ADD results for il15 and integrin blocking sections
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@ -2279,9 +2279,20 @@ do the inverse.
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\subsection{blocking integrin binding does not alter expansion or phenotype}
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% BACKGROUND add background into why integrins are important
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One of the reasons the \gls{dms} platform might be performing better than the
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beads is the fact that they are composed of gelatin, which is a collagen
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derivative. The beads are simply \gls{mab} attached to a polymer resin coated
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onto an iron oxide core, and thus have no analogue for collagen. Collagen
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domains present on the \gls{dms} group could be creating pro-survival and
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pro-expansion signals to the T cells through \gls{a2b1} and \gls{a2b2}, causing
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them to grow better in the \gls{dms} system.
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% TODO perhaps these figs should be combined
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% TODO actually make the captions for these
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% TODO add some background into why integrins are important and the proposed mechanism
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% TODO add an experimental timeline to these showing when I added the mabs
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\begin{figure*}[ht!]
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\begingroup
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@ -2297,6 +2308,20 @@ do the inverse.
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\label{fig:integrin_1}
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\end{figure*}
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% TABLE add regression table showing the results from this analysis
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We tested this hypothesis by adding blocking \glspl{mab} against \gls{a2b1}
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and/or \gls{a2b2} to running T cell cultures activated using the \glspl{dms}.
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These block \glspl{mab} were added at day 6 of culture when \gls{a2b1} and
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\gls{a2b2} were known to be expressed {\#}. We found that the fold expansion was
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identical in all the blocked groups vs the unblocked control group
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(\cref{fig:inegrin_1_fc}). Furthermore, we observed that the \ptmemp{} (total
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and across the CD4/CD8 compartments) was not significantly different between any
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of the groups (\cref{fig:inegrin_1_mem}). We also noted that \gls{a2b1} and
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\gls{a2b2} were present on the surface of a significant subset of T cells at day
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6, showing that the target we wished to block was present
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(\cref{fig:inegrin_1_cd49}).
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\begin{figure*}[ht!]
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\begingroup
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@ -2311,8 +2336,33 @@ do the inverse.
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\label{fig:integrin_2}
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\end{figure*}
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Since this last experiment gave a negative result, we decided to hit \gls{a2b1}
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and \gls{a2b2} harder by adding blocking \glspl{mab} at more timepoints between
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day 0 and day 6, hypothesizing that the majority of the signaling would be
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during the period of culture where the \gls{dms} surface concentration was at
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its maximum. Once again, we observed no difference between any of the blocked
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conditions and the unblocked controls in regard to expansion
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(\cref{fig:inegrin_2_fc}). Furthermore, none of the \ptmemp{} readouts (total,
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CD4, or CD8) were statistically different between groups
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(\cref{fig:inegrin_2_mem}).
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Taken together, these data suggest that the advantage of the \gls{dms} platform
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is not due to signaling through \gls{a2b1} or \gls{a2b2}.
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\subsection{blocking IL15 signaling does not alter expansion or phenotype}
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% BACKGROUND why is IL15 important?
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% TODO cite the luminex data
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\gls{il15} is a cytokine responsible for memory T cell survival and maintenance.
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Furthermore, we observed in other experiments that it is secreted to a much
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greater extend in \gls{dms} compared to bead cultures. One of our driving
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hypotheses in designing the \gls{dms} system was that the higher cell density
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would lead to greater local signaling. Since we observed higher \ptmemp{} across
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many conditions, we hypothesized that \gls{il15} may be responsible for this,
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and further that the unique \textit{cis/trans} activity of \gls{il15} may be
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more active in the \gls{dms} system due to higher cell density.
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% TODO actually add captions
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% TODO add fold change and viability to these
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% TODO maybe combine these
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@ -2332,6 +2382,20 @@ do the inverse.
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\label{fig:il15_1}
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\end{figure*}
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% TODO how did I determine how much to add?
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% TODO how often was this added?
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% TODO just gate these as normal because this looks sketchy
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We first tested this hypothesis by blocking \gls{il15r} with either a specific
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\gls{mab} or an \gls{igg} isotype control. We observed no difference in the
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expansion rate of blocked or unblocked cells (this experiment also had
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bead-based groups but they did not expand well and thus were not included)
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(\cref{fig:il15_1_fc}). Furthermore, there were no differences in viability
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between any group (\cref{fig:il15_1_viability}). We also performed flow
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cytometry to asses the \ptmemp{} and \pthp{} outputs. Without even gating the
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samples, simply lining up their histograms showed no difference between any of
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the markers, and by extension showing no difference in phenotype
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(\cref{fig:il15_1_mem}).
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\begin{figure*}[ht!]
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\begingroup
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@ -2347,6 +2411,16 @@ do the inverse.
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\label{fig:il15_2}
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\end{figure*}
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We next tried blocking soluble \gls{il15} itself using either a \gls{mab} or an
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\gls{igg} isotype control. Similarly, we observed no difference between fold
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change, viability, or marker histograms between any of these markers, showing
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that blocking \gls{il15} led to no difference in growth or phenotype.
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% TODO this can probably be worded more specifically in terms of the cis/trans
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% action of IL15
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In summary, this data did not support the hypothesis that the \gls{dms} platform
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gains its advantages via the \gls{il15} pathway.
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\section{discussion}
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\chapter{aim 3}\label{aim3}
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