Luxotonic signals in human prefrontal cortex as a possible substrate for effects of light on mood and cognition

Sabbah, Shai; Worden, Michael S.; Laniado, Dimitrios D.; Berson, David M.; Sanes, Jerome N.

doi:10.1073/pnas.2118192119

Cited by 14 publications

(9 citation statements)

References 98 publications

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“…This suggests that the amount of visible sky is the strongest predictor in the context of the other green space variables, which may be seen as arguing in favor of the idea that sunlight/brightness is the most prominent driving mechanism of the observed brain effects. Recent research demonstrating the light sensitivity of the prefrontal cortex in humans, might be interpreted to support this notion (Sabbah et al, 2022). The authors of this study state that their findings offer a functional link between light exposure and PFC-mediated cognitive and affective phenomena.…”

Section: Discussionmentioning

confidence: 97%

Green Is Not the Same as Green: Differentiating Between the Association of Trees and Open Green Spaces With Children’s Brain Structure in the Netherlands

Kühn

Schmalen

Beijers

et al. 2023

Environment and Behavior

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There is accumulating evidence for positive effects of green spaces on mental and brain health. Here we investigated whether differentiating the types of green spaces may be relevant. On longitudinal data of children ( N = 95) from the Netherlands, we quantified the link between green space exposure at home from birth onwards and MRI brain structure at 12.5 years. We differentiated between green space resulting from trees versus open green spaces and also associated visibility of sky (sky view factor) with brain structure (200 m buffer around home address). We observed a positive association between grey matter volume in different prefrontal clusters and green open space coverage as well as sky view, but a negative association within prefrontal clusters for tree cover density. Most importantly, in the medial prefrontal cortex, the only region in which all three analyses overlapped, the visibility of sky was the most important predictor. Our findings advance knowledge on health-promoting, evidence-based urban planning.

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Section: Discussionmentioning

confidence: 97%

Green Is Not the Same as Green: Differentiating Between the Association of Trees and Open Green Spaces With Children’s Brain Structure in the Netherlands

Kühn

Schmalen

Beijers

et al. 2023

Environment and Behavior

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“…Moreover, manipulation of the transmission of light signals to the mPFC alters depression-like behaviours in animals 10 , distinct light colours differentially decrease negative mood and increase amygdala-PFC connectivity in humans 11 , and bright light leads to enhanced fear extinction together with suppression of fear acquisition, both being accompanied by light-associated modulation of mPFC activity 12 . We have recently further reported activity corresponding with the intensity of light in several gross regions of the human mPFC 13 . The substrate of such correspondence however, i.e., an ability of mPFC neurons to encode light-intensity, remains unclear.…”

Section: Introductionmentioning

confidence: 87%

Prefrontal cortex neurons encode ambient light intensity differentially across regions and layers

Zangen,

Hadar,

Lawrence

et al. 2024

Nat Commun

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While light can affect emotional and cognitive processes of the medial prefrontal cortex (mPFC), no light-encoding was hitherto identified in this region. Here, extracellular recordings in awake mice revealed that over half of studied mPFC neurons showed photosensitivity, that was diminished by inhibition of intrinsically photosensitive retinal ganglion cells (ipRGCs), or of the upstream thalamic perihabenular nucleus (PHb). In 15% of mPFC photosensitive neurons, firing rate changed monotonically along light-intensity steps and gradients. These light-intensity-encoding neurons comprised four types, two enhancing and two suppressing their firing rate with increased light intensity. Similar types were identified in the PHb, where they exhibited shorter latency and increased sensitivity. Light suppressed prelimbic activity but boosted infralimbic activity, mirroring the regions’ contrasting roles in fear-conditioning, drug-seeking, and anxiety. We posit that prefrontal photosensitivity represents a substrate of light-susceptible, mPFC-mediated functions, which could be ultimately studied as a therapeutical target in psychiatric and addiction disorders.

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“…Recently, an fMRI study has reported reduced PFC activity (including the subgenual anterior cingulate cortex and orbitofrontal gyrus) in response to light as a function of luminance level. The suppressed brain activity is similar to the impact of chemical antidepressants, which could indicate the anti-depressive role of light in the PFC subregions [ 161 ].…”

Section: Emotional Processing and Moodmentioning

confidence: 99%

Light as a Modulator of Non-Image-Forming Brain Functions—Positive and Negative Impacts of Increasing Light Availability

2023

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Light use is rising steeply, mainly because of the advent of light-emitting diode (LED) devices. LEDs are frequently blue-enriched light sources and may have different impacts on the non-image forming (NIF) system, which is maximally sensitive to blue-wavelength light. Most importantly, the timing of LED device use is widespread, leading to novel light exposure patterns on the NIF system. The goal of this narrative review is to discuss the multiple aspects that we think should be accounted for when attempting to predict how this situation will affect the NIF impact of light on brain functions. We first cover both the image-forming and NIF pathways of the brain. We then detail our current understanding of the impact of light on human cognition, sleep, alertness, and mood. Finally, we discuss questions concerning the adoption of LED lighting and screens, which offer new opportunities to improve well-being, but also raise concerns about increasing light exposure, which may be detrimental to health, particularly in the evening.

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Luxotonic signals in human prefrontal cortex as a possible substrate for effects of light on mood and cognition

Cited by 14 publications

References 98 publications

Green Is Not the Same as Green: Differentiating Between the Association of Trees and Open Green Spaces With Children’s Brain Structure in the Netherlands

Green Is Not the Same as Green: Differentiating Between the Association of Trees and Open Green Spaces With Children’s Brain Structure in the Netherlands

Prefrontal cortex neurons encode ambient light intensity differentially across regions and layers

Light as a Modulator of Non-Image-Forming Brain Functions—Positive and Negative Impacts of Increasing Light Availability

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