Comprehensive assessment of chemokine expression profiles by flow cytometry
Jens Eberlein, … , Hugo R. Rosen, Dirk Homann
Jens Eberlein, … , Hugo R. Rosen, Dirk Homann
Published February 8, 2010
Citation Information: J Clin Invest. 2010;120(3):907-923. https://doi.org/10.1172/JCI40645.
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Technical Advance Immunology

Comprehensive assessment of chemokine expression profiles by flow cytometry

Abstract

The chemokines are a large family of mainly secreted molecules involved in the regulation of numerous physiological and pathophysiological processes. Despite many years of investigation, the precise cellular sources of most chemokines have remained incompletely defined as a consequence of the limited availability of suitable reagents to visualize the expression of chemokine proteins at the single-cell level. Here, we developed a simple flow cytometry–based assay using commercially available chemokine-specific antibodies for efficient cell-associated detection of 37 of 39 murine chemokines. To demonstrate the utility of this methodology, we used it to reevaluate the nature of homeostatic chemokines in the hematopoietic compartment, to delineate the complete chemokine profiles of NK cells and B cells in response to major polyclonal stimuli, and to assess the chemokine response of DCs to bacterial infection. The versatility of this analytical methodology was further demonstrated by its application to selected human chemokines and should greatly facilitate any future investigation into chemokine biology at large.

Authors

Jens Eberlein, Tom T. Nguyen, Francisco Victorino, Lucy Golden-Mason, Hugo R. Rosen, Dirk Homann

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Figure 3

Phenotypic distinction of CD3εCD19NK1.1 cell populations.

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Phenotypic distinction of CD3ε–CD19–NK1.1– cell populations. Single-...
Single-cell suspensions prepared from spleens of naive B6 mice were analyzed directly ex vivo for expression of various cell surface markers. (A) CD11b expression by small subsets of CD3ε+ T and CD19+ B cells as well as mature NK cells. (B) Analytical exclusion of T cells (CD3ε+), B cells (CD19+), NK cells (NK1.1+), and NKT cells (NK1.1+CD3ε+) permitted delineation of 6 cellular subsets according to expression of CD11b, Gr-1 (Ly6C/G), and F4/80 antigens. In the 2-color dot plot, CD11b-expressing cells are identified as red events. The plot at right demarcates regions corresponding to the 6 distinct cell subsets in the 2-color dot plot, whose identities are summarized in Table 3. (C) Major DC subsets were distinguished based on CD11b and CD11c expression patterns (left), with respective Gr-1, F4/80, and CD45R (B220) expression profiles shown at right, distinguished by color.