January 31, 2019 Male mice hard-wired to recognize sex of other mice, study finds – by Stanford University Medical Center — Scientists have discovered that male mice are hard-wired from birth to recognize the sex of other mice. @ News / 04.18.19 Calculating genetic risk for obesity Susanna M. Hamilton, Broad Communications Credit : Susanna M. Hamilton, Broad Communications By Karen Zusi – Powerful new tool may enable new opportunities for biological understanding and clinical interventions

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News / 04.18.19

Calculating genetic risk for obesity

Susanna M. Hamilton, Broad Communications

Credit : Susanna M. Hamilton, Broad Communications By Karen Zusi

Powerful new tool may enable new opportunities for biological understanding and clinical interventions

By analyzing millions of DNA variations in the human genome, researchers have developed a “polygenic score” for obesity, a quantitative tool that predicts an individual’s inherited risk for becoming overweight.

The researchers found that a genetic predisposition to obesity begins to appear in early childhood and is often clearly evident by early adulthood — suggesting an opportunity for early intervention. 

“We’ve known for a long time that some people are born with DNA predisposing them to obesity,” says co-first author Amit V. Khera, a clinician and member of the research faculty in the Massachusetts General Hospital Center for Genomic Medicine and associate scientist at the Broad Institute. “Now, we can quantify those differences in a meaningful way, and potentially explore new routes for achieving better health.”

In addition to Khera, the research team was co-led by Mark Chaffin and Sekar Kathiresan of the Broad Institute of MIT and Harvard, Massachusetts General Hospital (MGH), and Harvard Medical School.

These findings are published in Cell

DNA is not destiny

Obesity is a major global health issue, often stigmatized as a disease related to poor lifestyle choices and lack of willpower. This stigma can create significant barriers to effective healthcare. However, quantifying a strong biological predisposition among many individuals who struggle with severe obesity could help to destigmatize the condition and offer new opportunities for prevention.

To develop the polygenic score, the researchers compiled data on the impact of more than 2.1 million places in the genome on body weight, gathered from the largest published genome-wide association study on obesity. New computational algorithms distilled that information into a single number for each individual. The team validated the scoring algorithm based on data from 119,951 individuals in the UK Biobank, and then used it to explore obesity in additional groups totaling more than 300,000 individuals from the UK Biobank, the Framingham Offspring and Coronary Artery Risk Development in Young Adults study, and the Avon Longitudinal Study of Parents and Children.

The polygenic scores for all study participants correlated with a clear difference in weight. The 10 percent of the adult population with the highest polygenic scores — corresponding to 32 million Americans — weighed nearly 30 pounds more on average than those with the lowest scores, and were 25 times as likely to be severely obese. They were also at increased risk for cardiometabolic diseases such as diabetes and coronary artery disease.

“A high polygenic score doesn’t necessarily mean someone is fated to become obese,” says Kathiresan, an institute member and director of the Cardiovascular Disease Initiative at the Broad Institute, director of the Center for Genomic Medicine at MGH, and professor of medicine at Harvard Medical School. “DNA is not destiny. We know that a healthy lifestyle can offset a genetic predisposition, although those with a high genetic risk likely have to work much harder to maintain a normal weight. Prevention strategies could be especially impactful early in life for these individuals.”

Ensuring equal access in clinical practice

Polygenic scoring already holds potential for prediction, intervention, and understanding of many common diseases, such as cardiovascular disease and breast cancer. This new score could further accelerate research into the molecular and physiological basis of severe obesity. Careful study of individuals with very high or very low scores might uncover new biological pathways underlying disease and help researchers explore molecular mechanisms related to appetite regulation, fat storage, and the microbiome. 

This work points to both important opportunities and potential challenges for clinical medicine, according to the researchers. The polygenic score is developed using data collected primarily from European ancestry individuals, and future studies will be necessary to extend this approach across additional ancestral backgrounds and ensure equal access in clinical practice. Additional research will also be needed to better understand how this information can improve disease prevention or treatment.

“Importantly, we are in the early days of identifying how we can best inform and empower patients to overcome health risks in their genetic background,” says Khera. “We are incredibly excited about the potential to improve health outcomes.”

This work was supported in part by the National Human Genome Research Institute (1K08HG0101), a BroadIgnite grant from the Broad Institute, the National Lipid Association, the Wellcome Trust (202802/Z/16/Z), the University of Bristol NIHR Biomedical Research Centre (S- BRC-1215-20011), the MRC Integrative Epidemiology Unit (MC_UU_12013/3), and the National Heart Lung and Blood Institute (HL127564).

Amit Khera and Sekar Kathiresan are listed as co-inventors on a patent application for the use of polygenic scores to determine risk and guide therapy, and have received consultant fees from Color Genomics.

Paper(s) cited:

Khera AV, Chaffin M, et al. Polygenic prediction of weight and obesity trajectories from birth to adulthood. Cell. Online April 18, 2019. DOI: 10.1016/j.cell.2019.03.028

In Broad Video

Explainer: What is polygenic scoring?
 

Is a genetic predisposition to obesity fate?
 

How early in life does a genetic predisposition to obesity become obvious?
 

How might this research change our societal view of obesity?
 

How might this work help us understand the biology of obesity?
 

How does this work relate to the recent obesity epidemic?
 

Related People

Sekar Kathiresan
 

Related Programs

Cardiovascular Disease Initiative
 

Related News

In depth: Polygenic risk scoring
 

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