biomarkers used to track benefits of anti-aging therapies can be misleading, suggests the 'lifespan machine'
Worms living in a petri dish in the Lifespan Machine. Many worms can share a single petri dish, with the scanner monitoring each individual simultaneously. Credit: Nicholas Stroustrup/CRG

We all grow old and die, but we still don’t know why. Diet, exercise and stress all affect our lifespan, but the underlying processes that drive aging remain a mystery. Often, we measure age by counting our years since birth and yet our cells know nothing of chronological time—our organs and tissues may age more rapidly or slowly regardless of what we’d expect from counting the number of orbits we take around the sun.

For this reason, many scientists search to develop methods to measure the “biological age” of our cells—which can be different from our chronological age. In theory, such biomarkers of aging could provide a measure of health that could revolutionize how we practice medicine.

Individuals could use a biomarker of aging to track their biological age over time, measure the effect of diet, exercise, and drugs and predict their effects to extend lifespan or improve quality of life. Medicines could be designed and identified based on their effect on biological age. In other words, we could start to treat aging itself.

However, no accurate and highly predictive test for biological age has been validated to date. In part, this is because we still don’t know what causes aging and so can’t measure it. Definitive progress in the field will require validating biomarkers throughout a patient’s lifetime, an impractical feat given human life expectancy.

To understand the irreducible components of aging, and how these can be measured and tested, researchers turn to laboratory animals. Unlike humans, the nematode C. elegans lives for an average of two weeks, making it easier to collect behavioral and lifespan data that would otherwise require centuries.


Each individual C. elegans worm lives in a petri dish under the watchful eye of the Lifespan Macine’s scanner, which monitors their entire lives. By imaging the nematodes once per hour for months, the device gathers data at unprecedented statistical resolution and scale. Credit: Nicholas Stroustrup/CRG

The nematode C. elegans begin adulthood vigorously exploring their environment. Over time, they slow and stop crawling, a behavioral stage known as vigorous movement cessation (VMC). VMC is a biomarker of aging and a proxy for nematode health.

Studies of genetically identical nematodes have shown it is a powerful predictor of a worm’s lifespan, but at the same time, interventions designed to alter aging can disproportionately affect VMC in comparison to lifespan and vice versa. Researchers at the Center for Genomic Regulation (CRG) in Barcelona seek to understand why this happens and what this means for the aging process in humans.

A team lead by Dr. Nicholas Stroustrup, Group Leader at the CRG’s Systems Biology research program, has developed the “Lifespan Machine,” a device that can follow the life and death of tens of thousands of nematodes at once. The worms live in a petri dish under the watchful eye of a scanner that monitors their entire lives. By imaging the nematodes once per hour for months, the device gathers data at unprecedented statistical resolution and scale.

Describing their results in the journal PLOS Computational Biology, the research team found that nematodes have at least two partially independent aging processes taking place at the same time—one that determines VMC and the other determines time of death.

While both processes follow different trajectories, their rates are correlated to each other, in other words, in individuals for whom VMC occurred at an accelerated rate, so did time of death, and vice versa. In other words, the study revealed that each individual nematode has at least two distinct biological ages.

The researchers made the finding by building a genetic tool that lets them control the nematodes’ rate of aging—effectively choosing an average lifespan for the population that can range from between two weeks and a few days. The tool works by tagging RNA polymerase II—the enzyme that makes mRNA—with a small molecule. Worms were fed different amounts of the hormone auxin, which finely controls the activity of RNA polymerase II, which in turn changes their lifespan.


C. elegans in motion. The nematode begins adulthood vigorously exploring their environment. Over time, they slow and stop crawling. Credit: Nicholas Stroustrup/CRG

Humans are larger and, in many ways, more complex than nematodes, and so are likely to have an even higher number of distinct biological ages than nematodes. Altogether, the study demonstrates how multiple, mostly independent aging processes can work in tandem to cause different parts of the animal to age at different rates. The findings challenge the concept that animals have a single, unitary measure of biological age that can be indicative of an individual’s overall health.

The researchers also found that no matter which lifespan-altering mutations and interventions they gave the nematodes, the statistical correlation between the distinct biological ages remained constant.

This suggests the existence of an invisible chain of command—or hierarchical structure—that regulates the worm’s aging processes, the mechanisms of which are yet to be discovered. This means that, while aging processes can be independent, it is also true that some individuals are “fast agers” and others “slow agers,” in that many of their aging processes move similarly faster or slower than their peers.

The study calls into question a crucial assumption of aging biomarkers, that when interventions such as exercise or diet “rejuvenate” a biomarker, it’s a good sign that the underlying biology of aging has similarly changed.

“Our model shows that biomarkers can be trivially decoupled from outcomes because they measure an aging process that is not directly involved in the outcome but simply correlates with it in a system of hierarchical processes,” explains Dr. Stroustrup. “In simple terms, just because two parts of an individual tend to correlate in their biological age across individuals, it doesn’t mean that one causes the other, or that they are likely to involve shared aging mechanisms.”

The findings have implications for consumers being offered commercial products that assess their biological age. Biological age tests use panels of biomarkers that are purported as being meaningfully diverse. These can measure a thousand different parts of an individual, but those parts might all be confounded in an identical way.

According to Dr. Stroustrup, the solution lies in finding biomarkers that measure distinct, interacting aging processes that also minimally correlate with each other. “Biomarkers used to assess biological age can be changed without actually turning a ‘fast ager’ into ‘slow ager’. Researchers should focus on measuring the effect of interventions on functional outcomes rather than assuming that changes in biomarkers will predict outcomes in a straightforward way,” he concludes. More information: A hierarchical process model links behavioral aging and lifespan in C. elegans, PLoS Computational Biology (2022). DOI: 10.1371/journal.pcbi.1010415 Journal information: PLoS Computational Biology

Provided by Center for Genomic Regulation Citation: Biomarkers used to track benefits of anti-aging therapies can be misleading, suggests the ‘Lifespan Machine’ (2022, September 29) retrieved 29 September 2022 from https://phys.org/news/2022-09-biomarkers-track-benefits-anti-aging-therapies.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

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