circadian patterns
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Author(s):  
V. Krylov ◽  
E. Izvekov ◽  
V. Pavlova ◽  
N. Pankova ◽  
E. Osipova

The locomotor activity of zebrafish (Danio rerio) has a pronounced, well-studied circadian rhythm. Under constant illumination, the period of free-running locomotor activity in this species usually becomes less than 24 hours. To evaluate the entraining capabilities of slow magnetic variations, zebrafish locomotor activity was evaluated at constant illumination and fluctuating magnetic field with a period of 26.8 hours. Lomb-Scargle periodogram revealed significant free-running rhythms of locomotor activity and related behavioral endpoints with a period close to 27 hours. Obtained results reveal the potential of slow magnetic fluctuations for entrainment of the circadian rhythms in zebrafish. The putative mechanisms responsible for the entrainment are discussed, including the possible role of cryptochromes.


Author(s):  
Ektha Parchuri ◽  
James Paule

Recent evidence linking exposure toshift work to cardiovascular disease (CVD) as well as incidence of myocardial infarction seems to be greater among night shift workers compared to day workers. Repeated exposure tonight shift work causes disruptions in normal circadian patterns of blood pressure (BP) and heart rate variability (HRV), which cause anincreased risk of CVD. Recent data suggest that allowing shift workers to nap during night shifts may help to normalize BP and HRV patterns and, over time, reduce the risk of CVD. The risk of CVD related to shift work is elevated for emergency medical services (EMS) shift workers due in part to long-duration shifts, frequent use of night shifts, and a high prevalence of multiple jobs. Therefore, the effect of SBP and HRV in EMS night shift workers is analyzed through stimulated night work and it's effect on CVD is characterized.


2021 ◽  
Vol 3 (4) ◽  
pp. 624-632
Author(s):  
Viacheslav V. Krylov

The influence of magnetic fields and natural geomagnetic storms on biological circadian rhythms are actively studied. This study reveals an impact of local natural perturbations in the geomagnetic field that occurred at different times of the day on circadian patterns of locomotor activity of zebrafish. A decrease in zebrafish swimming speed was observed during the geomagnetic disturbances before or after the fluctuations of diurnal geomagnetic variation. However, if the geomagnetic perturbations coincided with the fluctuations of diurnal geomagnetic variation, the decrease in zebrafish swimming speed was insignificant. This result suggests that the biological effects of geomagnetic disturbances may depend on synchronization with the diurnal geomagnetic variation. It implies that the previously published correlations between geomagnetic activity and medical or biological parameters could result from a disruption in circadian biorhythms.


Diversity ◽  
2021 ◽  
Vol 13 (12) ◽  
pp. 621
Author(s):  
Chen-Yang Tang ◽  
Meng-Huan Song ◽  
Zhong-Liang Peng ◽  
Wei Wu ◽  
Changjun Peng ◽  
...  

The visual characteristics of animals with different circadian habits, especially colubrid snakes, exhibit highly variable photoreceptor morphology. While studies have reported on the diversity in retinal cell morphology among snakes with different circadian patterns, few studies have examined the expression of genes related to vision. To explore gene expression patterns in the eyes between diurnal and nocturnal snakes, we carried out RNA sequencing of six tissues (eye, heart, liver, lung, kidney, and muscle) in two colubrids with disparate circadian activities, i.e., diurnal Ahaetulla prasina and nocturnal Lycodon flavozonatum, followed by weighted gene co-expression network analysis (WGCNA). The genes in the two most correlated modules were primarily enriched in different functional pathways, thus suggesting different biological functions. Three opsin genes (RH1, LWS, and SWS) were differentially expressed between the two species. Moreover, in the phototransduction pathway, different genes were highly expressed in the eyes of both species, reflecting specific expression patterns in the eyes of snakes with different circadian activity. We also confirmed the dominance of cone- and rod-related genes in diurnal and nocturnal adaptation, respectively. This work provides an important foundation for genetic research on visual adaptation in snakes and provides further insight into the adaptive evolution of such species.


2021 ◽  
Vol 22 (1) ◽  
Author(s):  
Ruixue Hou ◽  
Lewis E. Tomalin ◽  
Mayte Suárez-Fariñas

Abstract Background Wearable devices enable monitoring and measurement of physiological parameters over a 24-h period, and some of which exhibit circadian rhythm characteristics. However, the currently available R package cosinor could only analyze daily cross-sectional data and compare the parameters between groups with two levels. To evaluate longitudinal changes in the circadian patterns, we need to extend the model to a mixed-effect model framework, allowing for random effects and interaction between COSINOR parameters and time-varying covariates. Results We developed the cosinoRmixedeffects R package for modelling longitudinal periodic data using mixed-effects cosinor models. The model allows for covariates and interactions with the non-linear parameters MESOR, amplitude, and acrophase. To facilitate ease of use, the package utilizes the syntax and functions of the widely used emmeans package to obtain estimated marginal means and contrasts. Estimation and hypothesis testing involving the non-linear circadian parameters are carried out using bootstrapping. We illustrate the package functionality by modelling daily measurements of heart rate variability (HRV) collected among health care workers over several months. Differences in circadian patterns of HRV between genders, BMI, and during infection with SARS-CoV2 are evaluated to illustrate how to perform hypothesis testing. Conclusion cosinoRmixedeffects package provides the model fitting, estimation and hypothesis testing for the mixed-effects COSINOR model, for the linear and non-linear circadian parameters MESOR, amplitude and acrophase. The model accommodates factors with any number of categories, as well as complex interactions with circadian parameters and categorical factors.


2021 ◽  
Author(s):  
Viacheslav V. Krylov ◽  
Evgeny I. Izvekov ◽  
Vera V. Pavlova ◽  
Natalia A. Pankova ◽  
Elena A. Osipova

AbstractThe locomotor activity of zebrafish (Danio rerio) has a pronounced, well-studied circadian rhythm. Under constant illumination, the period of free-running locomotor activity in this species usually becomes less than 24 hours. To evaluate the entraining capabilities of slow magnetic variations, zebrafish locomotor activity was evaluated at constant illumination and fluctuating magnetic field with a period of 26.8 hours. Lomb-Scargle periodogram revealed significant free-running rhythms of locomotor activity and related behavioral endpoints with a period close to 27 hours. Obtained results reveal the potential of slow magnetic fluctuations for entrainment of the circadian rhythms in zebrafish. The putative mechanisms responsible for the entrainment are discussed, including the possible role of cryptochromes.


2021 ◽  
Author(s):  
Daniel Hoces ◽  
Jiayi Lan ◽  
Sun Wenfei ◽  
Tobias Geiser ◽  
Markus Arnoldini ◽  
...  

SUMMARYMicrobiota composition correlates with host metabolic health in both humans and mice. Here we investigated the extent to which a gnotobiotic microbiota can mimic the influence of a complete microbiota on mouse metabolism using an isolator-housed TSE-PhenoMaster® system. We found that energy expenditure was equivalent between germ-free (GF) and specific-opportunistic-pathogen free line (SPF) mice, and we extend this observation to the OligoMM12 microbiota (12 species across 5 phyla that are naturally abundant in a murine gut microbiota). Moreover, microbiota-released calories were well compensated by food intake in all groups. However, each group of mice have a distinctive circadian metabolic profile. OligoMM12 clustered with GF during the light phase, but with SPF during the dark phase for both RER and metabolome. Therefore, interactions between the host and a reductionist microbiota are non-uniform over the circadian cycle, revealing a promising tool to identify key microbiota species/functions that modify host metabolism.


Hypertension ◽  
2021 ◽  
Vol 78 (Suppl_1) ◽  
Author(s):  
Leon J DeLalio ◽  
Sean D Stocker

Renal sensory nerves contribute to hypertension and renal dysfunction in chronic kidney disease. Selective chemokines (e.g., bradykinin or capsaicin) activate renal sensory nerves and produce reflexive efferent sympathetic nerve activity (SNA) and arterial blood pressure (ABP) responses. SNA, ABP, and renal function exhibit circadian patterns; yet the impact of circadian cycle on chemosensitive responses is unknown. We hypothesized that SNA and hemodynamic responses would be greater during the active phrase or nighttime versus the inactive phase or daytime. In Inactin anesthetized rats, simultaneous renal and splanchnic SNA and ABP were measured during intrarenal arterial infusion of capsaicin or bradykinin (0.1 μM - 30.0 μM; 50 μl over 15 s) at nighttime (N; 20:00-04:00; n= 12M, 10F) versus daytime (D; 09:00-16:00; n= 8M, 8F). Baseline mean ABP was significantly elevated during nighttime (N: 104±2 mmHg; D: 97±2 mmHg, p=0.04). Intrarenal capsaicin infusion produced concentration-dependent increases in renal and splanchnic SNA. Renal SNA increased more at nighttime versus daytime at 10 μM (N: 723±136 vs D: 409±79 %; p=0.03) and 30 μM (N: 826±181 vs D: 509±80 %; p=0.03). Similarly, splanchnic SNA was greater during nighttime versus daytime at 10 μM (N: 501±117 vs D: 204±53 %, p=0.03) and 30 μM (N: 537±101 vs D: 295±68 %; p=0.03). However, ABP responses were similar between nighttime versus daytime (30uM: 7±1 vs 6±1 mmHg, respectively). Intrarenal infusion of bradykinin produced concentration-dependent increases in renal and splanchnic SNA. Renal SNA increased more at nighttime versus daytime at 10 μM (N: 1773±216 vs D: 1249±112 %; p=0.01) and 30 μM (N: 2605±263 vs D: 1783±163 %; p=0.001). Similarly, splanchnic SNA was exaggerated at nighttime versus daytime at 0.1 μM (N: 163±65 vs D: 0±0 %; p=0.02), 1.0 μM (N: 566±114 vs D: 184±52 %; p=0.005), 10 μM (N: 1110±193 vs D: 583±87 %; p=0.006) and 30 μM (N: 2008±193 vs D: 1044±162 %; p<0.001). ABP response were similar between nighttime versus daytime at 30 μM (10±2 vs 6±1 mmHg, respectively). Circadian cycle exaggerates sympathoexcitatory responses produced by chemosensitive renal sensory nerve activation.


2021 ◽  
Author(s):  
Zhi-Hao Li ◽  
Pei-Dong Zhang ◽  
Qing Chen ◽  
Xiang Gao ◽  
Vincent CH Chung ◽  
...  

Objective To examine the association of incident type 2 diabetes (T2D) risk with sleep factors, genetic risk, and their combination effects. Design Large prospective population-based cohort study. Methods This population-based prospective cohort study included 360 403 (mean [SD] age: 56.6 [8.0] years) participants without T2D at baseline from the UK Biobank. Genetic risk was categorized as high (highest quintile), intermediate (quintiles 2 to 4), and low (lowest quintile) based on a polygenic risk score for T2D. Sleep scores, including long or short sleep duration, insomnia, snoring, late chronotype, and excessive daytime sleepiness, were categorized as an unfavourable, intermediate, or favourable sleep and circadian pattern. Results During a median follow-up of 9.0 years, 13 120 incident T2D cases were recorded. Among the participants with an unfavourable sleep and circadian pattern, 6.96% (95% CI, 6.68%–7.24%) developed T2D versus 2.37% (95% CI, 2.28%–2.46%) of participants with a favourable sleep and circadian pattern (adjusted HR: 1.53, 95% CI: 1.45–1.62). Of participants with a high genetic risk, 5.53% (95% CI, 5.36%–5.69%) developed T2D versus 2.01% (95% CI, 1.91%–2.11%) of participants with a low genetic risk (adjusted HR: 2.89, 95% CI: 2.72–3.07). The association with sleep and circadian patterns was independent of genetic risk strata. Participants in the lowest quintile with an unfavourable sleep and circadian pattern were 3.97-fold more likely to develop T2D than those in the lowest quintile with a favourable sleep and circadian pattern. Conclusions Sleep and circadian patterns and genetic risk were independently associated with incident T2D. These results indicate the benefits of adhering to a healthy sleep and circadian pattern in entire populations, independent of genetic risk.


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