Abstract
Macrophages are an essential component of the immune system and have protective and pathogenic functions in various diseases. Imaging of macrophages in vivo could furnish new tools to advance evaluation of disease and therapies. Critical limb ischemia is a disease in which macrophages have considerable pathogenic roles, and are potential targets for cell-based immunotherapy. We sought to develop a new near-infrared fluorescence (NIRF) imaging probe to target macrophages specifically in vivo in various pathological states, including hind-limb ischemia. We rapidly screened the photostable cyanine-based NIRF library against different blood cell lines. The identified monocyte/macrophage-selective hit was tested in vitro in live-cell labeling assay. Non-invasive NIRF imaging was performed with murine models of paw inflammation by lipopolysaccharide challenge and hind-limb ischemia with femoral artery ligation. in vivo macrophage targeting was further evaluated using intravital microscopy with Csf1r-EGFP transgenic mice and immunofluorescent staining with macrophage-specific markers. We discovered MF800, a Macrophage-specific near-infrared Fluorophore, which showed selective live-cell imaging performance in a panel of cell lines and primary human blood samples. MF800 outperforms the clinically-available NIRF contrast agent ICG for in vivo specificity in paw inflammation and hind-limb ischemia models. We observed a marked overlap of MF800-labeled cells and EGFP-expressing macrophages in intravital imaging of Csf1r-EGFP transgenic mice. In the histologic analysis, MF800-positive cells also expressed the macrophage markers CD68 and CD169. NIRF imaging showcased the potential of using MF800 to understand macrophage behavior in vivo, characterize macrophage-associated diseases, and may help in assessing therapeutic responses in the clinic.
Highlights
Macrophages have a multitude of roles in biology, from development, homeostasis, and tissue repair to immunity
Positive hits were defined as fluorophores whose mean near-infrared fluorescence (NIRF) intensity for monocytes/macrophages were at or greater than five standard deviations above control lymphocytes
We showed that the use of MF800 offered specific and sensitive identification of in vivo ischemia through NIRF imaging and intravital microscopic visualization of angiogenic event
Summary
Macrophages have a multitude of roles in biology, from development, homeostasis, and tissue repair to immunity. They play several important roles in pathological processes and, have emerged as therapeutic targets or prognostic indicators in many diseases [1,2,3]. Cardiovascular disease is one of the world’s leading causes of morbidity and mortality, and in particular, peripheral arterial occlusive diseases, such as critical limb ischemia, which affects one in five individuals over the age of 75 [4]. Monocytes/macrophages are pivotal players in the remodeling process by becoming angiogenic cells after ischemic events and promoting collateral arterial development [6,7]. Methods are thereby needed to target macrophages with high sensitivity and selectivity under in vivo conditions
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