Red‐light‐induced suppression of melatonin synthesis is mediated by <i>N</i>‐methyl‐<scp>D</scp>‐aspartate receptor activation in retinally normal and retinally degenerate rats

Pöeggeler, Burkhard; Barlow‐Walden, Lornell; Reíter, Russel J.; Saarela, Seppo; Menéndez-Peláez, Armando; Yaga, Ken; Manchester, Lucien C.; Chen, Li-Dun

doi:10.1002/neu.480280102

Cited by 30 publications

(12 citation statements)

References 18 publications

(30 reference statements)

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“…At long wavelengths, previously published data are often contradictory regarding the inhibitory effects of LAN in some rodent species (Vanecek and Illnerova, 1982;Poeggeler et al, 1995;Hanifin et al, 2006), and in some data there is a lack of a well-defined pattern of effects (Cardinali et al, 1972;Brainard et al, 1984;Benshoff et al, 1987). Our results demonstrated no clear sensitivity in MLT levels of M. socialis to LAN at 679nm (red), indicating a marginal role for red-shifted retinal photoreceptors, such as NIFPRs, ) at three different wavelengths at increasing durations of acclimation (1day, 1week and 3weeks) starting from control levels.…”

Section: Discussion Upr and 6-smt Daily Rhythmsmentioning

confidence: 99%

Spectral and duration sensitivity to light-at-night in ‘blind’ and sighted rodent species

Zubidat

Nelson

Haim

2011

Journal of Experimental Biology

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SUMMARYLight-at-night (LAN) has become a defining feature of human and animal ecosystems and may possibly compromise human and animal physiology and health. Spectral and acclimation duration (AD) sensitivity were compared between social voles (Microtus socialis) and 'blind' mole rats (Spalax ehrenbergi) in four increasing ADs (0, 1, 7 and 21days) to LAN (1ϫ30min, 293Wcm -2 ) of three different monochromatic lights [blue (479nm), yellow (586nm) and red (697nm)]. Animals were sampled for urine and oxygen consumption (V O2 ) promptly after each LAN-AD. Urine samples were analyzed for production rate, urinary 6-sulfatoxymelatonin and urinary metabolites of adrenalin and cortisol. Overall, the blue light elicited the greatest effects on the biological markers of M. socialis, whereas similar effects were detected for S. ehrenbergi in response to red light. The increasing LAN-AD resulted in a dose-dependent decrement of all markers tested, except of stress hormones, which showed a direct positive correlation with LAN-AD. Our results suggest that: (1) photoperiod is an important cue for entraining physiological functions in the 'blind' S. ehrenbergi, which is essentially characterized by red-shifted sensitivity compared with the blue-shifted sensitivity detected for the sighted counterpart species, and (2) there is a strong association between LAN of the appropriate wavelength and adrenal endocrine responses, suggesting that LAN is a potential environmental stressor. Supplementary material available online at

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Section: Discussion Upr and 6-smt Daily Rhythmsmentioning

confidence: 99%

Spectral and duration sensitivity to light-at-night in ‘blind’ and sighted rodent species

Zubidat

Nelson

Haim

2011

Journal of Experimental Biology

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“…The neuronal pathway from the retina to the SCN (via the retinohypothalamic tract) mediates the suppressive effect of light and the entrainment of the melatonin rhythm to the light/dark cycle (Moore and Lenn 1972). Previous studies have indicated that excitatory amino acids may be involved in photic entrainment of circadian rhythms and melatonin production (Cowell et al 1991;Ohi et al 1993;Poeggeler et al 1995). Further studies have shown that glutamate, the dominant excitatory neurotransmitter in the central nervous system, mediates photic entrainment (DeVries et al 1993).…”

Section: Discussionmentioning

confidence: 99%

“…Pharmacological studies have revealed that antagonists of postsynaptic receptors that mediate the actions of this neurotransmitter block the light induced suppression of melatonin (Cowell et al 1991;Ohi et al 1993). Hypothalamic N -methyl-D -aspartate (NMDA) receptors coupled to a nitric oxide/cGMP signaling pathway have been identified (Amir 1992;Cowell et al 1990;Mikkelsen et al 1995;Poeggeler et al 1995). The observed supersensitivity to light in patients with BD and SAD may thus be related to a NMDA receptor mediated mechanism.…”

Section: Discussionmentioning

confidence: 99%

Melatonin Sensitivity to Dim White Light in Affective Disorders

Nathan

Burrows

Norman

1999

Neuropsychopharmacology

107

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“…Previous studies have indicated that excitatory amino acids may be involved in photic entrainment of circadian rhythms and melatonin production (Cowell et al, 1990 ;Mikkelsen et al, 1995 ;Ohi et al, 1993 ;Poeggeler et al, 1995). Further studies have shown that glutamate, the dominant excitatory neurotransmitter in the central nervous system mediates photic entrainment (DeVries et al, 1993).…”

Section: Discussionmentioning

confidence: 96%

Subsensitive melatonin suppression by dim white light: possible biological marker of panic disorder

Nathan

Burrows

Norman

1998

Int. J. Neuropsychopharm.

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Light is involved in providing entrainment of circadian rhythms and the suppression of the pineal hormone melatonin. In patients with affective disorders, there have been indications of circadian as well as seasonal variation in illness, which may be reflected in melatonin production. Varying sensitivity to light has been noted within healthy individuals as well as in some patients with affective disorders. Recent evidence suggests that patients with panic disorder may have an altered and phase-delayed melatonin rhythm. The present study examined the nocturnal plasma melatonin rhythm in patients with panic disorder, and also examined their melatonin sensitivity to dim light. The melatonin rhythm was examined in 6 patients with panic disorder and 8 controls. The melatonin sensitivity to dim white light (200 lx) was examined in 8 patients with panic disorder and 63 controls and was compared to that of a group of 7 patients with other anxiety disorders. Patients with panic disorder demonstrated a trend towards higher and delayed peak melatonin levels compared to controls. Patients with panic disorder also had a subsensitive melatonin suppression by dim white light, compared to controls and patients with other anxiety disorders (p<0.005). The phase-delayed circadian rhythm observed in patients with panic disorder may be secondary to the subsensitivity of the melatonin response to light. It is hypothesized that the subsensitivity may be due to abnormal neurotransmitter/receptor systems involved in regulation of melatonin suppression and circadian rhythmicity, and may lead to phase- delayed circadian rhythms. The melatonin subsensitivity to light may be used as a biological marker of panic disorder.

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Red‐light‐induced suppression of melatonin synthesis is mediated by N‐methyl‐D‐aspartate receptor activation in retinally normal and retinally degenerate rats

Cited by 30 publications

References 18 publications

Spectral and duration sensitivity to light-at-night in ‘blind’ and sighted rodent species

Spectral and duration sensitivity to light-at-night in ‘blind’ and sighted rodent species

Melatonin Sensitivity to Dim White Light in Affective Disorders

Subsensitive melatonin suppression by dim white light: possible biological marker of panic disorder

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