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<b><span style="font-family:"Times New Roman","serif"">NAME: </span></b><span style="font-family:"Times New Roman","serif"">Danielle L. Stolley</span></p>
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<b><span style="font-family:"Times New Roman","serif"">DATE: </span></b><span style="font-family:"Times New Roman","serif"">Thursday, August 1<sup>st</sup>, 2019</span></p>
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<b><span style="font-family:"Times New Roman","serif"">TIME: </span></b><span style="font-family:"Times New Roman","serif"">10:00 A.M.</span></p>
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<b><span style="font-family:"Times New Roman","serif"">PLACE:</span></b><span style="font-family:"Times New Roman","serif""> Engineering Building II, room W205</span></p>
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<b><span style="font-family:"Times New Roman","serif"">CHAIR/ADVISOR: </span></b><span style="font-family:"Times New Roman","serif"">Dr. Elebeoba E. May</span></p>
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<b><span style="font-size:16.0pt; font-family:"Times New Roman","serif"">The Spatiotemporal Dynamics of Mycobacterial Infection</span></b></p>
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<span style="font-family:"Times New Roman","serif"">Host response to<i> Mycobacterium tuberculosis
</i>(Mtb) is distinctive in the use of a spatial immunological response to limit the progression of Mtb infection. This process results in the formation of a granuloma, an aggregation of immune cells that physically isolates invading microbes. Granuloma formation
is a hallmark of the adaptive immune response to Mtb infection. Traditional <i>in vivo
</i>studies have investigated the mature granuloma, but relatively fewer studies investigate how these structures form during the early stages of infection nor how spatial organization impacts control, resolution, or cellular dissemination of the bacterium.
Research has shown that initial aggregation of macrophages during the innate immune response critically influences the progression of disease and formation of granulomas during adaptive immunity. However, current experimental methods for studying cellular
interactions during early stages of infection are ill adapted for concurrent spatial and temporal quantification of host-pathogen dynamics, which is necessary for a quantitative understanding of the innate spatial immune response to Mtb and to inform the development
of accurate computational models of tuberculosis disease. To address this, we developed a three-dimensional (3D)
<i>ex vivo</i> model of mycobacterium infected macrophages cultured in reconstituted basement membrane and characterized the structural impact of 3D immune response on infection dynamics in comparison to standard two-dimensional (2D) infection models. We quantified
temporal immune response using standard biological sampling methodologies and used long-term time-lapse confocal imaging to quantify the complexities of the early spatiotemporal dynamics of macrophage response to mycobacterium infection. Our studies using
<i>Mycobacterium smegmatis</i> indicate that the 3D environment induces a shift in dynamics. In 3D we see significantly higher cellular velocities in infected conditions as compared to control non-infected conditions, whereas the converse occurs in 2D, which
may impact computational models that utilize 2D assumptions. We developed a data analysis pipeline to quantify macrophage state with respect to infection and cellular microenvironment. Results show non-infected and non-active cells within infected environments
present with dynamics comparable to controls, while infected and activated macrophages exhibit comparable spatiotemporal dynamics in 2D and 3D. Using the more virulent
<i>Mycobacterium bovis </i>(BCG), we observe a greater distinction between control and infected conditions and preliminary evidence of a more distinct 3D immune response resulting in increased cell death and extracellular bacteria.
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