Do You Really Need Sleep?
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The longer we go without sleep, the stronger the pressure to sleep grows. The reason for "sleep pressure" after going without sleep for an extended time, is a buildup of particular chemicals in specific parts of the brain.
Only further research can tell whether other problems -- such as memory loss or behavioural instability -- may occur despite the absence of sleep pressure, when extended sleep deprivation is induced. Eventually the brain centers responsible for maintaining attention and vigilance would presumably "run down" and require replenishment. Controlled experiments should tell us how long the sleepless period can be safely extended.
Since several other brain areas besides the VLPO are involved in control of sleep, it is inevitable that eventually the brain will run into a brick wall of some type, without sleep. It will take time and work to find all the answers, but for now sleep scientists have a solid theory to work with.
The longer we go without sleep, the stronger the pressure to sleep grows. The reason for "sleep pressure" after going without sleep for an extended time, is a buildup of particular chemicals in specific parts of the brain.
Dr. Halassa says that the results of the new study show that "adenosine from astrocytes clearly regulates sleep pressure." He notes that this is the first time a non-neuronal cell within the brain has been shown to influence behavior. Unlike neurons, astrocytes do not fire electrical spikes, and they are often described as support cells.These results hint that most humans may not need to sleep as much as they do. If new drugs can influence sleep pressure by acting through the A1 receptors of neurons in the VLPO sleep-inducing area of the brain without serious adverse effects, humans in a wide range of professions and vocations might be able to perform to a higher standard.
In experiments on mice, Dr. Halassa and his colleagues used a genetic switch, called the dnSNARE transgene, to block the release of adenosine and other chemicals from astrocytes. The researchers then deprived the mice of sleep for short periods, and evaluated them with behavioral tests and with electroencephalography (EEG), a means of recording brain activity.
Mice subjected to the genetic blockade exhibited less sleep pressure than control mice. Following sleep deprivation, they did not need as much compensatory sleep, and during the early phases of sleep, they had patterns of brain activity consistent with low sleep pressure. When they were evaluated with a memory test, they performed as if their sleep had been undisturbed.
The researchers observed similar results when they used certain compounds to block the effects of adenosine on neurons. Neurons have several types of cell-surface receptors that enable them to respond to adenosine, but only pharmacological blockade of the A1 type of receptor was effective. That result shows that adenosine acts through the A1 receptor to produce sleep pressure. _MNT
Only further research can tell whether other problems -- such as memory loss or behavioural instability -- may occur despite the absence of sleep pressure, when extended sleep deprivation is induced. Eventually the brain centers responsible for maintaining attention and vigilance would presumably "run down" and require replenishment. Controlled experiments should tell us how long the sleepless period can be safely extended.
Since several other brain areas besides the VLPO are involved in control of sleep, it is inevitable that eventually the brain will run into a brick wall of some type, without sleep. It will take time and work to find all the answers, but for now sleep scientists have a solid theory to work with.
Labels: brain research
posted by al fin at 4:32 pm
7 Comments:
I worry that these sleep deprivation methods will accelerate the aging process and result in people leading shorter lives without really ever knowing why.
If sleep is not necessary for memory formation, what evolutionary benefit would it serve in mammals? Maybe in the case of primates, keeping them down when it's dark so as to conserve energy and avoid wandering blindly into a predator's ambush?
Pretty cool piece. I am not certain whether I agree with the conclusion that most humans might not need as much sleep as they do. However, you're right on as far as future experiments are concerned. Remember that this study only tested the performance of mice in a 6-hour sleep deprivation period. Future experiments will test the role of sleep pressure under conditions of chronic sleep deprivation. The results should be important to understand why people need sleep at all.
Audacious Epigone,
It is not clear whether the role of sleep in memory is direct. That is, whether something that ONLY occurs in sleep is necessary for memory consolidation to occur. It is conceivable that the role of sleep in this specific process is indirect; that is, by general adjustment of synaptic weights, this process is necessary for proper memories to form.
However, there is little doubt that sleep is important for general brain function. As far as your suggestion that sleep evolved to protect animals from predators, I think it finds little support. The two strongest arguments against it are:
1. Sleep is homeostatically regulated. That is, if you're sleep deprived overnight, you'll sleep in the following morning. If sleep functioned solely to keep you inactive during the night, then what's the point of sleep in during the day.
2. Top predators sleep (lions actually sleep alot!). According to your suggestion, these animals wouldn't have to sleep.
I worry that these sleep deprivation methods will accelerate the aging process and result in people leading shorter lives without really ever knowing why.
Brain Memory
Mykell,
Isn't the sleep lighter and more easily disrupted during the day, though? Most mammals are diurnal, so I'm assuming that is the default state, but some have evolved and so become equipped to become nocturnal. For top predators like lions, the threat of sleeping during the daytime is pretty minimal, but it wouldn't be for humans. I'm thinking it would be pretty bad for H&Gs to be walking around at night though, while lions are too!
Hi Audacious Epigone,
Thanks for your post. Below are some answers to your questions.
I wouldn't say that sleep is lighter or more easily disrupted during the day. I am assuming that your comment was concerning animals that are diurnal. So no, if you were sleep deprived for the entire night, your daytime sleep will be deeper than your normal nighttime sleep; judging by both behavior and EEG.
I am not sure that most mammals are diurnal. A significant portion of rodents (the biggest mammalian group) are nocturnal. Also, although I am not an evolutionary biologist my understanding is that mammals evolved from nocturnal ancestors (I could be wrong though).
To summarize, I think there is pretty clear evidence that sleep is not simply a state to kill time or to hide away from predators. If you loose sleep, you have to make it up, otherwise you start having problems.
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