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Epigenetic Aging Linked to Cognitive Decline in Hispanic/Latino Adults

11-05-2025

“[...] acceleration in second- and third-generation epigenetic clocks was associated with decline in cognitive health and cognitive impairment in middle-aged and older Hispanic/Latino adults.”

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BUFFALO, NY — November 5, 2025 — A new research paper was published in Volume 17, Issue 10 of Aging-US on September 10, 2025, titled “Longitudinal associations of epigenetic aging with cognitive aging in Hispanic/Latino adults from the Hispanic Community Health Study/Study of Latinos.”

In this study led by Myriam Fornage, from The University of Texas Health Science Center at Houston, researchers found that faster biological aging, measured by DNA-based epigenetic clocks, is associated with greater cognitive decline and higher risk of mild cognitive impairment (MCI) in Hispanic/Latino adults. The results highlight the potential of epigenetic clocks to track changes in brain health over time, helping improve early detection and monitoring of age-related cognitive problems.

Cognitive decline and dementia are major public health concerns, especially among aging populations. In this study, researchers followed 2671 Hispanic/Latino adults (average age 57; 66% women) over a seven-year period. They measured each participant’s biological age using epigenetic clocks and assessed their cognitive performance at two time points.

“We evaluated the associations of 5 epigenetic clocks and their between-visit change with multiple measures of cognitive aging that included a global and domain-specific cognitive function score at each visit, between-visit change in global and domain-specific cognitive function score, and MCI diagnosis at visit 2 (V2).”

Epigenetic clocks estimate biological age based on DNA chemical modifications, called methylation, that accumulate with age. The study evaluated five different clocks, including newer models like GrimAge and DunedinPACE, which are designed to more accurately reflect health-related aging.

The researchers found that individuals with faster biological aging showed lower cognitive function and higher probability of developing MCI over time. Among the five clocks studied, newer models such as GrimAge and DunedinPACE showed the strongest associations with memory, processing speed, and overall brain health. These findings suggest that tracking changes in biological age over time may be more effective than relying on a single measurement to identify those at risk for cognitive impairment.

Importantly, the associations between biological aging and cognitive decline remained significant even after accounting for other known risk factors such as education, language preference, and cardiovascular health. This supports the idea that epigenetic clocks capture unique biological processes that influence brain aging. The study also found that the impact of changes in biological age over time was comparable to that of APOE4, a well-established genetic risk factor for Alzheimer’s disease.

Overall, this is the first large-scale study to examine these associations in a Hispanic/Latino population, a group that is underrepresented in aging research. By identifying early biological signs of brain aging, this work highlights the potential of epigenetic clocks as tools for routine health assessments. Monitoring changes in these biological markers could help detect individuals at risk for cognitive decline and guide timely interventions to preserve brain health.

Read the full paper: DOI: https://doi.org/10.18632/aging.206317

Corresponding author: Myriam Fornage - Myriam.Fornage@uth.tmc.edu

Keywords: aging, epigenetic clocks, DNA methylation, Hispanic/Latinos, cognitive function, dementia

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