Saturday, March 23, 2013

Save your brain cells


I’m not the most coordinated person on this planet. You know that kid who could never tap on her head and make circles on her belly at the same time? That was me. While I can hold my own on the mountain bike trail and poke at mice brains, there are certain things I will never do well, like dancing. Don’t even get me started on “zumba”. So naturally I was a little nervous when I joined a new gym class recently, especially since it involves learning new movements. I’m always so envious of those who seem to learn new things effortlessly, whose bodies respond immediately to what their brains are saying. So I was very excited when I found out about new research that suggests all my pain and suffering might pay off in the end.

It’s a common misconception that adult brains don’t grow. For a long time, scientists thought adults had a finite number of brain cells, and it was all downhill from there (grim, I know). We now know there is hope for us all – some areas of your brain continue to grow brain cells throughout your entire lifetime, at a rate of 5,000 to 10,000 new cells per day. Good news right? Don’t get too excited. We also know that over half of those new cells die within a few weeks of their birth.

Ok, get excited again (what a rollercoaster!): there are things you can do to prevent the death of those brain cells, and one of those things is learning new stuff.

In one recent experiment, scientists had three groups of rats undergo a procedure called eyeblink conditioning. This experiment is based on Pavlov’s work – he’s the one who found out that if you ring a bell shortly before you feed your dog every day, eventually just ringing the bell will be enough to activate the dog’s saliva glands. Eyeblink conditioning is very similar – it involves ringing a bell and then stimulating the rat’s eye, leading to a blink. Eventually the rat learns to blink when it hears the bell without the need for the actual stimulation.

The researchers carried out the eyeblink conditioning with three groups of rats. One group received a drug that prevented them from learning anything, one group received a drug that made learning easier, and one group didn’t get any drug (that would be the control group). After the rats went through learning (or attempting to learn) the eyeblink procedure, the researchers looked at how many new brain cells had been saved by the process.

The rats that received the drug that prevented from learning predictably didn’t learn anything and also predictably didn’t save any new brain cells. The rats that received the drug that helped them learn saved new brain cells, but no more and no less than the group of rats that learned without any drug. Pretty boring results so far, yes?

But wait! The researchers then closely looked at all the animals that learned the task and reanalyzed how many new brain cells they saved based on how long the rats took to learn to blink. What they found was most intriguing: the longer a rat took to learn the task, the more new brain cells it saved, regardless of whether it received the drug or not.

What this means is that the best way to save a maximum amount of new brain cells is by having a hard time learning something but ultimately being successful.

Now don’t go bragging about being a slow learner just yet - for one thing, the timing of the experiments I described above is very tricky (especially the timing between the eyeblink conditioning and when new cells are counted). We also know very little about the role of those new brain cells and whether they get integrated in existing networks in the brain, and I don’t need to remind you that results obtained in rats don’t necessarily apply to us. That said, it’s well proven that learning is good for your overall brain health, so go ahead and join that zumba class. 


Reference: Curlik DM and Shors TJ (2011) Learning increases the survival of newborn neurons provided that learning is difficult to achieve and successful. J Cogn Neurosci 23(9):2159-2170.

 
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