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Amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig’s disease, is a nasty disease that steadily attacks nerve cells in the brain and spinal cord. It’s pretty much always fatal within a few years. As if that wasn’t bad enough, ALS also can overlap with a condition called frontotemporal dementia (ALS/FTD). Together these conditions cause devastating symptoms of muscle weakness along with changes in memory, behavior and personality.

Now researchers at Cambridge University in the UK have managed to grow groups of cells called “mini-brains” that mimic ALS/FTD and could lead to new approaches to treating this deadly combination.

We have written about these mini-brains before. Basically, they are created, using the iPSC method, that takes skin or blood cells from a patient with a particular condition, in this case ALS/FTD, and turns them into the kind of nerve cells in the brain affected by the disease. Because they came from someone who had ALS/FTD they display many of the characteristics of the disease and this gives researchers a great tool to study the condition.

This kind of approach has been done before and given researchers a glimpse into what is happening in the brains of people with ALS/FTD. But in the past those cells were in a kind of clump, and it wasn’t possible to get enough nutrients to the cells in the middle of the clump for the mini-brain to survive for long.

What is different about the Cambridge team is that they were able to create these mini-brains using thin, slices of cells. That meant all the cells could get enough nutrients to survive a long time, giving the team a better model to understand what is happening in ALS/FTD.

In a news release, Dr András Lakatos, the senior author of the study, said: “Neurodegenerative diseases are very complex disorders that can affect many different cell types and how these cells interact at different times as the diseases progress.

“To come close to capturing this complexity, we need models that are more long-lived and replicate the composition of those human brain cell populations in which disturbances typically occur, and this is what our approach offers. Not only can we see what may happen early on in the disease – long before a patient might experience any symptoms – but we can also begin to see how the disturbances change over time in each cell.”

Thanks to these longer-lived cells the team were able to see changes in the mini-brains at a very early stage, including damage to DNA and cell stress, changes that affected other cells which play a role in muscle movements and behavior.

Because the cells developed using the iPSC method are from a patient with ALS/FTD, the researchers were able to use them to screen many different medications to see if any had potential as a therapy. They identified one, GSK2606414, that seemed to help in reducing the build-up of toxic proteins, reduced cell stress and the loss of nerve cells.

The team acknowledge that these results are promising but also preliminary and will require much more research to verify them.

CIRM has funded three clinical trials targeting ALS. You can read about that work here.