Page URL:

Gene that protects against Alzheimer's disease found

4 December 2017
Appeared in BioNews 929

Researchers have discovered a gene which may reduce the risk of developing Alzheimer's disease.

The study, published in Genome Medicine, identified a genetic variant in high-risk people who showed no signs of the disease in old age. This genetic marker seems to have a protective influence and could potentially be targeted with drugs to decrease the risk of Alzheimer's disease.

'Instead of identifying genetic variants that are causing disease, we wanted to identify genetic variants that are protecting people from developing disease,' said lead author Dr Perry Ridge of Brigham Young University, Provo, Utah.

Past studies have tended to compare people affected by Alzheimer's with healthy controls, but the genetic factors identified this way have not yet resulted in effective treatment. Using a novel approach, this research focused on protective genetic variants which may be a plausible target for interventions.

The study focused on unaffected individuals within families with unusually high rates of Alzheimer's disease. The resilient individuals were cognitively healthy despite being at least 75-years-old, and carried a genetic variant strongly associated with increased risk of the disease, APOE e4. The researchers used whole genome sequencing and linkage analysis to look for genetic changes that were common among the healthy subjects but were not shared with the family members who developed Alzheimer's.

A variant of the RAB10 gene was discovered, which was present only in the resilient individuals. The researchers found that standard RAB10 is over-active in the brains of people with Alzheimer's, and that by deactivating this gene in mouse cells, there was a reduction in the amount of disease-related protein produced.

These multiple lines of evidence increase the understanding of the relevant mechanisms involved in the disease and point towards potential treatments. In the future, it may be possible to design drug interventions aimed at affecting the expression of this gene.

Alzheimer's disease is the most common cause of dementia and it is known to be highly heritable. The cost of caring for affected individuals is substantial and predicted to rise in the coming decades.

'There are currently no meaningful interventions for Alzheimer's disease; no prevention, no modifying therapies, no cure,' said Professor John Kauwe, senior author of study. 'The discoveries we're reporting in this manuscript provide a new target with a new mechanism that we believe has great potential to impact Alzheimer's disease in the future.'

18 October 2021 - by Christina Burke 
A gene variant previously linked to higher Alzheimer's risk may in fact improve short-term memory, researchers have found...
26 April 2021 - by Dr Emma Green 
Researchers have identified a new key gene linked to the progression of memory loss in Alzheimer's disease...
3 August 2020 - by Dr Rachael Boyle 
Memory loss has been reversed in mice with Alzheimer's disease following gene therapy...
1 June 2020 - by Dr Rachel Montgomery 
A gene variant linked to Alzheimer's disease has been shown to increase the risk of developing severe COVID-19 symptoms...
26 May 2020 - by Dr Joanne Delange 
New research has led to the discovery of an enzyme that can help to reverse the DNA damage associated with ageing and Alzheimer's disease...
24 July 2017 - by Caroline Casey 
Two new genes which alter the risk of developing Alzheimer’s disease have been identified...
20 March 2017 - by Dr Julia Hill 
Two common variants of TMEM106B and progranulin (GRN) genes have been discovered to accelerate normal brain ageing...
18 July 2016 - by Chris Hardy 
A gene variant linked to increased risk of Alzheimer's disease may affect memory and thinking skills in children, a study has found...
11 July 2016 - by Sarah Gregory 
Researchers looking at multiple genes have developed risk scores that could identify those most likely to develop Alzheimer's disease in later life...
to add a Comment.

By posting a comment you agree to abide by the BioNews terms and conditions

Syndicate this story - click here to enquire about using this story.