Abstract
Tissue-resident macrophages exhibit specialized phenotypes dependent on their in vivo physiological niche. Investigation of their function often relies upon complex whole mouse transgenic studies. While some appropriate lineage-associated promoters exist, there are no options for tissue-specific targeting of macrophages. We have developed full protocols for in vivo productive infection (defined by stable transgene expression) of tissue-resident macrophages with lentiviral vectors, enabling RNA and protein overexpression, including expression of small RNA species such as shRNA, to knock down and modulate gene expression. These approaches allow robust infection of peritoneal tissue-resident macrophages without significant infection of other cell populations. They permit rapid functional study of macrophages in homeostatic and inflammatory settings, such as thioglycolate-induced peritonitis, while maintaining the cells in their physiological context. Here we provide detailed protocols for the whole workflow: viral production, purification, and quality control; safety considerations for administration of the virus to mice; and assessment of in vivo transduction efficiency and the low background levels of inflammation induced by the virus. In summary, we present a quick and accessible protocol for the rapid assessment of gene function in peritoneal tissue-resident macrophages in vivo.
Highlights
Tissue-resident macrophages (MVs) are phagocytic cells actively contributing to the maintenance of homeostasis and immune surveillance and the resolution of inflammation.[1,2] Their origin varies with their home tissue and is controlled by specific transcription factor expression.[3]
We employ a commonly used broadly tropic vesicular stomatitis virus envelop glycoprotein (VSV-G) pseudotyped lentivirus vector with transgenes driven by spleen focusforming virus (SFFV) promoter and show a natural propensity for peritoneal MV infection after intraperitoneal (i.p.) injection
We recommend each lab to have written standard operating procedures (SOPs) and risk assessment (RA). This is a non-exhaustive list of the precautions we have implemented in our laboratory that may serve as an example, but it needs to be adapted to every local regulation
Summary
Tissue-resident macrophages (MVs) are phagocytic cells actively contributing to the maintenance of homeostasis and immune surveillance and the resolution of inflammation.[1,2] Their origin varies with their home tissue and is controlled by specific transcription factor expression.[3]. 5. Peritoneal Cell Collection from Infected Mice (Days 8–22) Mice and associated tissue samples are considered category II infectious until up to 72 h after injection.
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