Omni Brain

Dandruff shampoo to calm seizures

i-2f09a7abddc096632abf41a707cc6149-dandruff.jpgClearly, washing your hair isn’t going to have any effect since I highly doubt that your Head and Shoulders is going to sink through your scalp, through bone, through your meninges and then go straight to the source of your seizures. But hey! If you can get your local neurosurgeon to open up your scalp, do some intracranial recordings to find the source of your seizures and then massage the shampoo onto your neurons you might have some luck. Don’t forget to wash, rinse and repeat!

You should probably condition those newly cleaned cells while you’re in there as well.

Here’s the details

Epilepsy and other seizure disorders result when nerves excessively or inappropriately “fire” in the brain. The brain’s “off” switches fail in part due to protein defects that prevent potassium from exiting nerve cells and calming them. “Channels that carry potassium,” says Min Li, Ph.D., professor of neuroscience at Johns Hopkins, “must open on cue to make sure nerve cells only fire for defined periods of time.”

In their studies of these channels, Li and his colleagues developed a new way of testing thousands of druglike molecules to find any that could turn the potassium switch on or off. Their approach involved chemically shaving off all the potassium channels on the cell surface and forcing the cells to make new channels. By measuring the activity of the new channels, the researchers could identify molecules that accelerated the recovery.

One chemical that proved quite effective in improving channel recovery was zinc pyrithione (ZnPy), the active ingredient in many dandruff shampoos. Li explains that ZnPy has a shape that allows it to fit into the gate region of the channel protein and allow more potassium flow. “If you think of these channels as doors on the cell’s surface,” Li says, “then ZnPy made this door both easier to open and stay open longer. It’s like a tunable hinge that helps sticky doors swing freely.”

The researchers then tested defective channels that contain the same mutations known in humans to cause mild epilepsy-like seizures in infants. Bathing cells with small amounts of ZnPy caused the mutant potassium channels to let three times as much potassium flow through, raising the possibility of restoring normal nerve cell activity.