| Parabiosis [53] |
Congenically distinct mice are joined via skin flaps that allows their vasculature to anastomose so that in ~2 weeks, blood contains equal cells of each partner |
shows whether the cells are maintained independent of vascular input can be tested over many weeks can assess all organs/tissues at once
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intensive procedure not appropriate for chronic infection can be difficult to interpret if the T cell population is mixed in the tissue(s) cannot assess cell egress from tissue of interest
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| Tissue transplant |
Tissue from a congenically distinct subject is transplanted onto another |
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not appropriate for chronic infection inflammation induced by graft surgery could influence results only appropriate for organs that are easily transplanted (e.g., skin)
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| Photo-conversion [54] |
Photo-convert transgenic cells (e.g., Kaede-expressing cells irreversibly change from green to red when exposed to violet light) |
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| Dye-label |
Inject a fluorescent dye into the tissues (e.g., CSFE) to label local cells |
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dye diffusion away from local site can result in unintended cells getting labeled can have incomplete labeling of target cells loss of dye-labeling if cells proliferate may result in the cells of interest no longer being labelled
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| Intravascular antibody labeling [55] |
Inject anti-CD45 (or anti-CD8, etc) i.v. 3 min prior to euthanization |
reveals location of cells (vasculature vs. parenchyma) can work for chronic infection works well for highly vascularized tissue (e.g., lung)
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| Peripheral antibody-mediated T cell depletion [44] |
Inject anti-CD8 (or anti-Thy1.1, etc.) i.p. starting 8-10 dpi |
can show cells are maintained independent of vasculature works well for solid organs with minimal antibody infiltration (e.g., brain, skin) can work for chronic infection can assess multiple organs/tissues at once
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