Awardees

Noah Silverstein  |  Luban Lab  |  F30 Award

Epigenetic inheritance is a process by which parental exposure to environmental factors influences offspring phenotype. This field of investigation has wide-ranging implications for human health. Epidemiologic studies have shown that exposure of parents or grandparents to starvation, trauma, cigarette smoke, or other stressors alters offspring susceptibility to cardiovascular disease, obesity, lung disease, or other conditions. Research with animal models has mirrored these findings and offers tools for disentangling the underlying mechanisms of epigenetic information transfer from parent to offspring. Such research has been greatly enabled by recent technological advances, including next generation sequencing and fundamental discoveries like microRNA biology. In vitro fertilization experiments demonstrate that sperm carry sufficient information to propagate epigenetic phenotypes across generations, and research with these paternal epigenetic inheritance models has identified sperm-associated small non-coding RNAs (sncRNA) as carriers of information from father to offspring. I have established an epigenetic inheritance model in which paternal influenza infection, with virus elimination and disease recovery prior to mating, results in an adaptive attenuation of disease severity (significantly decreased weight loss) in response to influenza infection in offspring, as well as a maladaptive altered glucose metabolism. While these phenotypes are robust, the underlying mechanism of information transfer to offspring remains to be determined. In preliminary experiments to address the mechanism I have found that influenza infection alters sperm-associated sncRNA. This proposal addresses the hypothesis that influenza virus-induced changes in sperm-associated sncRNA populations alter embryo development resulting in offspring metabolic and immune phenotypes. Aim 1 elucidates the underlying epigenetic inheritance mechanism through kinetic analysis of sperm sncRNA and early embryo development. Aim 2 determines the specificity of the offspring epigenetic inheritance phenotype to the paternal stressor both directly by challenging with a non-cross reactive strain of influenza virus, and indirectly by further metabolic phenotyping to determine if paternal influenza infection alters glucose homeostasis and liver gene expression in the offspring in ways similar to other paternal stressors. This research will provide valuable insight into the mechanism underlying epigenetic inheritance, and do so within the context of a novel epigenetic inheritance model with direct relevance to human health.