The genetic basis for daytime napping

The genetic basis for daytime napping


How often a person takes daytime naps, if at all, is partly regulated by their genes, according to new research published in Nature Communications. In this study, the largest of its kind ever conducted, the team identified dozens of gene regions that govern the tendency to take naps during the day. They also uncovered preliminary evidence linking napping habits to cardiometabolic health.

"Napping is somewhat controversial," says co-lead author of the report. The author notes that some countries where daytime naps have long been part of the culture (such as Spain) now discourage the habit. Meanwhile, some companies in the United States now promote napping as a way to boost productivity. "It was important to try to disentangle the biological pathways that contribute to why we nap," says the author.

Previously, co-senior author used massive databases of genetic and lifestyle information to study other aspects of sleep. Notably, the team has identified genes associated with sleep duration, insomnia, and the tendency to be an early riser or "night owl." To gain a better understanding of the genetics of napping, the team performed a genome-wide association study (GWAS), which involves rapid scanning of complete sets of DNA, or genomes, of a large number of people. The goal of a GWAS is to identify genetic variations that are associated with a specific disease or, in this case, habit.

For this study, the researchers used data from the UK Biobank, which includes genetic information from 452,633 people. All participants were asked whether they nap during the day "never/rarely," "sometimes" or "usually." The GWAS identified 123 regions in the human genome that are associated with daytime napping. A subset of participants wore activity monitors called accelerometers, which provide data about daytime sedentary behavior, which can be an indicator of napping. This objective data indicated that the self-reports about napping were accurate. "That gave an extra layer of confidence that what we found is real and not an artifact," says the author.

Several other features of the study bolster its results. For example, the researchers independently replicated their findings in an analysis of the genomes of 541,333 people collected by 23andMe, the consumer genetic-testing company. Also, a significant number of the genes near or at regions identified by the GWAS are already known to play a role in sleep. One example is KSR2, a gene that the team had previously found plays a role in sleep regulation.

Digging deeper into the data, the team identified at least three potential mechanisms that promote napping:

  • Sleep propensity: Some people need more shut-eye than others.

  • Disrupted sleep: A daytime nap can help make up for poor quality slumber the night before.

  • Early morning awakening: People who rise early may "catch up" on sleep with a nap.

"This tells us that daytime napping is biologically driven and not just an environmental or behavioral choice," says the author. Some of these subtypes were linked to cardiometabolic health concerns, such as large waist circumference and elevated blood pressure, though more research on those associations is needed. "Future work may help to develop personalized recommendations for siesta," says the author.

Furthermore, several gene variants linked to napping were already associated with signaling by a neuropeptide called orexin, which plays a role in wakefulness. "This pathway is known to be involved in rare sleep disorders like narcolepsy, but our findings show that smaller perturbations in the pathway can explain why some people nap more than others," says the author.

https://www.nature.com/articles/s41467-020-20585-3

http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Fgenetic-determinants-of_2&filter=22

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