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Light modulation of human sleep depends on a polymorphism in the clock gene Period3.

Light modulation of human sleep depends on a polymorphism in the clock gene Period3.
Light modulation of human sleep depends on a polymorphism in the clock gene Period3.
Non-image-forming (NIF) responses to light powerfully modulate human physiology. However, it remains scarcely understood how NIF responses to light modulate human sleep and its EEG hallmarks, and if there are differences across individuals. Here we investigated NIF responses to light on sleep in individuals genotyped for the PERIOD3 (PER3) variable-number tandem-repeat (VNTR) polymorphism. Eighteen healthy young men (20–28 years; mean ± SEM: 25.9 ± 1.2) homozygous for the PER3 polymorphism were matched by age, body-mass index, and ethnicity. The study protocol comprised a balanced cross-over design during the winter, during which participants were exposed to either light of 40 lx at 6500 K (blue-enriched) or light at 2500 K (non-blue enriched), during 2 h in the evening. Compared to light at 2500 K, light at 6500 K induced a significant increase in all-night NREM sleep slow-wave activity (SWA: 1.0–4.5 Hz) in the occipital cortex for PER35/5 individuals, but not for PER34/4 volunteers. Dynamics of SWA across sleep cycles revealed increased occipital NREM sleep SWA for virtuallyall sleep episode only for PER35/5 individuals. Furthermore, they experienced light at 6500 K as significantly brighter. Intriguingly, this subjective perception of brightness significantly predicted their increased occipital SWA throughout the sleep episode. Our data indicate that humans homozygous for the PER35/5 allele are more sensitive to NIF light effects, as indexed by specific changes in sleep EEG activity. Ultimately, individual differences in NIF light responses on sleep may depend on a clock gene polymorphism involved in sleep–wake regulation.
0166-4328
23-29
Chellappa, SL
516582b5-3cba-4644-86c9-14c91a4510f2
Viola, AU
4d8ca660-83e3-4a76-bb2d-5a34030ad0d2
Schmidt, C
b24f0087-3762-429e-9769-33280a332789
Bachmann, V
423c8a35-8283-46bf-a48e-d58922b0443a
Gabel, V
e3639ba4-d09d-434d-8495-0e40b502a02e
Maire, M
42c8074b-8638-460d-8ac8-dbf8390a0b36
Reichert, CF
8beb084e-1d68-475e-8777-9e0380f0b594
Valomon, A
3e73b4df-6265-4579-8b79-889647cba236
Landolt, HP
b18ee0f2-bb4a-4007-a304-2db063ffbcb1
Cajochen, C
f605e720-e417-45dc-9b5c-244b1a1d6265
et al.
Chellappa, SL
516582b5-3cba-4644-86c9-14c91a4510f2
Viola, AU
4d8ca660-83e3-4a76-bb2d-5a34030ad0d2
Schmidt, C
b24f0087-3762-429e-9769-33280a332789
Bachmann, V
423c8a35-8283-46bf-a48e-d58922b0443a
Gabel, V
e3639ba4-d09d-434d-8495-0e40b502a02e
Maire, M
42c8074b-8638-460d-8ac8-dbf8390a0b36
Reichert, CF
8beb084e-1d68-475e-8777-9e0380f0b594
Valomon, A
3e73b4df-6265-4579-8b79-889647cba236
Landolt, HP
b18ee0f2-bb4a-4007-a304-2db063ffbcb1
Cajochen, C
f605e720-e417-45dc-9b5c-244b1a1d6265

Chellappa, SL, Viola, AU and Schmidt, C , et al. (2014) Light modulation of human sleep depends on a polymorphism in the clock gene Period3. Behavioural Brain Research, 271 (9), 23-29. (doi:10.1016/j.bbr.2014.05.050).

Record type: Article

Abstract

Non-image-forming (NIF) responses to light powerfully modulate human physiology. However, it remains scarcely understood how NIF responses to light modulate human sleep and its EEG hallmarks, and if there are differences across individuals. Here we investigated NIF responses to light on sleep in individuals genotyped for the PERIOD3 (PER3) variable-number tandem-repeat (VNTR) polymorphism. Eighteen healthy young men (20–28 years; mean ± SEM: 25.9 ± 1.2) homozygous for the PER3 polymorphism were matched by age, body-mass index, and ethnicity. The study protocol comprised a balanced cross-over design during the winter, during which participants were exposed to either light of 40 lx at 6500 K (blue-enriched) or light at 2500 K (non-blue enriched), during 2 h in the evening. Compared to light at 2500 K, light at 6500 K induced a significant increase in all-night NREM sleep slow-wave activity (SWA: 1.0–4.5 Hz) in the occipital cortex for PER35/5 individuals, but not for PER34/4 volunteers. Dynamics of SWA across sleep cycles revealed increased occipital NREM sleep SWA for virtuallyall sleep episode only for PER35/5 individuals. Furthermore, they experienced light at 6500 K as significantly brighter. Intriguingly, this subjective perception of brightness significantly predicted their increased occipital SWA throughout the sleep episode. Our data indicate that humans homozygous for the PER35/5 allele are more sensitive to NIF light effects, as indexed by specific changes in sleep EEG activity. Ultimately, individual differences in NIF light responses on sleep may depend on a clock gene polymorphism involved in sleep–wake regulation.

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Accepted/In Press date: 24 May 2014
Published date: 1 September 2014
Related URLs:
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Identifiers

Local EPrints ID: 479498
URI: http://eprints.soton.ac.uk/id/eprint/479498
DOI: doi:10.1016/j.bbr.2014.05.050
ISSN: 0166-4328
PURE UUID: 86243b45-a1f6-42cc-8263-b150a5b04e69
ORCID for SL Chellappa: ORCID iD orcid.org/0000-0002-6190-464X

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Date deposited: 25 Jul 2023 16:47
Last modified: 17 Mar 2024 04:20

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Contributors

Author: SL Chellappa ORCID iD
Author: AU Viola
Author: C Schmidt
Author: V Bachmann
Author: V Gabel
Author: M Maire
Author: CF Reichert
Author: A Valomon
Author: HP Landolt
Author: C Cajochen
Corporate Author: et al.

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