Melanopsin Gene Variations Interact With Season to Predict Sleep Onset and Chronotype

Roecklein, Kathryn A.; Pm, Wong; Pl, Franzen; Hasler, BP; Wm, Wood-Vasey; Vl, Nimgaonkar; Ma, Miller; Km, Kepreos; Ferrell, Ray E.; Sb, Manuck

doi:10.3109/07420528.2012.706766

Cited by 39 publications

(45 citation statements)

References 84 publications

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“…Studies of melanopsin gene variation and seasonal affective disorder suggest a potential relationship between melanopsin-mediated retinohypothalamic tract pathways and SAD (Roecklein et al, 2012, 2013b). The retinal circuitry for transmitting environmental light signals used in chronobiological functions has recently been found to involve melanopsin, a photopigment found in intrinsically photosensitive retinal ganglion cells (ipRGCs) (Guler et al, 2008; Kawasaki and Kardon, 2007).…”

Section: Introductionmentioning

confidence: 99%

“…When the retina is exposed to 485 nm wavelength light, the melanopsin-mediated pathway is activated causing signals to travel to the suprachiasmatic nucleus via the retinohypothalamic tract and also to the midbrain resulting in the PIPR. Due to the proposed relationship between the melanopsin-mediated retinohypothalamic tract pathway and SAD (Roecklein et al, 2012, 2013b), we were interested in how the melanopsin-mediated PIPR may vary based on a person's diagnosis with seasonal depression and hours of daylight at different seasons. We suspected that those vulnerable to seasonal depressive episodes would show decreased ability to transmit light signals to the brain, which could be quantifiable by comparing pupillary light reflexes.…”

Section: Introductionmentioning

confidence: 99%

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Pupillary response abnormalities in depressive disorders

Laurenzo¹,

Kardon

Ledolter

et al. 2016

Psychiatry Research

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Depressive disorders lack objective physiological measurements to characterize the affected population and facilitate study of relevant mechanisms. The melanopsin-mediated light signaling pathway may contribute to seasonal variation and can be measured non-invasively by pupillometry. We prospectively studied changes in melanopsin-mediated pupillary constriction in 19 participants with major depressive disorder (MDD) and 10 control across the summer and winter solstices. The melanopsin-mediated response, as measured by the pupil's sustained constriction six s after a high intensity blue light stimulus, was marginally attenuated in those with MDD relative to controls (p=0.071). The participants with MDD unexpectedly showed a significantly reduced transient pupillary response to low intensity red (p=0.011) and blue light (p=0.013), but not high intensity red and blue light. Sustained pupillary constriction in response to high intensity blue light was more pronounced with increasing daylight hours (p=0.037) and was more strongly related to objectively measured versus estimated light exposure. Melanopsin-mediated impairments in pupil response may serve as a biological marker for vulnerability to depression in low light conditions. Assessment of these and other responses to light stimuli, such as response to low intensity light, may be useful for the study of the neurobiology of MDD and related mood disorders.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Pupillary response abnormalities in depressive disorders

Laurenzo¹,

Kardon

Ledolter

et al. 2016

Psychiatry Research

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“…Some SAD patients differ from controls based on sequence variation in the melanopsin gene (Roecklein et al, 2009). Additionally, those variations are associated with seasonal changes in sleep timing and chronotype (Roecklein et al, 2012). Although melanopsin variations may hypothetically be the physiological basis underlying the retinal subsensitivity hypothesis, other possibilities are discussed as well.…”

Section: Introductionmentioning

confidence: 99%

“…This association was retested in a healthy sample to remove the effect of mood disorder symptoms. In 268 healthy individuals, the effects of P10L TT genotype and day length interacted to predict earlier bedtime when individuals were assessed on shorter days, and later bedtime when individuals were assessed on longer days (Roecklein et al, 2012). If replicated, and found in SAD as well, these data may indicate a specific etiological relationship between P10L, changes in sleep timing, and SAD.…”

Section: Introductionmentioning

confidence: 99%

Melanopsin, photosensitive ganglion cells, and seasonal affective disorder

Roecklein

Wong

Miller

et al. 2013

Neuroscience & Biobehavioral Reviews

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ROECKLEIN, K.A., WONG, P.M., MILLER, M.A., DONOFRY, S.D., KAMARCK, M.L., BRAINARD, G.C. Melanopsin, Photosensitive Ganglion Cells, and Seasonal Affective Disorder…NEUROSCI BIOBEHAV REV x(x) XXX-XXX, 2012. In two recent reports, melanopsin gene variations were associated with seasonal affective disorder (SAD), and in changes in the timing of sleep and activity in healthy individuals. New studies have deepened our understanding of the retinohypothalamic tract, which translates environmental light received by the retina into neural signals sent to a set of nonvisual nuclei in the brain that are responsible for functions other than sight including circadian, neuroendocrine and neurobehavioral regulation. Because this pathway mediates seasonal changes in physiology, behavior, and mood, individual variations in the pathway may explain why approximately 1–2% of the North American population develops mood disorders with a seasonal pattern (i.e., Major Depressive and Bipolar Disorders with a seasonal pattern, also known as seasonal affective disorder/SAD). Components of depression including mood changes, sleep patterns, appetite, and cognitive performance can be affected by the biological and behavioral responses to light. Specifically, variations in the gene sequence for the retinal photopigment, melanopsin, may be responsible for significant increased risk for mood disorders with a seasonal pattern, and may do so by leading to changes in activity and sleep timing in winter. The retinal sensitivity of SAD is hypothesized to be decreased compared to controls, and that further decrements in winter light levels may combine to trigger depression in winter. Here we outline steps for new research to address the possible role of melanopsin in seasonal affective disorder including chromatic pupillometry designed to measure the sensitivity of melanopsin containing retinal ganglion cells.

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“…Photosensitive retinal ganglion cells are the cells in the retina, which contain the photopigment melanopsin that project to the SCN and regulate circadian rhythms. While melanopsin polymorphisms have as yet been associated with schizophrenia, they are associated with chronotype ( Roecklein et al, 2012) and risks for seasonal affective disorder (Roecklein et al, 2009), indicating that melanopsin has both circadian and psychological effects. In the retina, dopamine levels modulate mRNA levels of melanopsin, which is likely mediated by D2 receptors (Sakamoto et al, 2005).…”

Section: Circadian Regulation Of Neurotransmitters Involved In Schizomentioning

confidence: 99%

Schizophrenia: the role of sleep and circadian rhythms in regulating dopamine and psychosis

Yates

2016

Reviews in the Neurosciences

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AbstractSchizophrenia has long been associated with abnormalities in circadian rhythms and sleep. Up until now, there have been no thorough reviews of the potential mechanisms behind the myriad of circadian and sleep abnormalities observed in schizophrenia and psychosis. We present evidence of sleep playing an important role in psychosis predominantly mediated by dopaminergic pathways. A synthesis of both human and animal experimental work suggests that the interplay between sleep and dopamine is important in the generation and maintenance of psychosis. In particular, both animal and human data point to sleep disruption increasing dopamine release and sensitivity. Furthermore, elevated dopamine levels disrupt sleep and circadian rhythms. The synthesis of knowledge suggests that circadian rhythms, dopamine dysregulation, and psychosis are intricately linked. This suggests that treatment of circadian disturbance may be a useful target in improving the lives and symptoms of patients with schizophrenia.

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Melanopsin Gene Variations Interact With Season to Predict Sleep Onset and Chronotype

Cited by 39 publications

References 84 publications

Pupillary response abnormalities in depressive disorders

Pupillary response abnormalities in depressive disorders

Melanopsin, photosensitive ganglion cells, and seasonal affective disorder

Schizophrenia: the role of sleep and circadian rhythms in regulating dopamine and psychosis

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