Recent advances in understanding the adaptive evolution of metabolic genes and traits

Purpose of review This review summarizes the recent advances in understanding the adaptive evolution of metabolic genes and traits, providing insights into gene-diet interactions in human evolution and health. Recent findings The rapid accumulation of ancient DNA across time and geography illuminates unprecedented details of some well-established examples of genetic adaptation to diet, such as the LCT and FADS genes. Novel cases of thrifty genes were identified, especially a microRNA at the LCT locus that controls energy expenditure and glucose homeostasis, connecting the historical adaptation to present-day metabolic disorders. A new example of gene–diet–microbiota interactions was established among the AMY1 copy number, starchy diets, and resistant-starch-digesting Ruminococcus. The explosion of genome-wide association studies in large cohorts unravels the present-day health implications of historically adaptive genetic variants. It also enables studies into the polygenic adaptation of metabolic traits, revealing intriguing adaptive signals for increased bone mineral density, blood pressure, and risk of type 2 diabetes, but decreased body mass index and HbA1c. Summary The rapid accumulation of ancient and modern DNA has fueled the characterization of novel and existing cases of genetic adaptation. However, transferring these evolutionary insights into genome-informed precision nutrition requires extensive mechanistic studies and genotype-aware clinical...
Source: Current Opinion in Clinical Nutrition and Metabolic Care - Category: Nutrition Tags: GENES AND CELL METABOLISM: Edited by Anastasia Z. Kalea and Dorothy Klimis-Zacas Source Type: research