Cheek Swab Test Predicts Aging and Mortality Risk – Neuroscience News

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Summary: Researchers have developed a second-generation epigenetic clock called CheekAge, which accurately predicts mortality risk using cheek cell samples. Unlike earlier clocks based on blood samples, CheekAge is non-invasive and captures methylation patterns linked to aging and lifespan.

In a recent study of over 1,500 people, CheekAge showed a 21% increase in mortality risk for every standard deviation increase in the clock’s age prediction. This new tool could provide a simple, effective way to monitor aging and potentially help track age-related diseases.

Key Facts:

  • CheekAge uses cheek cells to predict mortality risk with a 21% increased hazard ratio.
  • It offers a non-invasive alternative to blood-based epigenetic clocks.
  • CheekAge identifies key genes linked to lifespan and age-related diseases.

Source: Frontiers

We don’t all age at the same rate. But while some supercentenarians may age exceptionally slowly due to winning the genetics jackpot, a plethora of behavioral and lifestyle factors are known to speed up aging, including stress, poor sleep, poor nutrition, smoking, and alcohol.

Since such environmental effects get imprinted on our genome in the form of epigenetic marks, it is possible to quantify molecular aging by characterizing the epigenome at prognostic genomic sites.

Over the past decade, scientists have developed several such ‘epigenetic clocks’, calibrated against chronological age and various lifestyle factors across large numbers of people.

Specifically, for every increase by a single standard deviation in CheekAge, the hazard ratio of all-cause mortality increased by 21%. Credit: Neuroscience News

Most of these focused on DNA methylation in blood cells, which makes collection of samples onerous, as well as stressful for the patient. But earlier this year, scientists from the US developed a second-generation clock, called CheekAge, which is based on methylation data in easy-to-collect cells from inside the cheeks.

Now, in Frontiers in Aging, the team has shown for the first time that CheekAge can accurately predict the risk of mortality – and even if epigenetic data from another tissue is used as input.

“We also demonstrate that specific methylation sites are especially important for this correlation, revealing potential links between specific genes and processes and human mortality captured by our clock,” said Dr Maxim Shokhirev, the study’s first author and Head of Computational Biology and Data Science at the company Tally Health in New York.

CheekAge had been developed or ‘trained’ by correlating the fraction of methylation at approximately 200,000 sites with an overall score for health and lifestyle, reflecting presumed differences in physiological aging.

The biological clock is ticking

In the present study, Shokhirev and colleagues used statistical programming to see how well it predicted mortality from any cause in 1,513 women and men, born in 1921 and 1936 and followed throughout life by the Lothian Birth Cohorts (LBC) program of the University of Edinburgh.

One of the LBC’s aims was to link differences in cognitive aging to lifestyle and psychosocial factors and biomedical, genetic, epigenetic, and brain imaging data. Every three years, the volunteers had their methylome in blood cells measured at approximately 450,000 DNA methylation sites.

The last available methylation time point was used along with the mortality status to calculate CheekAge and its association with mortality risk. Data on mortality had been obtained from the Scottish National Health Service Central Register.

“[Our results show that] CheekAge is significantly associated with mortality in a longitudinal dataset and outcompetes first-generation clocks trained in datasets containing blood data,” concluded the authors.

Specifically, for every increase by a single standard deviation in CheekAge, the hazard ratio of all-cause mortality increased by 21%. This means that CheekAge is strongly associated with mortality risk in older adults.

“The fact that our epigenetic clock trained on cheek cells predicts mortality when measuring the methylome in blood cells suggests there are common mortality signals across tissues,” said Shokhirev.

“This implies that a simple, non-invasive cheek swab can be a valuable alternative for studying and tracking the biology of aging.”

Strongest predictors

The researchers looked at those methylation sites which were most strongly associated with mortality in greater detail. Genes located around or near these sites are potential candidates for impacting lifespan or the risk of age-related disease.

For example, the gene PDZRN4, a possible tumor suppressor, and ALPK2, a gene implicated in cancer and heart health in animal models. Other genes that stood out had previously been implicated in the development of cancer, osteoporosis, inflammation, and metabolic syndrome.

“It would be intriguing to determine if genes like ALPK2 impact lifespan or health in animal models,” said Dr Adiv Johnson, the study’s last author and the Head of Scientific Affairs and Education at Tally Health.

“Future studies are also needed to identify what other associations besides all-cause mortality can be captured with CheekAge.

“For example, other possible associations might include the incidence of various age-related diseases or the duration of ‘healthspan’, the period of healthy life free of age-related chronic disease and disability.”

About this epigenetics and aging research news

Author: Mischa Dijkstra
Source: Frontiers
Contact: Mischa Dijkstra – Frontiers
Image: The image is credited to Neuroscience News

Original Research: Open access.
CheekAge, a next-generation epigenetic buccal clock, is predictive of mortality in human blood” by Maxim Shokhirev et al. Frontiers in Aging


Abstract

CheekAge, a next-generation epigenetic buccal clock, is predictive of mortality in human blood

While earlier first-generation epigenetic aging clocks were trained to estimate chronological age as accurately as possible, more recent next-generation clocks incorporate DNA methylation information more pertinent to health, lifestyle, and/or outcomes.

Recently, we produced a non-invasive next-generation epigenetic clock trained using Infinium MethylationEPIC data from more than 8,000 diverse adult buccal samples.

While this clock correlated with various health, lifestyle, and disease factors, we did not assess its ability to capture mortality.

To address this gap, we applied CheekAge to the longitudinal Lothian Birth Cohorts of 1921 and 1936. Despite missing nearly half of its CpG inputs, CheekAge was significantly associated with mortality in this longitudinal blood dataset.

Specifically, a change in one standard deviation corresponded to a hazard ratio (HR) of 1.21 (FDR q = 1.66e-6). CheekAge performed better than all first-generation clocks tested and displayed a comparable HR to the next-generation, blood-trained DNAm PhenoAge clock (HR = 1.23, q = 2.45e-9).

To better understand the relative importance of each CheekAge input in blood, we iteratively removed each clock CpG and re-calculated the overall mortality association.

The most significant effect came from omitting the CpG cg14386193, which is annotated to the gene ALPK2. Excluding this DNA methylation site increased the FDR value by nearly threefold (to 4.92e-06).

We additionally performed enrichment analyses of the top annotated CpGs that impact mortality to better understand their associated biology.

Taken together, we provide important validation for CheekAge and highlight novel CpGs that underlie a newly identified mortality association.

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