Abstract
The lung has a unique structure consisting of three functionally different compartments (alveolar, interstitial, and vascular) situated in an extreme proximity. Current methods to localize lung leukocytes using bronchoalveolar lavage and/or lung perfusion have significant limitations for determination of location and phenotype of leukocytes. Here we present a novel method using in vivo antibody labeling to enable accurate compartmental localization/quantification and phenotyping of mouse lung leukocytes. Anesthetized C57BL/6 mice received combined in vivo intravenous and intratracheal labeling with fluorophore-conjugated anti-CD45 antibodies, and lung single-cell suspensions were analyzed by flow cytometry. The combined in vivo intravenous and intratracheal CD45 labeling enabled robust separation of the alveolar, interstitial, and vascular compartments of the lung. In naive mice, the alveolar compartment consisted predominantly of resident alveolar macrophages. The interstitial compartment, gated by events negative for both intratracheal and intravenous CD45 staining, showed two conventional dendritic cell populations, as well as a Ly6Clo monocyte population. Expression levels of MHCII on these interstitial monocytes were much higher than on the vascular Ly6Clo monocyte populations. In mice exposed to acid aspiration-induced lung injury, this protocol also clearly distinguished the three lung compartments showing the dynamic trafficking of neutrophils and exudative monocytes across the lung compartments during inflammation and resolution. This simple in vivo dual-labeling technique substantially increases the accuracy and depth of lung flow cytometric analysis, facilitates a more comprehensive examination of lung leukocyte pools, and enables the investigation of previously poorly defined “interstitial” leukocyte populations during models of inflammatory lung diseases.
Highlights
We first developed the dual in vivo labeling technique using uninjured mice and tested whether this method could be used to chase leukocyte trafficking across the lung compartments in disease states by using mice exposed to acid-induced lung injury
In the absence of intravenous and intratracheal labeling of the lung, events of lung single-cell suspensions analyzed by flow cytometry are all negative in the PE and PE-Cy7 channels (Fig. 1A)
In this study we developed and validated a novel in vivo labeling method that enables an in-depth analysis of leukocyte location and phenotypes within the alveolar, interstitial, and vascular compartments of the mouse lung by flow cytometry
Summary
The aim of this study is to develop and validate an in vivo antibody labeling methodology to enable the flow cytometric separation of leukocyte subsets into the various lung compartments
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Published Version
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