A Jointly Experimental and Theoretical Exploration of Staphylococcus aureus Infections and their Control in Galleria mellonella Público
Goldberg, David (Spring 2023)
Abstract
Without the innate and adaptive immune systems, we are nothing more than fleshy flasks to invading bacteria. The innate immune system and all its components clear or reduce the densities bacterial infections to asymptomatic levels. The wax moth, Galleria mellonella, has become an attractive model for experimentally exploring the action of innate immune system in the control of bacterial infections. The goal of this investigation is to use mathematical models and computer simulations to generate testable hypotheses about the population dynamics of the control bacterial infection by the innate immune system of G. mellonella. Using Staphylococcus aureus and G. mellonella I estimate the parameters of these models and explore their properties. A particular focus is the contribution of the phagocytes of moth, hemocytes, to the dynamics of infections and the conditions under which they control the infection. The results of this jointly theoretical and experiment study postulate and provide evidence that that phagocytes alone are not sufficient to control. S. aureus infections in G. mellonella. Extracellular traps are generated and play the dominant role in controlling these infections.
Table of Contents
Introduction 1
Methods 5
Results 7
Discussion 22
References 26
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