It’s true: Latinos age slower than other ethnicities


A UCLA study is the first to show that Latinos age at a slower rate than other ethnic groups. The findings, published in the current issue of Genome Biology, may one day help scientists understand how to slow the aging process for everyone.

“Latinos live longer than Caucasians, despite experiencing higher rates of diabetes and other diseases. Scientists refer to this as the ‘Hispanic paradox,'” said lead author Steve Horvath, a professor of human genetics at the David Geffen School of Medicine at UCLA. “Our study helps explain this by demonstrating that Latinos age more slowly at the molecular level.”

According to the Centers for Disease Control and Prevention, Latinos in the U.S. live an average of three years longer than Caucasians, with a life expectancy of 82 versus 79. At any age, healthy Latino adults face a 30% lower risk of death than other racial groups, reports a 2013 study in the American Journal of Public Health.

The UCLA team used several biomarkers, including an “epigenetic clock” developed by Horvath in 2013, to track an epigenetic shift linked to aging in the genome. Epigenetics is the study of changes to the DNA molecule that influence which genes are active but don’t alter the DNA sequence itself.

Horvath and his colleagues analyzed 18 sets of data on DNA samples from nearly 6,000 people. The participants represented seven different ethnicities: two African groups, African-Americans, Caucasians, East Asians, Latinos and an indigenous people who are genetically related to Latinos. Called the Tsimane, the latter group lives in Bolivia.

When the scientists examined the DNA from blood-which reveals the health of a person’s immune system — they were struck by differences linked to ethnicity. In particular, the scientists noticed that, after accounting for differences in cell composition, the blood of Latinos and the Tsimane aged more slowly than other groups.

According to Horvath, the UCLA research points to an epigenetic explanation for Latinos’ longer life spans. For example, the biological clock measured Latino women’s age as 2.4 years younger than non-Latino women of the same age after menopause.

“We suspect that Latinos’ slower aging rate helps neutralize their higher health risks, particularly those related to obesity and inflammation,” said Horvath, who is also a professor of biostatistics at the Fielding School of Public Health at UCLA. “Our findings strongly suggest that genetic or environmental factors linked to ethnicity may influence how quickly a person ages and how long they live.”

The Tsimane aged even more slowly than Latinos. The biological clock calculated the age of their blood as two years younger than Latinos and four years younger than Caucasians. The finding reflects the group’s minimal signs of heart disease, diabetes, hypertension, obesity or clogged arteries.

“Despite frequent infections, the Tsimane people show very little evidence of the chronic diseases that commonly afflict modern society,” observed coauthor Michael Gurven, a professor of anthropology at UC Santa Barbara. “Our findings provide an interesting molecular explanation for their robust health.”

In another finding, the researchers learned that men’s blood and brain tissue ages faster than women’s from the same ethnic groups. The discovery could explain why women have a higher life expectancy than men.

Horvath and his colleagues next plan to study the aging rate of other human tissues and to identify the molecular mechanism that protects Latinos from aging.


Source: University of California, Los Angeles (UCLA), Health Sciences

Research Reference:

  1. Steve Horvath, Michael Gurven, Morgan E. Levine, Benjamin C. Trumble, Hillard Kaplan, Hooman Allayee, Beate R. Ritz, Brian Chen, Ake T. Lu, Tammy M. Rickabaugh, Beth D. Jamieson, Dianjianyi Sun, Shengxu Li, Wei Chen, Lluis Quintana-Murci, Maud Fagny, Michael S. Kobor, Philip S. Tsao, Alexander P. Reiner, Kerstin L. Edlefsen, Devin Absher, Themistocles L. Assimes. An epigenetic clock analysis of race/ethnicity, sex, and coronary heart disease. Genome Biology, 2016; 17 (1) DOI: 10.1186/s13059-016-1030-0
Posted in Anthropology, Biology on August 17, 2016