Gut microbiota linked to Alzheimer's disease

Researchers have discovered the link between the gut microbiota and Alzheimer's disease.

For the first time, researchers have found that Alzheimer's symptoms can be transferred to a healthy young organism via the gut microbiota, confirming its role in the disease.

The research was led by Professor Yvonne Nolan, APC Microbiome Ireland, a world-leading SFI-funded research centre based at University College Cork (UCC), and the Department of Anatomy and Neuroscience, UCC, with Professor Sandrine Thuret at King's College London and Dr Annamaria Cattaneo IRCCS Fatebenefratelli, Italy.

The study supports the emergence of the gut microbiome as a key target for investigation in Alzheimer's disease due to its particular susceptibility to lifestyle and environmental influences.

Published in Brain, the study shows that the memory impairments in people with Alzheimer's could be transferred to young animals through transplant of gut microbiota.

Alzheimer's patients had a higher abundance of inflammation-promoting bacteria in faecal samples, and these changes were directly associated with their cognitive status.

The memory tests we investigated rely on the growth of new nerve cells in the hippocampus region of the brain. We saw that animals with gut bacteria from people with Alzheimer's produced fewer new nerve cells and had impaired memory."

Professor Yvonne Nolan, APC Microbiome Ireland

"People with Alzheimer's are typically diagnosed at or after the onset of cognitive symptoms, which may be too late, at least for current therapeutic approaches. Understanding the role of gut microbes during prodromal – or early stage- dementia, before the potential onset of symptoms may open avenues for new therapy development, or even individualised intervention," said Professor Nolan.

Alzheimer's is the most common cause of dementia, a general term for memory loss and other cognitive abilities serious enough to interfere with daily life. As our population ages, one in three people born today are likely to develop Alzheimer's. Funded by Science Foundation Ireland, scientists in UCC are working to develop strategies to promote healthy brain ageing and advance treatments for Alzheimer's by exploring how the gut microbiota respond to lifestyle influences like diet and exercise.

Professor Sandrine Thuret, Professor of Neuroscience at King's College London and one of the study's senior authors said, "Alzheimer's is an insidious condition that there is yet no effective treatment for. This study represents an important step forward in our understanding of the disease, confirming that the make-up of our gut microbiota has a causal role in the development of the disease. This collaborative research has laid the groundwork for future research into this area, and my hope is that it will lead to potential advances in therapeutic interventions."

The research was conducted by Dr Stefanie Grabrucker, a postdoctoral researcher working with Professor Nolan, in partnership with postdoctoral colleagues Dr Edina Silajdzic at King's College London and Dr Moira Marizzoni, IRCCS Fatebenefratelli, Italy. UCC collaborators were Professor Cora O'Neill, Dr Olivia O'Leary, Dr Sarah Nicolas, Dr Jane English, Mr Sebastian Dohm-Hansen and Dr Aonghus Lavelle.

Professor. John F. Cryan, UCC Vice President for Research and Innovation, who was also involved in this research said: "I'm delighted to be involved in this exciting study that further enhances our understanding of the significant role played by the gut microbiome in brain related diseases, such as Alzheimer's, and recognises UCC and APC Microbiome Ireland as leading institutions in microbiome and brain health research. This research aligns with our UCC Futures Framework and the strategic plan for the University in the areas of Food, Microbiome and Health and the soon to be launched Future Ageing and Brain Science."

Source:
Journal reference:

Grabrucker, S., et al. (2023) Microbiota from Alzheimer’s patients induce deficits in cognition and hippocampal neurogenesis. Brain. doi.org/10.1093/brain/awad303.

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