The Interaction Between Two Genomes Is the Key to Healthy Aging
The way we age might be determined long before the aging process starts and the first signs appear. Scientists at the Centro Nacional de Investigaciones Cardiovasculares Carlos III (CNIC), in partnership with groups at the universities of Zaragoza and Santiago de Compostela and the UK’s Medical Research Council, have uncovered how the combination and interaction between our two genomes, the nuclear and the mitochondrial, triggers a cellular adaptation that has repercussions throughout our lives and determines how we age. The findings were published in July 2016 in the journal Nature.
A release from CNIC reports that the study, led by Dr. José Antonio Enriquez, sheds light on the physiological differences between individuals and opens the way to the study of common aging-related conditions, such as diabetes, cardiovascular diseases, and cancer. The study also provides extremely valuable information about how to best use mitochondrial donation technology. This therapeutic approach, popularly known for producing “three-parent babies”, is designed to avoid the transmission of inherited pathogenic mutations and has already been approved in the UK.
Of the more than 20,000 human genes, 37 are found not in the cell nucleus but in the mitochondria, small organelles that function as energy factories. The small mitochondrial genome, which we inherit from our mothers, is known as the mitochondrial DNA. Like its nuclear equivalent, the mitochondrial genome shows a degree of genetic variability, both in mice and humans.
The CNIC-led team found that non-pathogenic mitochondrial DNA variants have different impacts on organismal metabolism and aging. Dr. Enriquez explains that the study uncovers how “variation in just a few genes can determine whether we experience healthy aging.” The results represent a major advance in our understanding of the aging process, showing that “non-pathogenic differences in mitochondrial function have direct repercussions on the pace of aging.”
The release quotes study first author Dr. Ana Latorre-Pellicer as saying, “The key to this study was understanding how the combination and interaction of our two genomes, the nuclear and the mitochondrial, triggers a cellular adaptation with repercussions throughout our lives.” By using animal models, the research team obtained robust evidence that the simple measure of changing an animal’s mitochondrial DNA triggers a series of adaptive cellular mechanisms in young animals that ensure a more healthy aging process. “If we can understand the biology underlying healthy aging that is free of age-associated diseases, we will be in a position to maintain long-lasting health during the aging process,” affirms Dr. Latorre-Pellicer.