAR nucleus, *SUPRACHIASMATIC nucleus

Abstract

The hypothalamic-pituitary-adrenal axis (also called the HPA or stress axis) exhibits distinct circadian and ultradian rhythms in cortisol release that cannot be explained solely by the feedback loops from cortisol to the control systems in the paraventricular nucleus (PVN) and pituitary gland. The HPA axis is intimately connected with other brain functions. In particular, it is strongly affected by the sleep-wake cycles via direct and indirect effects of the circadian and homeostatic mechanisms. For example, the HPA axis has direct inputs from the master circadian clock in the suprachiasmatic nuclei (SCN), and from the various sleep-wake related neuronal populations, which themselves are under the effects of the circadian and homeostatic processes. In this paper a first step towards a physiologically based mathematical model of the HPA-axis under effects of the sleep-wake cycles is presented. This model accounts for 3 major characteristics of daily cortisol profile in the blood: i) abrupt increase of cortisol concentration in response to awakening, the so-called cortisol-awakening response (CAR); ii) reduced cortisol levels during daytime with underlying ultradian oscillations; and iii) suppression of cortisol release during sleep. [ABSTRACT FROM AUTHOR]

Published

2013

134. Cardio-autonomic control and wellbeing due to oscillating color light exposure.

Author

Grote, Vincent, Kelz, Christina, Goswami, Nandu, Stossier, Harald, Tafeit, Erwin, and Moser, Maximilian

Subjects

*WELL-being, *ULTRADIAN rhythms, *COLORED light, *HEART beat measurement, *EXPERIMENTAL biology, *CARDIOLOGY

Abstract

Abstract: We investigated the cardio-autonomic and psychological effects of colored light cycling with the wavelength of ultradian rhythms. In two consecutive experiments, an explorative, longitudinal test followed by a randomized crossover design, 20 healthy subjects each were exposed to oscillating red, green and blue light. Heart rate, heart rate variability (HRV) and subjective wellbeing were measured. Significant effects of the oscillating color light exposure were observed for heart rate and cardio-autonomic control rhythms, derived from HRV (p≤.001). These effects on HRV were replicated in the second experiment in comparison to a similar white light exposure protocol (p≤.05). Vigilance showed improvement over the two weeks (p≤.001) in the longitudinal study. External color light cycling at the wavelength of blood pressure oscillations appears to amplify the endogenous autonomic oscillations. This leads to an optimization of cardio-autonomic control; an effect that was reflected shortly after the onset of the light exposure sessions by the increase of heart rate variability. From the results, we conclude that it takes repeated light exposure session to foster the positive effects on the psychological aspects, as we observed an increase of subjectively perceived mood only in the longitudinal study, not for the crossover design study. The results of our study imply some possible health effects of a color light exposure that is adjusted to 10s and 1min oscillations of humans' ultradian rhythms. These novel results show possible applications of oscillating visual inputs to the activation of processes connected to physiological regulation. [Copyright &y& Elsevier]

Published

2013

135. Synchronous activation of gonadotropin-releasing hormone gene transcription and secretion by pulsatile kisspeptin stimulation.

Author

Han Kyoung Choe, Hee-Dae Kim, Sung Ho Park, Han-Woong Lee, Jae-Yong Park, Jae Young Seong, Lightman, Stafford L., Gi Hoon Son, and Kyungjin Kim

Subjects

*GONADOTROPIN releasing hormone, *GONADOTROPIN, *PULSATILE flow, *KISSPEPTIN neurons, *TRANSGENIC mice, *ULTRADIAN rhythms, *CIRCADIAN rhythms

Abstract

Pulsatile release of hypothalamic gonadotropin-releasing hormone (GnRH) is essential for pituitary gonadotrope function. Although the importance of pulsatile GnRH secretion has been recognized for several decades, the mechanisms underlying GnRH pulse generation in hypothalamic neural networks remain elusive. Here, we demonstrate the ultradian rhythm of GnRH gene transcription in single GnRH neurons using cultured hypothalamic slices prepared from transgenic mice expressing a GnRH promoter-driven destabilized luciferase reporter. Although GnRH promoter activity in each GnRH neuron exhibited an ultradian pattern of oscillations with a period of ∼10 h, GnRH neuronal cultures exhibited partially synchronized bursts of GnRH transcriptional activity at ∼2-h intervals. Surprisingly, pulsatile administration of kisspeptin, a potent GnRH secretagogue, evoked dramatic synchronous activation of GnRH gene transcription with robust stimulation of pulsatile GnRH secretion. We also addressed the issue of hierarchical interaction between the circadian and ultradian rhythms by using Bmal1-deficient mice with defective circadian clocks. The circadian molecular oscillator barely affected basal ultradian oscillation of GnRH transcription but was heavily involved in kisspeptin-evoked responses of GnRH neurons. In conclusion, we have clearly shown synchronous bursts of GnRH gene transcription in the hypothalamic GnRH neuronal population in association with episodic neurohormone secretion, thereby providing insight into GnRH pulse generation. [ABSTRACT FROM AUTHOR]

Published

2013

136. Sex differences in Siberian hamster ultradian locomotor rhythms

Author

Prendergast, Brian J., Stevenson, Tyler J., and Zucker, Irving

Subjects

*ULTRADIAN rhythms, *CIRCADIAN rhythms, *PHOTOPERIODISM, *NEUROENDOCRINE cells, *FOOD consumption, SEX differences (Biology)

Abstract

Abstract: Sex differences in ultradian activity rhythms (URs) and circadian rhythms (CRs) were assessed in Siberian hamsters kept in long day (LD) or short day (SD) photoperiods for 40weeks. For both sexes URs of locomotor activity were more prevalent, greater in amplitude and more robust in SDs. The UR period was longer in females than males in both day lengths. The reproductive system underwent regression and body mass declined during the initial 10weeks of SD treatment, and in both sexes these traits spontaneously reverted to the LD phenotype at or before 40weeks in SD, reflecting the development of neuroendocrine refractoriness to SD patterns of melatonin secretion. Hamsters of both sexes, however, continued to display SD-like URs at the 40weeks time point. CRs were less prevalent and the waveform less robust and lower in amplitude in SDs than LDs; the SD circadian waveform also did not revert to the long-day phenotype after 40weeks of SD treatment. Short day lengths enhanced ultradian and diminished circadian rhythms in both sexes. Day length controls several UR characteristics via gonadal steroid and melatonin-independent mechanisms. Sex differences in ultradian timing may contribute to sex diphenisms in rhythms of sleep, food intake and exercise. [Copyright &y& Elsevier]

Published

2013

137. Ultradian variation of isoprene emission, photosynthesis, mesophyll conductance, and optimum temperature sensitivity for isoprene emission in water-stressed Eucalyptus citriodora saplings.

Author

Brilli, Federico, Tsonev, Tsonko, Mahmood, Tariq, Velikova, Violeta, Loreto, Francesco, and Centritto, Mauro

Subjects

*ULTRADIAN rhythms, *ISOPRENE, *PHOTOSYNTHESIS, *MESOPHYLL tissue, *TEMPERATURE effect, *EFFECT of stress on plants, *EUCALYPTUS citriodora

Abstract

Water availability is a major limiting factor on plant growth and productivity. Considering that Eucalyptus spp. are among the few plant species able to produce both isoprene and monoterpenes, experiments were designed to investigate the response of isoprene emission and isoprenoid concentrations in Eucalyptus citriodora saplings exposed to decreasing fraction of transpirable soil water (FTSW). In particular, this study aimed to assess: (a) the kinetic of water stress-induced variations in photosynthesis, isoprene emission, and leaf isoprenoid concentrations during progressive soil water shortage as a function of FTSW; (b) the ultradian control of isoprene emission and photosynthesis under limited soil water availability; and (c) the optimum temperature sensitivity of isoprene emission and photosynthesis under severe water stress. The optimum temperature for isoprene emission did not change under progressive soil water deficit. However, water stress induced a reallocation of carbon through the MEP/DOXP pathway resulting in a qualitative change of the stored isoprenoids. The ultradian trend of isoprene emission was also unaffected under water stress, and a similar ultradian trend of stomatal and mesophyll conductances was also observed, highlighting a tight coordination between diffusion limitations to photosynthesis during water stress. The kinetics of photosynthetic parameters and isoprene emission in response to decreasing FTSW in E. citriodora are strikingly similar to those measured in other plant functional types. These findings may be useful to refine the algorithms employed in process-based models aiming to precisely up-scale carbon assimilation and isoprenoid emissions at regional and global scales. [ABSTRACT FROM AUTHOR]

Published

2013

138. Scaling of embryonic patterning based on phase-gradient encoding.

Author

Lauschke, Volker M., Tsiairis, Charisios D., François, Paul, and Aulehla, Alexander

Subjects

*SEGMENTATION (Biology), *ULTRADIAN rhythms, *GENETIC regulation, *CELL culture, *BIOLOGICAL rhythms, *IMMUNOASSAY

Abstract

A fundamental feature of embryonic patterning is the ability to scale and maintain stable proportions despite changes in overall size, for instance during growth. A notable example occurs during vertebrate segment formation: after experimental reduction of embryo size, segments form proportionally smaller, and consequently, a normal number of segments is formed. Despite decades of experimental and theoretical work, the underlying mechanism remains unknown. More recently, ultradian oscillations in gene activity have been linked to the temporal control of segmentation; however, their implication in scaling remains elusive. Here we show that scaling of gene oscillation dynamics underlies segment scaling. To this end, we develop a new experimental model, an ex vivo primary cell culture assay that recapitulates mouse mesoderm patterning and segment scaling, in a quasi-monolayer of presomitic mesoderm cells (hereafter termed monolayer PSM or mPSM). Combined with real-time imaging of gene activity, this enabled us to quantify the gradual shift in the oscillation phase and thus determine the resulting phase gradient across the mPSM. Crucially, we show that this phase gradient scales by maintaining a fixed amplitude across mPSM of different lengths. We identify the slope of this phase gradient as a single predictive parameter for segment size, which functions in a size- and temperature-independent manner, revealing a hitherto unrecognized mechanism for scaling. Notably, in contrast to molecular gradients, a phase gradient describes the distribution of a dynamical cellular state. Thus, our phase-gradient scaling findings reveal a new level of dynamic information-processing, and provide evidence for the concept of phase-gradient encoding during embryonic patterning and scaling. [ABSTRACT FROM AUTHOR]

Published

2013

139. Pineal and gonadal influences on ultradian locomotor rhythms of male Siberian hamsters

Author

Prendergast, Brian J., Cable, Erin J., Cisse, Yasmine M., Stevenson, Tyler J., and Zucker, Irving

Subjects

*PINEAL gland secretions, *ULTRADIAN rhythms, *HAMSTERS, *CIRCADIAN rhythms, *MELATONIN, *THERAPEUTIC use of testosterone, *ESTRADIOL, *CASTRATION

Abstract

Abstract: The extent to which changes in ultradian and circadian rhythms (URs and CRs) reflect seasonal variations in pineal melatonin secretion was assessed in male Siberian hamsters transferred from long to short day lengths. The period of the locomotor activity UR increased from 2.5h in long days to 4.5h in short day lengths, but this and most other features of the short-day ultradian phenotype were unaffected by pinealectomy; only the short-day increase in UR amplitude was counteracted by pineal extirpation. Virtually all UR components were unaffected by gonadectomy or replacement testosterone or estradiol treatment; changes in testicular hormone secretion appear insufficient to account for seasonal fluctuation in URs. Pinealectomy did not affect activity onsets and offsets or phase angles of CR entrainment in short and long day lengths; the duration of nocturnal activity was equivalently longer in short than long days in both pinealectomized and pineal-intact hamsters. CR robustness of pinealectomized hamsters in short days was intermediate between values of long-day and short-day sham-pinealectomized males. Hourly nocturnal locomotor activity was markedly reduced in SD, and this effect was completely reversed by PINx. We conclude that seasonal transitions in UR and CR waveforms controlled by day length are mediated primarily by melatonin-independent mechanisms, with lesser contributions from melatonin-dependent processes. Most seasonal changes in ultradian and circadian rhythms in males of this species are not influenced by gonadal hormones. URs may allow animals to respond appropriately to changing environmental contingencies. In winter reduced activity combined with temporal restructuring of activity to include longer intervals of rest may be adaptive in maintaining body temperature at lower values and down-regulating energy expenditure when above ground temperatures are extremely low. [Copyright &y& Elsevier]

Published

2013

140. Ultrasound evaluation of fetal brain dysfunction based on behavioral patterns

Author

Morokuma, Seiichi, Fukushima, Kotaro, Otera, Yuka, Yumoto, Yasuo, Tsukimori, Kiyomi, Ochiai, Masayuki, Hara, Toshiro, and Wake, Norio

Subjects

*DEVELOPMENTAL neurobiology, *DIAGNOSIS of neurological disorders, *FETAL heart rate monitoring, *FETAL movement, *POLYHYDRAMNIOS, *ULTRADIAN rhythms, ULTRASONIC imaging of fetal brain abnormalities

Abstract

Abstract: To identify fetuses at high risk of poor neurological outcomes using a novel ultrasound evaluation system. We assessed an ultrasound evaluation system based on our previous findings, consisting of screening for decreased or lack of fetal movements, abnormal patterns of fetal heart rate, congenital CNS malformations, polyhydramnios of unknown cause, and a “brief ultrasound evaluation” of fetal brain functions, including movement of extremities, breathing movements, ultradian rhythm, REM period, and NREM period. We then assessed the correlation between fetal brain functions and neurological outcomes in infancy (MR, CP, and low Developmental Quotient). During screening, we prospectively evaluated 4978 fetuses receiving prenatal and intrapartum management between January 2000 and December 2009 in our hospital that were later delivered between 32 and 41weeks’ gestation and identified 93 cases as suspicious for impairment. Of the 93 fetuses, 26 underwent the second step of brief ultrasound examination at 35–40weeks’ gestation. Our findings revealed that this method was adequately sensitive (80%) and specific (88%) in identifying neurological impairment. We concluded that this method was mainly useful in the clinical setting for establishing the first indication for fetal CNS examination for functional impairment, rendering it suitable for clinical application. [Copyright &y& Elsevier]

Published

2013

141. Wavelet analysis of circadian and ultradian behavioral rhythms.

Author

Leise, Tanya L.

Subjects

*BIOLOGICAL models, *CIRCADIAN rhythms, *STATISTICS, *TIME series analysis, *DATA analysis, *WAVE analysis

Abstract

We review time-frequency methods that can be useful in quantifying circadian and ultradian patterns in behavioral records. These records typically exhibit details that may not be captured through commonly used measures such as activity onset and so may require alternative approaches. For instance, activity may involve multiple bouts that vary in duration and magnitude within a day, or may exhibit day-to-day changes in period and in ultradian activity patterns. The discrete Fourier transform and other types of periodograms can estimate the period of a circadian rhythm, but we show that they can fail to correctly assess ultradian periods. In addition, such methods cannot detect changes in the period over time. Time-frequency methods that can localize frequency estimates in time are more appropriate for analysis of ultradian periods and of fluctuations in the period. The continuous wavelet transform offers a method for determining instantaneous frequency with good resolution in both time and frequency, capable of detecting changes in circadian period over the course of several days and in ultradian period within a given day. The discrete wavelet transform decomposes a time series into components associated with distinct frequency bands, thereby facilitating the removal of noise and trend or the isolation of a particular frequency band of interest. To demonstrate the wavelet-based analysis, we apply the transforms to a numerically-generated example and also to a variety of hamster behavioral records. When used appropriately, wavelet transforms can reveal patterns that are not easily extracted using other methods of analysis in common use, but they must be applied and interpreted with care. [ABSTRACT FROM AUTHOR]

Published

2013

142. Sleep-Wake Behavior in the Rat: Ultradian Rhythms in a Light-Dark Cycle and Continuous Bright Light.

Author

Stephenson, Richard, Lim, Joonbum, Famina, Svetlana, Caron, Aimee M., and Dowse, Harold B.

Subjects

*SLEEP-wake cycle, *CIRCADIAN rhythms, *TIME series analysis, *ULTRADIAN rhythms, *BIOLOGICAL rhythms, *MAXIMUM entropy method

Abstract

Ultradian rhythms are a prominent but little-studied feature of mammalian sleep-wake and rest-activity patterns. They are especially evident in long-term records of behavioral state in polyphasic animals such as rodents. However, few attempts have been made to incorporate ultradian rhythmicity into models of sleep-wake dynamics, and little is known about the physiological mechanisms that give rise to ultradian rhythms in sleep-wake state. This study investigated ultradian dynamics in sleep and wakefulness in rats entrained to a 12-h:12-h light-dark cycle (LD) and in rats whose circadian rhythms were suppressed and free-running following long-term exposure to uninterrupted bright light (LL). We recorded sleep-wake state continuously for 7 to 12 consecutive days and used time-series analysis to quantify the dynamics of net cumulative time in each state (wakefulness [WAKE], rapid eye movement sleep [REM], and non-REM sleep [NREM]) in each animal individually. Form estimates and autocorrelation confirmed the presence of significant ultradian and circadian rhythms; maximum entropy spectral analysis allowed high-resolution evaluation of multiple periods within the signal, and wave-by-wave analysis enabled a statistical evaluation of the instantaneous period, peak-trough range, and phase of each ultradian wave in the time series. Significant ultradian periodicities were present in all 3 states in all animals. In LD, ultradian range was approximately 28% of circadian range. In LL, ultradian range was slightly reduced relative to LD, and circadian range was strongly attenuated. Ultradian rhythms were found to be quasiperiodic in both LD and LL. That is, ultradian period varied randomly around a mean of approximately 4 h, with no relationship between ultradian period and time of day. [ABSTRACT FROM PUBLISHER]

Published

2012

143. Individual Variation in Sleep-Wake Rhythms in Free-Living Birds.

Author

Mueller, Jakob C., Steinmeyer, Corinna, and Kempenaers, Bart

Subjects

*SLEEP-wake cycle, *CIRCADIAN rhythms, *BIRD physiology, *CONFIDENCE intervals, *ULTRADIAN rhythms, *RAPID eye movement sleep, *BLUE tit

Abstract

Ultradian rhythms, such as sleep-wake periodicities, during the night might represent basic rest-activity cycles of organisms that are fundamental to the temporal organization and synchronization of behavior throughout the day. However, in contrast to circadian rhythms, little is known about the underlying oscillators and molecular mechanisms of higher-frequency rhythms. A fundamental step for the understanding of the mechanisms of these latter periodicities is the analysis of variation in sleep-wake cycles in free-living animals, which can help in estimating the relative importance of genetic and environmental influence on the rhythmicity. We analyzed variation in the level of rhythmicity and period length (τ) of behaviorally defined sleep-wake cycles in a natural population of blue tits Cyanistes caeruleus. Our results indicate that the expression of periodicity in sleep-wake patterns, but not τ, has a strong individual-specific basis. The within-individual repeatability estimate of the expression of periodicity was .45 (95% confidence interval: .35-.55) when data from males and females were combined. In addition, periodicity was influenced by specific environmental factors, such as night temperature, seasonal date, and age of the individual. Most strikingly, low nighttime temperature negatively affected periodicity of sleep-wake patterns, potentially via a hypothermic response of the birds. Our results further suggest that τ is influenced by photoperiod. Blue tits showed longer sleep-wake rhythms when the nights were longer. These observations suggest a genetic basis for the incidence of rhythmic sleep-wake behavior in addition to environmental modifications of their specific expression. (Author correspondence: ) [ABSTRACT FROM AUTHOR]

Published

2012

144. Serotonergic Integration of Circadian Clock and Ultradian Sleep-Wake Cycles.

Author

Miyamoto, Hiroyuki, Nakamaru-Ogiso, Eiko, Hamada, Kozo, and Hensch, Takao K.

Subjects

*SEROTONINERGIC mechanisms, *CIRCADIAN rhythms, *ULTRADIAN rhythms, *SLEEP-wake cycle, *SUPRACHIASMATIC nucleus, *HYPOTHALAMUS, *PROSENCEPHALON

Abstract

In mammals, the suprachiasmatic nucleus (SCN) of the hypothalamus generates a 24 h rhythm of sleep and arousal. While neuronal spiking activity in the SCN provides a functional circadian oscillator that propagates throughout the brain, the ultradian sleep-wake state is regulated by the basal forebrain/preoptic area (BF/POA). How this SCN circadian oscillation is integrated into the shorter sleep-wake cycles remains unclear. We examined the temporal patterns of neuronal activity in these key brain regions in freely behaving rats. Neuronal activity in various brain regions presented diurnal rhythmicity and/or sleep-wake state dependence. We identified a diurnal rhythm in the BF/POA that was selectively degraded when diurnal arousal patterns were disrupted by acute brain serotonin depletion despite robust circadian spiking activity in the SCN. Local blockade of serotonergic transmission in the BF/POA was sufficient to disrupt the diurnal sleep-wake rhythm of mice. These results suggest that the serotonergic system enables the BF/POA to couple the SCN circadian signal to ultradian sleep-wake cycles, thereby providing a potential link between circadian rhythms and psychiatric disorders. [ABSTRACT FROM AUTHOR]

Published

2012

145. Ultradian corticosterone secretion is maintained in the absence of circadian cues.

Author

Waite, Eleanor J., McKenna, Mervyn, Kershaw, Yvonne, Walker, Jamie J., Cho, Kwangwook, Piggins, Hugh D., and Lightman, Stafford L.

Subjects

*CORTICOSTERONE, *SUPRACHIASMATIC nucleus, *ULTRADIAN rhythms, *CIRCADIAN rhythms, *HYPOTHALAMIC-pituitary-adrenal axis, *LABORATORY rats, *SECRETION

Abstract

Plasma levels of corticosterone exhibit both circadian and ultradian rhythms. The circadian component of these rhythms is regulated by the suprachiasmatic nucleus (SCN). Our studies investigate the importance of the SCN in regulating ultradian rhythmicity. Two approaches were used to dissociate the hypothalamic-pituitary-adrenal (HPA) axis from normal circadian input in rats: (i) exposure to a constant light (LL) environment and (ii) electrolytic lesioning of the SCN. Blood was sampled using an automated sampling system. As expected, both treatments resulted in a loss of the circadian pattern of corticosterone secretion. Ultradian pulsatile secretion of corticosterone however, was maintained across the 24 h in all animals. Furthermore, the loss of SCN input revealed an underlying relationship between locomotor and HPA activity. In control (LD) rats there was no clear correlation between ultradian locomotor activity and hormone secretion, whereas, in LL rats, episodes of ultradian activity were consistently followed by periods of increased pulsatile hormone secretion. These data clearly demonstrate that the ultradian rhythm of corticosterone secretion is generated through a mechanism independent of the SCN input, supporting recent evidence for a sub-hypothalamic pulse generator. [ABSTRACT FROM AUTHOR]

Published

2012

146. MicroRNA-9 Modulates Hes1 Ultradian Oscillations by Forming a Double-Negative Feedback Loop

Author

Bonev, Boyan, Stanley, Peter, and Papalopulu, Nancy

Subjects

ULTRADIAN rhythms, MICRORNA, NOTCH genes, NEURONS, CELL differentiation, MESSENGER RNA, GENE expression

Abstract

Summary: Short-period (ultradian) oscillations of Hes1, a Notch signaling effector, are essential for maintaining neural progenitors in a proliferative state, while constitutive downregulation of Hes1 leads to neuronal differentiation. Hes1 oscillations are driven by autorepression, coupled with high instability of the protein and mRNA. It is unknown how Hes1 mRNA stability is controlled and furthermore, how cells exit oscillations in order to differentiate. Here, we identify a microRNA, miR-9, as a component of ultradian oscillations. We show that miR-9 controls the stability of Hes1 mRNA and that both miR-9 overexpression and lack of miR-9 dampens Hes1 oscillations. Reciprocally, Hes1 represses the transcription of miR-9, resulting in out-of-phase oscillations. However, unlike the primary transcript, mature miR-9 is very stable and thus accumulates over time. Given that raising miR-9 levels leads to dampening of oscillations, these findings provide support for a self-limiting mechanism whereby cells might terminate Hes1 oscillations and differentiate. [ABSTRACT FROM AUTHOR]

Published

2012

147. 'Time and Time Again': Oscillatory and Longitudinal Time Patterns in Dialysis Patients.

Author

Kooman, Jeroen P., Usvyat, Len, van der Sande, Frank M., Thijssen, Stephan, Levin, Nathan, Leunissen, Karel M., and Kotanko, Peter

Subjects

*HEMODIALYSIS, *HEMODIALYSIS patients, *ULTRADIAN rhythms, *HUMAN physiology, *BIOLOGICAL rhythms, *BLOOD pressure measurement, *MEDICAL care, *THERAPEUTICS

Abstract

Oscillatory and longitudinal time patterns play a major role in human physiology. In chronic hemodialysis patients, abnormalities in both time patterns have been observed, while time patterns can also influence the response of patients to the treatment. Abnormal oscillatory patterns have been observed for ultradian rhythms (cycle time <20 h), such as an impaired heart rate variability and circadian rhythms, as reflected by reduced day-night blood pressure differences. Conversely, the circadian rhythm of body temperature may influence the hemodynamic tolerance to the dialysis treatment. With regard to infradian (cycle time >28 h) rhythms, large seasonal differences in mortality, but also in blood pressure and interdialytic weight gain, have been observed in dialysis patients. The most important longitudinal pattern is the general reduction of life span in dialysis patients. One explanation of this phenomenon relates to the concept of accelerated aging in dialysis patients, for which there are various supportive arguments. From a phenomenological point of view, this concept translates into the high prevalence of frailty, even in young dialysis patients. A multidimensional approach appears necessary to adequately address this problem. In this review, the relevance of disturbed time patterns in dialysis patients is discussed. The changes may reflect an impairment or reduction in homeostatic/homeodynamic control in dialysis patients and also may have important prognostic and therapeutic implications. [ABSTRACT FROM AUTHOR]

Published

2012

148. Heating and eating: Brown adipose tissue thermogenesis precedes food ingestion as part of the ultradian basic rest–activity cycle in rats

Author

Blessing, William, Mohammed, Mazher, and Ootsuka, Youichirou

Subjects

*ADIPOSE tissues, *BODY temperature regulation, *INGESTION, *ULTRADIAN rhythms, *LABORATORY rats, *RAT behavior

Abstract

Abstract: Laboratory rats, throughout the 24hour day, alternate between behaviorally active and non active episodes that Kleitman called the basic rest–activity cycle (BRAC). We previously demonstrated that brown adipose tissue (BAT), body and brain temperatures and arterial pressure and heart rate increase in an integrated manner during behaviorally active phases. Studies show that eating is preceded by increases in body and brain temperature, but whether eating is integrated into the BRAC has not been investigated. In the present study of chronically instrumented, unrestrained Sprague–Dawley rats, peaks in BAT temperature occurred every 96±7 and 162±16min (mean±SE, n=14 rats) in dark and light periods respectively, with no apparent underlying regularity. With food available ad libitum, eating was integrated into the BRAC in a temporally precise manner. Eating occurred only after an increase in BAT temperature, commencing 15±1min (mean±SE) after the onset of an increase, with no difference between dark and light phases. There were either no or weak preprandial and postprandial relations between intermeal interval and amount eaten during a given meal. Remarkably, with no food available the rat still disturbed the empty food container 16±1 min (p>0.05 versus ad libitum food) after the onset of increases in BAT temperature, and not at other times. Rather than being triggered by changes in levels of body fuels or other meal-associated factors, in sedentary laboratory rats with ad libitum access to food eating commences as part of the ultradian BRAC, a manifestation of intrinsic brain activity. [Copyright &y& Elsevier]

Published

2012

149. Characterizing Dynamic Interactions between Ultradian Glucocorticoid Rhythmicity and Acute Stress Using the Phase Response Curve.

Author

Rankin, James, Walker, Jamie J., Windle, Richard, Lightman, Stafford L., and Terry, John R.

Subjects

*ULTRADIAN rhythms, *GLUCOCORTICOIDS, *PHYSIOLOGICAL stress, *ADRENAL glands, *HYPOTHALAMIC-pituitary-adrenal axis, *CENTRAL nervous system, *PHYSIOLOGICAL control systems

Abstract

The hypothalamic-pituitary-adrenal (HPA) axis is a dynamic oscillatory hormone signalling system that regulates the pulsatile secretion of glucocorticoids from the adrenal glands. In addition to regulation of basal levels of glucocorticoids, the HPA axis provides a rapid hormonal response to stress that is vitally important for homeostasis. Recently it has become clear that glucocorticoid pulses encode an important biological signal that regulates receptor signalling both in the central nervous system and in peripheral tissues. It is therefore important to understand how stressful stimuli disrupt the pulsatile dynamics of this system. Using a computational model that incorporates the crucial feed-forward and feedback components of the axis, we provide novel insight into experimental observations that the size of the stress-induced hormonal response is critically dependent on the timing of the stress. Further, we employ the theory of Phase Response Curves to show that an acute stressor acts as a phase-resetting mechanism for the ultradian rhythm of glucocorticoid secretion. Using our model, we demonstrate that the magnitude of an acute stress is a critical factor in determining whether the system resets via a Type 1 or Type 0 mechanism. By fitting our model to our in vivo stress-response data, we show that the glucocorticoid response to an acute noise stress in rats is governed by a Type 0 phase-resetting curve. Our results provide additional evidence for the concept of a deterministic sub-hypothalamic oscillator regulating the ultradian glucocorticoid rhythm, which constitutes a highly responsive peripheral hormone system that interacts dynamically with hypothalamic inputs to regulate the overall hormonal response to stress. [ABSTRACT FROM AUTHOR]

Published

2012

150. Pulsatile Glucocorticoid Secretion: Origins and Downstream Effects.

Author

Scheff, Jeremy D., Kosmides, Alyssa K., Calvano, Steven E., Lowry, Stephen F., and Androulakis, Ioannis P.

Subjects

*GLUCOCORTICOIDS, *SECRETION, *ANTI-inflammatory agents, *PHARMACODYNAMICS, *BLOOD plasma, *BIOCHEMISTRY, *ULTRADIAN rhythms

Abstract

Glucocorticoids are steroid hormones which, among other functions, exert an antiinflammatory effect. Endogenous glucocorticoids are normally secreted by the adrenal gland in discrete bursts. It is becoming increasingly evident that this pulsatile secretion pattern, leading to ultradian rhythms of plasma glucocorticoid levels, may have important downstream regulatory effects on glucocorticoid-responsive genes. Mathematical modeling of this system can compliment recent experimental data and quantitatively evaluate hypothesized mechanistic underpinnings of differential pulsatile signal transduction. In this paper, we describe an integrated model of pulsatile secretion of glucocorticoids by the hypothalamic–pituitary–adrenal (HPA) axis and the pharmacodynamic effect of glucocorticoids. This model is used to investigate the difference in transcriptional responses to pulsatile and constant glucocorticoid exposure. Nonlinearity in ligand-receptor kinetics leads to the differential expression of glucocorticoid-responsive genes in response to different patterns of glucocorticoid secretion, even when the total amount of glucocorticoid exposure is held constant. Understanding the implications of ultradian rhythms in glucocorticoids is important in studying the dysregulation of HPA axis function leading to altered glucocorticoid secretion patterns in disease. [ABSTRACT FROM AUTHOR]

Published

2011