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Author Wang, H.-B.; Whittaker, D.S.; Truong, D.; Mulji, A.K.; Ghiani, C.A.; Loh, D.H.; Colwell, C.S. url  doi
openurl 
  Title Blue light therapy improves circadian dysfunction as well as motor symptoms in two mouse models of Huntington's disease Type Journal Article
  Year 2017 Publication Neurobiology of Sleep and Circadian Rhythms Abbreviated Journal Neurobiology of Sleep and Circadian Rhythms  
  Volume 2 Issue Pages 39-52  
  Keywords (up) animals; Human Health  
  Abstract Patients with Huntington's disease (HD) exhibit movement disorders, psychiatric disturbance and cognitive impairments as the disease progresses. Abnormal sleep/wake cycles are common among HD patients with reports of delayed sleep onset, fatigue during the day, and a delayed pattern of melatonin secretion all of which suggest circadian dysfunction. Mouse models of HD confirm disrupted circadian rhythms with pathophysiology found in the central circadian clock (suprachiasmatic nucleus). Importantly, circadian dysfunction manifests early in disease, even before the classic motor symptoms, in both patients and mouse models. Therefore, we hypothesize that the circadian dysfunction may interact with the disease pathology and exacerbate the HD symptoms. If correct, early intervention may benefit patients and delay disease progression. One test of this hypothesis is to determine whether light therapy designed to strengthen this intrinsic timing system can delay the disease progression in mouse models. Therefore, we determined the impact of blue wavelength-enriched light on two HD models: the BACHD and Q175 mice. Both models received 6 hours of blue-light at the beginning of their daily light cycle for 3 months. After treatment, both genotypes showed improvements in their locomotor activity rhythm without significant change to their sleep behavior. Critically, treated mice of both lines exhibited improved motor performance compared to untreated controls. Focusing on the Q175 genotype, we sought to determine whether the treatment altered signaling pathways in brain regions known to be impacted by HD using NanoString gene expression assays. We found that the expression of several HD relevant markers was altered in the striatum and cortex of the treated mice. Our study demonstrates that strengthening the circadian system can delay the progression of HD in pre-clinical models. This work suggests that lighting conditions should be considered when managing treatment of HD and other neurodegenerative disorders.  
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  ISSN 2451-9944 ISBN Medium  
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  Notes Approved no  
  Call Number LoNNe @ kyba @ Serial 1626  
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Author Sheppard, A.D.; Rund, S.S.C.; George, G.F.; Clark, E.; Acri, D.J.; Duffield, G.E. url  doi
openurl 
  Title Light manipulation of mosquito behaviour: acute and sustained photic suppression of biting activity in the Anopheles gambiae malaria mosquito Type Journal Article
  Year 2017 Publication Parasites & Vectors Abbreviated Journal Parasit Vectors  
  Volume 10 Issue 1 Pages 255  
  Keywords (up) Animals; Human Health  
  Abstract BACKGROUND: Host-seeking behaviours in anopheline mosquitoes are time-of-day specific, with a greater propensity for nocturnal biting. We investigated how a short exposure to light presented during the night or late day can inhibit biting activity and modulate flight activity behaviour. RESULTS: Anopheles gambiae (s.s.), maintained on a 12:12 LD cycle, were exposed transiently to white light for 10-min at the onset of night and the proportion taking a blood meal in a human biting assay was recorded every 2 h over an 8-h duration. The pulse significantly reduced biting propensity in mosquitoes 2 h following administration, in some trials for 4 h, and with no differences detected after 6 h. Conversely, biting levels were significantly elevated when mosquitoes were exposed to a dark treatment during the late day, suggesting that light suppresses biting behaviour even during the late daytime. These data reveal a potent effect of a discrete light pulse on biting behaviour that is both immediate and sustained. We expanded this approach to develop a method to reduce biting propensity throughout the night by exposing mosquitoes to a series of 6- or 10-min pulses presented every 2 h. We reveal both an immediate suppressive effect of light during the exposure period and 2 h after the pulse. This response was found to be effective during most times of the night: however, differential responses that were time-of-day specific suggest an underlying circadian property of the mosquito physiology that results in an altered treatment efficacy. Finally, we examined the immediate and sustained effects of light on mosquito flight activity behaviour following exposure to a 30-min pulse, and observed activity suppression during early night, and elevated activity during the late night. CONCLUSIONS: As mosquitoes and malaria parasites are becoming increasingly resistant to insecticide and drug treatment respectively, there is a necessity for the development of innovative control strategies beyond insecticide-treated nets (ITNs) and residual spraying. These data reveal the potent inhibitory effects of light exposure and the utility of multiple photic pulses presented at intervals during the night/late daytime, may prove to be an effective tool that complements established control methods.  
  Address Department of Biological Sciences and Eck Institute for Global Health, Galvin Life Science Center, University of Notre Dame, Notre Dame, IN, 46556, USA. duffield.2@nd.edu  
  Corporate Author Thesis  
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  Language English Summary Language Original Title  
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  Series Volume Series Issue Edition  
  ISSN 1756-3305 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:28619089 Approved no  
  Call Number LoNNe @ kyba @ Serial 1670  
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Author Shinobu Yasuo, Ayaka Iwamoto, Sang-il Lee, Shotaro Ochiai, Rina Hitachi, Satomi Shibata, Nobuo Uotsu, Chie Tarumizu, Sayuri Matsuoka, Mitsuhiro Furuse, Shigekazu Higuchi url  doi
openurl 
  Title L-Serine Enhances Light-Induced Circadian Phase Resetting in Mice and Humans Type Journal Article
  Year 2017 Publication Journal of Nutrition Abbreviated Journal  
  Volume 147 Issue 12 Pages 2347-2355  
  Keywords (up) Animals; Human Health  
  Abstract Background: The circadian clock is modulated by the timing of ingestion or food composition, but the effects of specific nutrients are poorly understood.

Objective: We aimed to identify the amino acids that modulate the circadian clock and reset the light-induced circadian phase in mice and humans.

Methods: Male CBA/N mice were orally administered 1 of 20 L-amino acids, and the circadian and light-induced phase shifts of wheel-running activity were analyzed. Antagonists of several neurotransmitter pathways were injected before L-serine administration, and light-induced phase shifts were analyzed. In addition, the effect of L-serine on the light-induced phase advance was investigated in healthy male students (mean ± SD age 22.2 ± 1.8 y) by using dim-light melatonin onset (DLMO) determined by saliva samples as an index of the circadian phase.

Results: L-Serine administration enhanced light-induced phase shifts in mice (1.86-fold; P < 0.05). Both L-serine and its metabolite D-serine, a coagonist of N-methyl-D-aspartic acid (NMDA) receptors, exerted this effect, but D-serine concentrations in the hypothalamus did not increase after L-serine administration. The effect of L-serine was blocked by picrotoxin, an antagonist of &#947;-aminobutyric acid A receptors, but not by MK801, an antagonist of NMDA receptors. L-Serine administration altered the long-term expression patterns of clock genes in the suprachiasmatic nuclei. After advancing the light-dark cycle by 6 h, L-serine administration slightly accelerated re-entrainment to the shifted cycle. In humans, L-serine ingestion before bedtime induced significantly larger phase advances of DLMO after bright-light exposure during the morning (means ± SEMs—L-serine: 25.9 ± 6.6 min; placebo: 12.1 ± 7.0 min; P < 0.05).

Conclusion: These results suggest that L-serine enhances light-induced phase resetting in mice and humans, and it may be useful for treating circadian disturbances.
 
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  Call Number LoNNe @ kyba @ Serial 1784  
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Author Kronauer, R.E.; St Hilaire, M.A.; Rahman, S.A.; Czeisler, C.A.; Klerman, E.B. url  doi
openurl 
  Title An Exploration of the Temporal Dynamics of Circadian Resetting Responses to Short- and Long-Duration Light Exposures: Cross-Species Consistencies and Differences Type Journal Article
  Year 2019 Publication Journal of Biological Rhythms Abbreviated Journal J Biol Rhythms  
  Volume 34 Issue 5 Pages 497-514  
  Keywords (up) Animals; Human Health  
  Abstract Light is the most effective environmental stimulus for shifting the mammalian circadian pacemaker. Numerous studies have been conducted across multiple species to delineate wavelength, intensity, duration, and timing contributions to the response of the circadian pacemaker to light. Recent studies have revealed a surprising sensitivity of the human circadian pacemaker to short pulses of light. Such responses have challenged photon counting-based theories of the temporal dynamics of the mammalian circadian system to both short- and long-duration light stimuli. Here, we collate published light exposure data from multiple species, including gerbil, hamster, mouse, and human, to investigate these temporal dynamics and explore how the circadian system integrates light information at both short- and long-duration time scales to produce phase shifts. Based on our investigation of these data sets, we propose 3 new interpretations: (1) intensity and duration are independent factors of total phase shift magnitude, (2) the possibility of a linear/log temporal function of light duration that is universal for all intensities for durations less than approximately 12 min, and (3) a potential universal minimum light duration of ~0.7 sec that describes a “dead zone” of light stimulus. We show that these properties appear to be consistent across mammalian species. These interpretations, if confirmed by further experiments, have important practical implications in terms of understanding the underlying physiology and for the design of lighting regimens to reset the mammalian circadian pacemaker.  
  Address Division of Sleep and Circadian Disorders, Departments of Medicine and Neurology, Brigham and Women's Hospital, Boston, Massachusetts  
  Corporate Author Thesis  
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  Language English Summary Language Original Title  
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  ISSN 0748-7304 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:31368391 Approved no  
  Call Number GFZ @ kyba @ Serial 2600  
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Author Kernbach, M.E.; Newhouse, D.J.; Miller, J.M.; Hall, R.J.; Gibbons, J.; Oberstaller, J.; Selechnik, D.; Jiang, R.H.Y.; Unnasch, T.R.; Balakrishnan, C.N.; Martin, L.B. url  doi
openurl 
  Title Light pollution increases West Nile virus competence of a ubiquitous passerine reservoir species Type Journal Article
  Year 2019 Publication Proceedings. Biological Sciences Abbreviated Journal Proc Biol Sci  
  Volume 286 Issue 1907 Pages 20191051  
  Keywords (up) Animals; Human Health; anthropogenic; ecoimmunology; host competence; light pollution; reservoir host  
  Abstract Among the many anthropogenic changes that impact humans and wildlife, one of the most pervasive but least understood is light pollution. Although detrimental physiological and behavioural effects resulting from exposure to light at night are widely appreciated, the impacts of light pollution on infectious disease risk have not been studied. Here, we demonstrate that artificial light at night (ALAN) extends the infectious-to-vector period of the house sparrow (Passer domesticus), an urban-dwelling avian reservoir host of West Nile virus (WNV). Sparrows exposed to ALAN maintained transmissible viral titres for 2 days longer than controls but did not experience greater WNV-induced mortality during this window. Transcriptionally, ALAN altered the expression of gene regulatory networks including key hubs (OASL, PLBD1 and TRAP1) and effector genes known to affect WNV dissemination (SOCS). Despite mounting anti-viral immune responses earlier, transcriptomic signatures indicated that ALAN-exposed individuals probably experienced pathogen-induced damage and immunopathology, potentially due to evasion of immune effectors. A simple mathematical modelling exercise indicated that ALAN-induced increases of host infectious-to-vector period could increase WNV outbreak potential by approximately 41%. ALAN probably affects other host and vector traits relevant to transmission, and additional research is needed to advise the management of zoonotic diseases in light-polluted areas.  
  Address Center for Global Health Infectious Disease Research, University of South Florida, Tampa, FL 33620, USA  
  Corporate Author Thesis  
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  Language English Summary Language Original Title  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition  
  ISSN 0962-8452 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:31337318; PMCID:PMC6661335 Approved no  
  Call Number GFZ @ kyba @ Serial 2611  
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