Obesity & Genetics
Obesity results when body fat accumulates over time as a result of a chronic energy imbalance (calories consumed exceed calories expended). Obesity is a major health hazard worldwide and is associated with several relatively common diseases such as diabetes, hypertension, heart disease, and some cancers.
The "Obesity Epidemic"–Can Genes Really Be Involved?
In recent decades, obesity has reached epidemic proportions in populations whose environments offer an abundance of calorie-rich foods and few opportunities for physical activity. Although changes in the genetic makeup of populations occur too slowly to be responsible for this rapid rise in obesity, genes do play a role in the development of obesity. Most likely, genes regulate how our bodies capture, store, and release energy from food. The origin of these genes, however, might not be recent.
Learn more about obesity and genetics.
How Might Genes Contribute to Obesity? A "Thrifty Genotype" Hypothesis
Any explanation of the obesity epidemic has to include both the role of genetics as well as that of the environment. A commonly quoted genetic explanation for the rapid rise in obesity is the mismatch between today’s environment and "energy-thrifty genes" that multiplied in the past under different environmental conditions when food sources were rather unpredictable. In other words, according to the "thrifty genotype" hypothesis, the same genes that helped our ancestors survive occasional famines are now being challenged by environments in which food is plentiful year round.
What Other Ways Might Genes Influence Obesity?
It has been argued that the thrifty genotype is just part of a wider spectrum of ways in which genes can favor fat accumulation in a given environment. These ways include the drive to overeat (poor regulation of appetite and satiety); the tendency to be sedentary (physically inactive); a diminished ability to use dietary fats as fuel; and an enlarged, easily stimulated capacity to store body fat. Not all people living in industrialized countries with abundant food and reduced physical activity are or will become obese; nor will all obese people have the same body fat distribution or suffer the same health issues. This diversity occurs among groups of the same racial or ethnic background and even within families living in the same environment. The variation in how people respond to the same environmental conditions is an additional indication that genes play a role in the development of obesity. This is consistent with the theory that obesity results from genetic variation interacting with shifting environmental conditions.
What Do We Know about Specific Genes Associated with Obesity?
The indirect scientific evidence for a genetic basis for obesity comes from a variety of studies. Mostly, this evidence includes studies of resemblance and differences among family members, twins, and adoptees. Another source of evidence includes studies that have found some genes at higher frequencies among the obese (association studies). These investigations suggest that a sizable portion of the weight variation in adults is due to genetic factors. However, identifying these factors has been difficult.
How Can Public Health Genomics Help Reduce the Impact of Obesity in Populations?
Scientists have made great advances in understanding important environmental causes of obesity as well as identifying several of the many genes that might be implicated. Major efforts are now directed toward assessing the interactions of genes and environment in the obesity epidemic. The translation of these efforts into public health practice, from a genomic point of view, will take time.
Learn more about using family history to promote health.
…And How Can Family History Help?
Fortunately, there is a simple way for public health genomics to start reducing the effects of obesity in populations. It is through the use of family history. Family history reflects genetic susceptibility and environmental exposures shared by close relatives. Health care practitioners can routinely collect family health history to help identify people at high risk of obesity-related disorders such as diabetes, cardiovascular diseases, and some forms of cancer. Weight loss or prevention of excessive weight gains is especially important in this high-risk group. Any health promotion effort to reduce the adverse impact of obesity in populations may be more effective if it directs more intensive lifestyle interventions to high-risk groups (high-risk prevention strategy). However, such strategies should not detract from the population prevention strategy, which recommends that regardless of genetic susceptibility and environmental exposure, all people should follow a healthful diet and incorporate regular physical activity into their daily routine to help reduce the risk of obesity and its associated conditions.
How Can You Tell If You or Your Family Members Are Overweight?
Most health care practitioners use the Body Mass Index (BMI) to determine whether a person is overweight. Check your Body Mass Index with a BMI calculator.
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Bouchard C. The biological predisposition to obesity: beyond the thrifty genotype scenario.Int J Obes 2007; 31:1337-9.
Bouchard C. Defining the genetic architecture of the predisposition to obesity: a challenging but not insurmountable task. Am J Clin Nutr 2010; 91:5-6.
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Centers for Disease Control and Prevention
- Obesity and Genetics, Office of Public Health Genomics, CDC
- Obesity and Genetics: What We Know, What We Don't Know and What It Means
- Overweight and Obesity, Centers for Disease Control and Prevention, CDC
- Family History Tools and Resources, Office of Public Health Genomics, CDC
Other health organizations
- Page last reviewed: January 19, 2010
- Page last updated: January 19, 2010
- Content source:
- Office of the Associate Director for Communication, Digital Media Branch, Division of Public Affairs
- Page maintained by: Office of the Associate Director for Communication, Digital Media Branch, Division of Public Affairs