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Aberrant Light D irectly Impairs Mood and Learning Through Melanopsin-expressing Neurons. Legates, T., Altimus , C., Wang, H., Lee, H., Yang, S., Zhao, H., Kirkwood, A., Weber, T., & Hattar , S. Nature, 491 (7425), 594-598, November 2012. Learning Objectives.
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Aberrant Light Directly Impairs Mood and Learning Through Melanopsin-expressing Neurons Legates, T., Altimus, C., Wang, H., Lee, H., Yang, S., Zhao, H., Kirkwood, A., Weber, T., & Hattar, S. Nature, 491(7425), 594-598, November 2012
Learning Objectives • What makes intrinsically photosensitive retinal ganglion cells (ipRGCs) “intrinsically photosensitive”? • What properties of ipRGCs make them suited for relaying irradiance information over long periods of time? • In what ways have various subtypes of ipRGCs been differentiated? • What evidence extends the functional roles of ipRGcs beyond that of “non-image forming” (photoentrainment and pupillary light reflex)? • In what ways can circadian rhythms be measured? • In what ways could aberrant light have a direct impact on humans, despite the presence of normal sleep/circadian architecture?
Background • ipGRCs and melanopsin
Background • What is the importance of our circadian rhythm? • Link between sleep deprivation and sleep/circadian disruption well established • Can irregular light directly impact mood and cognitive functioning despite normal sleep and circadian patterns?
Methods • Animals and Housing • Adult wild-type mice (4-8 months) • aDTA mice (6 - 8 months) • By 6 months, melanopsin cell population dies • Both initially entrained to a 12:12LD cycle (T24) • One group switched to 3.5:3.5LD cycle (T7) for 2 weeks • Light held constant at ~800lux • Full Daylight is about 10,000 LUX • Cloudy day is about 1,000 LUX • A lighted parking lot at night is about 10 LUX (average) • A full moon is about 0.1 LUX
Methods (Circadian Rhythms) • Circadian timing measures • Body Temperature • Telemetric probes • General activity measure • Infrared motion detectors • 10 min samples
Methods (Circadian Rhythms) • Molecular rhythm measures (PER2 & corticosterone) • Real-time polymerase chain rection (PCR) • PCR used to detect and/or quantify target DNA molecules • PER2 immunohistochemistry • Used to detect different protein-expressions in cells of a tissue sample • Corticosteronemeasurement • Serum collected from tail blood • Differences over time, and between lighting conditions
Methods (Neuronal Activity) • Light-induced c-fos expression • indirect marker of neuronal activity • Increased c-fos mRNA can indicate recent activity • Some SCN sections were stained immunohistochemically for c-fos • Others were incubated in rabbit anti-c-fos, then mounted to slides • C-fos positive cells were counted and their area measured
Methods (Depressive-behaviors) • Sucrose Anhedonia • Anhedonia describes the loss of interest • Preference measured over 2 days after being acclimated • Forced Swim test • Immobility measured during last 4 of 6 minutes • Open Field test • Percent distance traveled and time in center measured
Methods (Anxiety-related behaviors) • Light-dark Box • Bright (600 lux) and dim (<1lux) areas • # of transitions b/t areas, time spent in lit room, and distance traveled • Elevated Plus maze • Open arms (~600 lux) / Closed (~200lux) • Time spent / distance traveled in open arms measured
Methods (Spatial Memory) • Morris Water Maze • Hippocampal-dependent task • Four stages of testing over 12 days total • Visual • Used to familiarize mice with test • Also a screen for floating behaviors • Acquisition • Trained 1 trial/day for 12 days to find platform • Used 4 visual distal cues surrounding the pool • Probe • Platform removed on Day 13 • Time in target quadrant measured* • Reversal • Platform moved to opposite quadrant on Day 14 • Mice trained as done in first acquisition phase
Methods (Recognition memory) • Previous testing ensured • 3 Stages • Acclimation to arena • Familiar object exposure • 10 min, then returned to home • Novel object exposure • After 1 hour, placed back in arena (5 min) • Percent of time spent w/ each object measured
Methods (Long-term potentiation) • Coronal hippocampal slices • Synaptic responses evoked after 20 min baseline • LTP induced by theta burst stimulation (TBS) • 1 or 4 theta epochs @ 0.1 Hz • Each epoch, 10 trains of 4 100Hz pulses • Long-term depression induced by low frequency stimulation (1Hz, 15 min) • Experimenters also blind to treatment of animals • Fiber volley differences measured • Indirect measure of the # of axons firing an action potential
Methods (Drug Treatments) • Fluoxetine administration • Chronic / Subchronictreatments • 3 weeks of 18 mg/kg/day • 4 days of 18 mg/kg/day • Dosages based on weight of mouse & average amount of water consumed/day • Amounts consumed per mouse measured during treatments • Mice house in T7 cycle returned for 2 weeks after treatment before testing • Desipramine administration • 16 mg/kg 24-hours and 1-hour prior to novel object recognition paradigm
Figure 1. Aberrant light increases depression-like behavior and corticosterone levels
Figure 2. Aberrant light impairs hippocampal learning, LTP, and recognition memory
Figure 3. Chronic antidepressant administration rescues learning
Figure 4. ipRGCs mediate impairment of mood and learning by aberrant light
Conclusions • Aberrant light can directly influence mood and learning despite normal sleep/circadian rhythms • Light detection in ipRGCs may be mediating the deficits observed • Antidepressant medications can alleviate the deficits caused by disruptive light environments • T7 light cycle can serve as an alternative experimental paradigm for studying depression
Future research? • What subtypes of ipRGCs are responsible for relaying the aberrant light information? • To what areas of the brain is the input about aberrant light being relayed; how is it influencing those areas? • Can varying light intensities mediate different degrees of the cognitive deficiency? • How long does aberrant light have to persist to cause deficiencies? • Why are depressive behaviors and learning influenced, but not anxiety-related behaviors? • Which of the two antidepressants worked better and how are they alleviating the deficiencies? • Can a change from T7 back to T24 reverse deficits as well? • How clinically relevant are these findings? • In what situation would a person find themselves in a light pattern similar to the T7 light cycle (3.5hr light/3.5hr dark)?
Learning Objectives • How are intrinsically photosensitive retinal ganglion cells (ipRGCs) “intrinsically photosensitive”? • What properties of ipRGCs make them suited for relaying irradiance information over long periods of time? • In what ways are the various subtypes of ipRGCs differentiated? • What evidence is there to extend the functional role of some ipRGC subtypes beyond “non-image forming”? • Despite normal circadian rhythms, what effects can aberrant light have on individuals mood and learning via ipRGCs?