Effects of Spaceflight and Simulated Microgravity on a Host-Pathogen System


Meeting Abstract

96-1  Sunday, Jan. 6 13:30 – 13:45  Effects of Spaceflight and Simulated Microgravity on a Host-Pathogen System GILBERT, RG*; PAUL, AM; BHATTACHARYA, S; NASA Ames Research Center; NASA Ames Research Center; NASA Ames Research Center rachelrgilbert11@gmail.com https://www.nasa.gov/ames/research/space-biosciences/rachel-gilbert

While it has been shown that decades of astronauts and cosmonauts suffer from immune disorders both during and after spaceflight, the underlying causes are still poorly understood, due in part to the fact that there are so many variables to consider when investigating the human immune system in a complex environment. Invertebrates have become popular models for studying human disease because they are cheap, highly amenable to experimental manipulation, and have innate immune systems with a high genetic similarity to humans. Fruit flies (Drosophila melanogaster) have been shown to experience a dramatic shift in immune gene expression following spaceflight, but are still able to fight off infections when exposed to bacteria. Furthermore, a recent study showed that flies are more susceptible to infection following spaceflight, and that the common bacterial pathogen Serratia marcescens is also more lethal to fruit flies after being cultured in space, suggesting that not only do we need to consider host changes in susceptibility, but also changes in the pathogen itself after spaceflight conditions. In this study, I use both spaceflight and ground-based (simulated microgravity) environments to examine the genetic changes associated with increased S. marcescens virulence in order to understand how microgravity is affecting this pathogen, as well as to evaluate how these genetic changes influence and interact with the host immune system. This study will provide us with more directed approaches to studying the effects of spaceflight on human beings, with the ultimate goal of being able to ameliorate human immune dysfunction in future space exploration.

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