A novel method for detecting dietary (and other) toxicities: quantifying the adverse effects of added sugar consumption (814.8)

The ultimate function of an organism’s physiology is the performance of complex behaviors that facilitate reproduction. Here we use Organismal Performance Assays (OPAs) to quantify declines in Darwinian fitness of house mice due to experimental exposures. OPAs are sensitive phenotyping approaches that use semi‐natural conditions to challenge the physiology of differentially treated animals in direct competition with each other. Using OPAs we demonstrated that consumption of human‐relevant levels of added sugar (25% kcal) decreases reproduction of male mice by 25% while doubling the mortality rate of females relative to starch‐fed controls. Furthermore, we showed that many clinical measures associated with proximate effects of added sugar consumption were not predictive of organismal‐level effects. We expand upon these studies by using OPAs to test for differential health consequences of the two most common forms of added sugar. We report that females fed a diet containing an equal ratio of fructose and glucose monosaccharides (modeling high fructose corn syrup; HFCS) experienced a mortality rate 1.9 times higher and produced 26% fewer offspring than those fed sucrose (fructose‐glucose disaccharide). This experiment provides evidence that fructose and glucose monosaccharides (HFCS) are more deleterious to mammalian health than isocaloric sucrose. Grant Funding Source : Supported by NIH and NSF