Health

Clues Into a Sleep Mystery

Summary: Using gene editing to disrupt a gene in the thalamus that codes for a protein that binds to GABA increased the activity of delta waves and promoted deep sleep in mouse models.

Source: Harvard

Healthy sleep is a basic physiologic need. In its absence, a myriad of processes in the body can go terribly awry. Chronic sleep problems have been linked to mental health disorders, cardiovascular disease, type 2 diabetes, and obesity, among other conditions.

Yet, consistently achieving the deep, restorative sleep necessary for optimal physiologic health and peak cognitive performance can be difficult due to lifestyle, environmental, and biological factors.

One of the most confounding questions in sleep biology has been how deep sleep is regulated by the brain. The answer could help illuminate new ways to mitigate sleep problems.

Now, a newly published study led by Harvard Medical School researchers at VA Boston Healthcare System offers critical clues into this longstanding mystery.

The work, conducted in mice and published April 26 in Nature Communications, identifies an area in the brain that regulates the oscillations of delta waves—electrical signals transmitted across neurons that arise during the deepest phases of relaxation. They are a hallmark of restorative sleep.

The research team homed in on neurons in the thalamus, a region of the brain that regulates sleep and wakefulness, among other functions. Using CRISPR-Cas9 gene editing, the researchers disrupted a gene that codes for a protein that binds the inhibitory neurotransmitter GABA.

The protein is a target of drugs that promote sleep. Disruption of this gene in mouse models increased the activity of delta waves and enhanced deep sleep in the animals.

If replicated in further animal models, the findings could lay the groundwork for designing therapies that precisely target this protein to induce deep sleep.

“Our findings represent an important step forward in pinpointing the molecular basis of sleep regulation and point to an alternative pharmacologic strategy for promoting natural, restorative sleep,” said study senior investigator Radhika Basheer, associate professor of psychiatry at HMS and VA Boston.

This shows a sleeping woman
Now, a newly published study led by Harvard Medical School researchers at VA Boston Healthcare System offers critical clues into this longstanding mystery. Image is in the public domain

New therapies are sorely needed. Commonly used insomnia medicines, while an important tool for treatment of persistent insomnia, have well-known drawbacks. Many of these medications work by getting people to fall asleep fast, but they also tend to dampen the activity of restorative delta waves. Thus, while such medications promote falling asleep, the slumber they induce is not necessarily restorative.

“We believe our findings set the stage for developing a new class of sleep medicines that can achieve this all-important maintenance of deep sleep by boosting delta wave oscillations,” added Basheer, who co-led the study with colleague Ritchie Brown, associate professor of psychiatry at HMS.

HMS co-authors include David Uygun, Chun Yang, Fumi Katsuki, Erik Hodges, James McKenna, and James McNally. Elena Tilli of Stonehill College was also a co-author on the study.

Funding: This work was supported by VA Biomedical Laboratory Research and Development Service Merit Awards and by National Institutes of Health grants R01 NS119227, R21 NS079866, R01 MH039683, T32 HL07901, K01 AG068366, R21 MH125242.

Disclosures: Uygun, McKenna, McNally, Brown, and Basheer are research health scientists at VA Boston Healthcare System. The contents of this work do not represent the views of the US Department of Veterans Affairs or the United States Government. McKenna received partial salary compensation and funding from Merck MISP (Merck Investigator Sponsored Programs) but has no conflict of interest with this work.

About this sleep research news

Author: Ekaterina Pesheva
Source: Harvard
Contact: Ekaterina Pesheva – Harvard
Image: The image is in the public domain

Original Research: Open access.
Knockdown of GABAA alpha3 subunits on thalamic reticular neurons enhances deep sleep in mice” by Radhika Basheer et al. Nature Communications


Abstract

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Knockdown of GABAA alpha3 subunits on thalamic reticular neurons enhances deep sleep in mice

Identification of mechanisms which increase deep sleep could lead to novel treatments which promote the restorative effects of sleep.

Here, we show that knockdown of the α3 GABAA-receptor subunit from parvalbumin neurons in the thalamic reticular nucleus using CRISPR-Cas9 gene editing increased the thalamocortical delta (1.5–4 Hz) oscillations which are implicated in many health-promoting effects of sleep. Inhibitory synaptic currents in thalamic reticular parvalbumin neurons were strongly reduced in vitro.

Further analysis revealed that delta power in long NREM bouts prior to NREM-REM transitions was preferentially affected by deletion of α3 subunits.

Our results identify a role for GABAA receptors on thalamic reticular nucleus neurons and suggest antagonism of α3 subunits as a strategy to enhance delta activity during sleep.

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