Alzheimer’s could be halted with treatment which eliminates immune cells

Alzheimer’s could be halted with treatment which eliminates cells produced by the immune system, scientists claim.

Studies on mice found cells called microglia kill neurons in the brain, accelerating the rate of brain damage. 

The research at Washington University suggests that suppressing microglia might prevent or delay the onset of the memory-robbing disease. 

However, a leading charity said the research, although promising, was too preliminary to get excited.

Alzheimer’s could be halted with treatment which eliminates cells produced by the immune system, scientists claim. Pictured, a healthy neuron in the brain of an Alzheimer’s sufferer

Protein known as tau begins to clump together. This is a hallmark sign of Alzheimer’s

Protein known as tau begins to clump together. This is a hallmark sign of Alzheimer’s

The presence of tangled tau attracts immune brain cells called microglia (red) which attack the harmful protein

 The presence of tangled tau attracts immune brain cells called microglia (red) which attack the harmful protein

But in trying to kill of the tau, the microglia actually damage the neuron, which accelerates the degenerative process

But in trying to kill of the tau, the microglia actually damage the neuron, which accelerates the degenerative process

Professor David Holtzman, lead author of the study, said: ‘If we could find a drug that specifically deactivates the microglia just at the beginning of the neurodegeneration phase of the disease, it would absolutely be worth evaluating in people.’  

Until now, Professor Holtzman, a neurologist, believed that microglia were helpful in slowing the speed of dementia.

Found in the brain and spinal cord, the cells are one of the main forms of immune defense in the central nervous system.  

Microglia attacks tau tangles, which are clumps of protein in the brain believed to play a role in the cause of dementia. 

In fit and healthy humans, the presence of tau protein is perfectly normal and even contributes to the proper functioning of neurons.

Professor Holtzman’s and colleagues found evidence that microglia attacks the tau with such ferocity that it inadvertently destroys neurons. 

They achieved this breakthrough in the field’s understanding of Alzheimer’s by observing the neurodegeneration process in mice.

Half of the rodents were genetically modified with a protein called Apolipoprotein E4 (APOE4) which is strongly correlated with Alzheimer’s in people.

Every human carries APOE, but those who have the APOE4 strand are 12 times more likely to contract the disease.

Some of the mice were fed a compound called PLX33976 which killed off their microglia, whereas those in the control group retained their supply

Some of the mice were fed a compound called PLX33976 which killed off their microglia, whereas those in the control group retained their supply

From the age of six months, some of the mice which had been modified with APOE4 were also fed an inhibitor compound called PLX3397 to kill off their much of their microglia.

When the mice were nine months old, those with the APOE4 and a normal presence of microglia showed severly shrunken brains.

In contrast, the brains APOE4 mice without microglia were still healthy, according to the findings published in the Journal of Experimental Medicine, 

Professor Holtzman said: ‘If you could target microglia in some specific way and prevent them from causing damage, I think that would be a really important, strategic, novel way to develop a treatment.’

But the application to humans seems far off, as the PLX3397 compound used to deplete microglia in mice has side effects of hair colour changes, fatigue, nausea, diarrhoea and vomiting. 

Dr James Pickett, Head of Research at Alzheimer’s Society, said: ‘There is a growing body of knowledge that suggests the immune system might play a key role in the development of Alzheimer’s disease.

‘This research builds on this theory but while promising, this work is still at a very early stage – it was a small study in mice that did not look at the impact of these techniques on memory and thinking abilities.

‘Further in-depth research is needed to establish the exact role of the immune system in Alzheimer’s disease and our scientists are taking steps to explore every avenue that may one day bring hope to people affected by dementia.’ 

The findings were published in the Journal of Experimental Medicine.

THE WAR ON ALZHEIMER’S: MORE THAN 150 TRIALS HAVE FAILED IN 20 YEARS 

Scientists have for years been scrambling to find a way to treat or prevent Alzheimer’s disease, which accounts for around two thirds of the 50million dementia patients worldwide.

But attempts to tackle the brain-destroying disease have been beset with failures.

In March this year the pharmaceutical company Biogen abandoned two late-stage trials of a promising Alzheimer’s drug, aducanumab, which it hoped would work by clearing the brain of sticky build-ups.

After years of research and testing the company decided its prospects looked poor in the end stages of a human trial and pulled the plug, wiping $18billion (£13.8bn) off its own market value.

In January, the firm Roche announced it was discontinuing two trials which were in their third phase of human testing.

It was trying to develop crenezumab, which worked by preventing build-up of plaques in the brain and had already been proven safe, but wasn’t having the desired results.

Between 1998 and 2017 there were around 146 failed attempts to develop Alzheimer’s drugs, according to science news website, BioSpace.

Billions of dollars have been invested in the industry and a successful, marketable treatment would likely make a fortune for the company which gets there first.

Experts have said a difficulty in testing drugs on the right people may be partly to blame – Alzheimer’s is rarely diagnosed before it has taken hold and, by that time, it is often too late or studying people becomes too difficult.

For drugs which try to modify the course of a disease, trials often have to be longer and more in-depth, making them more difficult and costly, researchers wrote in the journal Expert Opinion on Investigational Drugs.

The same researchers added scientists may be struggling to find the correct dose of drugs which could work, and that they may be recruiting the wrong types of people to test them on.

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