A new study led by a researcher at Milken Institute School of Public Health (Milken Institute SPH) at the George Washington University looks at the metal cadmium and finds that higher human exposure can lead to significantly shorter telomeres, bits of DNA at the ends of chromosomes that are associated with cardiovascular disease, diabetes and other diseases of old age. The study, which was published online in the American Journal of Epidemiology, is the largest-ever to look at cadmium exposure and telomeres.
“We looked at heavy metals in this study and found a strong association between exposure to low levels of cadmium and telomere shortening,” says Ami Zota, ScD, MS, an assistant professor of environmental and occupational health at Milken Institute SPH. “Our findings suggest that cadmium exposure can cause premature aging of cells. And they add to other evidence indicating this heavy metal can get into the bloodstream and trigger kidney disease and other health problems.”
The World Health Organization calls environmental exposure to cadmium a “major public health concern,” and notes this heavy metal has been associated with cardiovascular disease, respiratory problems, cancer and other serious diseases. People typically are exposed to small amounts of this toxic metal by inhaling tobacco smoke, eating fruits and vegetables grown in contaminated soil or living near an industrial site, according to Zota.
In this study, Zota and her colleagues looked at blood and urine samples taken from more than 6,700 adults who participated in the National Health and Nutrition Examination Survey (NHANES) from 1999 to 2002, a nationally representative health survey of the U.S. population. The researchers obtained purified DNA from blood cells and then used a genetic technique known as polymerase chain reaction to measure the telomeres, the caps on the tips of chromosomes that help protect the genetic code.
Then the researchers measured the concentration of cadmium in the blood and urine samples. They divided the participants up into fourths based on the concentrations of cadmium found in their bloodstream, finding that people in the highest group had telomeres that were about six percent shorter than those in the lowest group.
“People with the highest cadmium exposure had cells that looked on average 11 years older than their chronological age,” Zota said, adding that even people in the highest group of exposure still had very tiny amounts of metal in their bloodstream. “This study adds to evidence suggesting that no level of exposure to this metal is safe.”
Normal wear and tear on the telomeres leads to shortening as people get older. But other factors, including cadmium, may speed up that process. When the telomeres get too short, the cell can no longer divide and chronic diseases can be the result.
The findings of this study suggest that cadmium can elicit harmful effects on the human body at levels well below the current safety standards set by environmental and occupational safety agencies. Such findings suggest that public health officials may need to accelerate the efforts to reduce the contamination of the environment—so that people are protected from even trace amounts of this metal, Zota notes.
The World Health Organization says global efforts to reduce exposure to this metal are urgently needed in order to protect the public health. Because tobacco smoke releases cadmium into the air WHO recommends a ban on smoking in public places. The group also suggests that governments worldwide promote better ways of disposing batteries and other measures to prevent contamination of the environment. Interventions should be aimed at protecting the most vulnerable, such as minority or low-income populations, who are often disproportionately exposed.
For non-smokers, food is generally the largest source of cadmium exposure, Zota says. Cadmium levels in some foods can be increased due to the application of phosphate fertilizers or sludge that is applied to farm fields.
Many other studies have linked exposure to cadmium to a host of health problems but this is one of the first to suggest it can shorten telomeres and set people up for premature aging, Zota says. This study also looked at human exposure to the heavy metal lead but found no link between blood levels of lead and shorter telomeres, Zota says.
Still, she says the new study’s findings do not prove that exposure to cadmium actually causes telomeres to get shorter. Instead, this study finds an association between cadmium levels and shorter telomeres, a link that was strong and independent but must be proven with additional research.
Zota served as the lead author on the study. Other collaborators on the study included researchers from the University of California, San Francisco, the University of Michigan, Ann Arbor and the Stanford University School of Medicine. The study was funded by the National Institutes of Health