Revolutionary imaging technique set to quantify ageing at a cellular level

10/09/2024 | 3 mins

An international team of scientists has developed a groundbreaking method to measure biological ageing with unparalleled precision that has the potential to revolutionise the way we approach ageing and age-related diseases.

The research, published in Nature Aging, charts the development of ImAge, the first imaging-based biomarker capable of quantifying aging and rejuvenation at a single-cell level.

Study lead author postdoctoral research associate Dr Kenta Ninomiya from The University of Western Australia and the Harry Perkins Institute of Medical Research said it offered a novel approach to understanding the ageing process.

“ImAge works by analysing the spatial organisation of chromatin and epigenetic marks in individual cells,” Dr Ninomiya said.

“Unlike traditional methods that rely on chronological age, ImAge captures intrinsic age-related changes, providing a more accurate and reliable measure of biological age.

“By offering a detailed snapshot of cellular ageing, we can better understand the effects of interventions such as caloric restriction and partial reprogramming, potentially paving the way for new strategies to extend healthy lifespan.”

Dr Kenta Ninomiya

Image: Dr Kenta Ninomiya from The University of Western Australia and the Harry Perkins Institute of Medical Research.

The study demonstrated that ImAge could detect changes in biological age in response to various interventions. 

“For instance, the biomarker showed increased ageing following chemotherapy treatment and decreased ageing after caloric restriction or partial cellular reprogramming,”  Dr Ninomiya said.

“Also, ImAge readouts from chronologically identical mice were found to inversely correlate with their locomotor activity, suggesting that this technique captures elements of both biological and functional age.”

The international research team believes the innovative approach will have far-reaching implications for personalised medicine and age-related disease prevention.

“As the first imaging-based biomarker of ageing with single-cell resolution, this is the first time we've been able to observe ageing at such a granular level,” Dr Ninomiya said. 

“ImAge sets the stage for future research into the mechanisms of aging and the development of novel therapeutic strategies aimed at enhancing longevity and improving human health.”

Co-author Professor Alexey Terskikh is the winner of the State Government’s 2023 Future Health Research Innovation Fund Distinguished Fellows Award and will soon join the Harry Perkins Institute of Medical Research. 

Media references

Liz McGrath, UWA Media Advisor, 6488 7975

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