果冻影院

In newly published trial results, a drug has for the first time been shown to slow the rate of cognitive decline in people with Alzheimer鈥檚 disease. The drug, lecanemab, was found to have a modest effect in treating the disease, but its implications have been hailed as momentous 鈥� marking a turning point in Alzheimer鈥檚 research and giving hope to millions across the globe.

The news is particularly poignant for Professor Sir John Hardy (果冻影院 Queen Square Institute of Neurology), as it represents a lifetime of work, by supporting a hypothesis that he first developed 30 years ago.

Lecanemab works by targeting beta amyloid 鈥� a plaque that builds up in the brains of people with Alzheimer鈥檚 disease.

This was an idea pioneered by Professor Hardy when he began working with Carol Jennings and her family.

Carol reached out to Professor Hardy in the mid-1980s, after her father, his sister and brother all developed symptoms and were diagnosed with Alzheimer鈥檚 in their 50s.

Professor Hardy said: 鈥淭hroughout her family were people who developed Alzheimer鈥檚 and did so in their 50s, and she wanted answers. She鈥檚 a very determined woman, a remarkable woman.鈥�

Genetic Alzheimer鈥檚 is rare and only accounts for around 1% of Alzheimer鈥檚 cases. However, Professor Hardy believed that Carol鈥檚 family could unlock clues as to the cause of the condition in the wider population.

Intrigued, he and his team took blood samples from members of the Jennings family to identify if there were any genetic differences between those who had Alzheimer鈥檚 and those who didn鈥檛.

After five years of research, the team discovered a mutation to the amyloid precursor protein (APP) gene, which creates the amyloid plaques that form in the brain during Alzheimer鈥檚 disease.

Amyloid affects brain cells by causing them to become overactive and signalling for ongoing inflammation, which can disrupt normal processes in the brain.

Blood flow can also be affected and other proteins in the brain can become involved. For example, when too much amyloid is deposited, it can react with another toxic protein called tau, which causes neuronal death.

In those with genetic Alzheimer鈥檚 this happens early because the patient makes too much APP. However, it also happens in those with non-genetic Alzheimer鈥檚 but at a slower rate.

As a result of these findings, in 1992, Professor Hardy and his colleague Professor David Allsop published the amyloid cascade hypothesis, which they hoped would 鈥渇acilitate rational design of drugs to intervene in this process.鈥�

The theory helped to explain the three key features seen in the brains of people with Alzheimer鈥檚 disease, including the brain appearing smaller due to the death of brain cells, the build-up of amyloid protein and tangles with tau.

From that point, there was a drive to understand more about Alzheimer鈥檚 and other dementias, with Professor Hardy winning the $3million Breakthrough prize in life sciences in 2015.

Professor Hardy was also knighted in the 2022 New Year Honours for services to 鈥渉uman health in improving our understanding of dementia and neurodegenerative diseases鈥�.

And the clinical team at the Dementia Research Centre (DRC)听at 果冻影院, which was previously led by Dr Martin Rossor, and is now led by Dr Cath Mummery and Professor Nick Fox (all Queen Square Institute of Neurology), have been at the forefront of research into the condition and its causes.

Over the years, the amyloid cascade hypothesis was built upon, modified, and challenged by researchers. However, the development of anti-amyloid drugs continually proved to be difficult.

For example, in 2021, the drug aducanumab was approved by the US drug regulatory body, the Food and Drug Administration (FDA), for use to combat early Alzheimer鈥檚.

However, it was later refused by the European Medicines Agency on the basis that results from the main clinical studies were conflicting and did not show overall that aducanumab was effective at treating adults with early-stage Alzheimer鈥檚 disease.

Some studies also questioned the safety of the drug, as images from brain scans of some patients showed abnormalities suggestive of swelling or bleeding.

However, the latest large-scale trial of lecanemab 鈥� which was tested on 1,795 volunteers with early stage Alzheimer鈥檚 - has given a new glimmer of hope.

The results, which were presented at the Clinical Trials on Alzheimer鈥檚 Disease conference in San Francisco and published in the New England Journal of Medicine, showed that, when given every fortnight, lecanemab slowed cognitive decline by around a quarter (27%) over the course of the 18 months of treatment.

This is an outcome that Professor Hardy describes as being both 鈥渕odest鈥� and 鈥渉istoric鈥�.

Professor Hardy said: 鈥淭his trial is an important first step, and I truly believe it represents the beginning of the end. The amyloid theory has been around for 30 years so this has been a long time coming.

鈥淚t鈥檚 fantastic to receive this confirmation that we鈥檝e been on the right track all along, as these results convincingly demonstrate, for the first time, the link between removing amyloid and slowing the progress of Alzheimer鈥檚 disease.

鈥淭he first step is the hardest, and we now know exactly what we need to do to develop effective drugs. It鈥檚 exciting to think that future work will build on this, and we will soon have life-changing treatments to tackle this disease.

鈥淭he trial results have shown us that there is a risk of side effects, including brain bleeds in a small number of cases. This doesn鈥檛 mean the drug can鈥檛 be administered, but that will be important to have rigorous safety monitoring in place for people receiving lecanemab, and further trials to fully understand and mitigate this risk.鈥�

The data is now being assessed by regulators in the US, who will soon decide whether lecanemab can be approved for wider use. And the developers 鈥� Eisai and Biogen 鈥� hope to begin the approval process in other countries next year.

Looking back over the past 30 years of research and the progress that has been made, Professor Hardy added: 鈥淭oday marks a truly exciting day for dementia research. I鈥檓 incredibly proud of how far we鈥檝e come since our Alzheimer鈥檚 Society funded research in 1989, which showed for the first time that a toxic protein called amyloid played a role in the cascade of brain changes leading to Alzheimer鈥檚 disease.

鈥淭his discovery would not have been possible without the selfless dedication of families affected by dementia who took part in this research.

鈥淎 drug like lecanemab becoming available on the NHS would be a massive triumph, but challenges remain around getting drugs to the right people at the right time 鈥� we need changes in our health systems infrastructure to make sure we鈥檙e ready.鈥�

Links

• 果冻影院 Queen Square Institute of Neurology
• 果冻影院 Brain Sciences
• Dementia Research Centre听at 果冻影院
• Lecanemab research in听
• The

Image

• Amyloid plaques are misfolded protein听aggregates between neurons - Alzheimer's disease illustration.听颁谤别诲颈迟:听听on iStock

Media contact听

Poppy Danby听

E: p.danby [at] ucl.ac.uk

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