Abstract
BackgroundTo decipher the role of monocyte-derived macrophages (Mφs) in vascular remodeling of the occluded vein following experimental branch retinal vein occlusion (BRVO).MethodsThe inflammation induced by laser-induced BRVO on mice retina was evaluated at different time points by RT-PCR looking at inflammatory markers mRNA level expression, Icam-1, Cd11b, F4/80, Ccl2, and Ccr2 and by quantification of Iba1-positive macrophage (Mφ) density on Iba1-stained retinal flatmount. Repeated intraperitoneal EdU injection combined with liposome clodronate-induced monocyte (Mo) depletion in wildtype mice was used to differentiate Mo-derived Mφs from resident Mφs. Liposome clodronate Mo-depleted wildtype mice and Ccr2-deficient mice were used to evaluate the role of all CCR2+ and CCR2neg Mo-derived Mφs on EC apoptosis in the occluded vein.Resultscd11b, ICAM-1, F4/80, Ccl2, and Ccr2 mRNA expression were increased 1, 3, and 7 days after vein occlusion. The number of parenchymal (parMφs) and perivascular (vasMφs) macrophages was increased 3 and 7 days after BRVO. The systemic depletion of all circulating Mos decreased significantly the BRVO-induced parMφs and vasMφs macrophage accumulation, while the deletion of CCR2+-inflammatory Mo only diminished the accumulation of parMφs, but not vasMφs. Finally, apoptotic ECs of the vein were more numerous in fully depleted, liposome clodronate-treated mice, than in Ccr2−/− mice that only lack the recruitment of CCR2+ inflammatory Mos.ConclusionsBRVO triggers the recruitment of blood-derived parMφs and vasMφs. Interestingly, vasMφs accumulation was independent of CCR2. The observation that the inhibition of the recruitment of all infiltrating Mφs increases the vein EC apoptosis, while CCR2 deficiency does not, demonstrates that CCR2neg Mo-derived vasMφs protect the ECs against apoptosis in the occluded vein.
Highlights
Branch retinal vein occlusion (BRVO) leads to extensive vascular remodeling and is an important cause of visual impairment due to vascular leakage and retinal edema
branch retinal vein occlusion (BRVO) increases the number of perivascular and parenchymal mononuclear phagocytes To better characterize the inflammatory processes in BRVO, we first quantified by real-time polymerase chain reaction (RT-PCR) the mRNA expression of intercellular adhesion molecule 1 (Icam-1), involved in leukocyte diapedesis, and the mononuclear phagocyte (MP) markers Cd11b and F4/80 at day 1, day 3, and day 7
We previously demonstrated that red fluorescent protein (RFP) expression cannot be used as a marker to determine whether a Mφ is derived from a CCR2+ monocyte as the C-C chemokine receptor type 2 (Ccr2) promotor activity that drives the RFP expression in CcrRFP/RFP mice quickly comes to a halt after tissue infiltration [15]
Summary
Branch retinal vein occlusion (BRVO) leads to extensive vascular remodeling and is an important cause of visual impairment due to vascular leakage and retinal edema. We have previously shown that experimental BRVO is associated with an acute wave of endothelial cell (EC) apoptosis of the occluded vein and the upstream. Using the laser-induced BRVO model in mice, we here confirm that Moderived Mφs are recruited to the occluded retina. Using Ccr2-deficient mice and clodronate-induced circulating Mos depletion, we identified two major subset of infiltrating MPs: 1/parenchymal Mφs (parMφs) and 2/ vasMφs that were recruited independently of CCL2/ CCR2 signaling. But not CCR2 depletion, significantly exaggerated the wave of BRVO-induced EC apoptosis, suggesting that Mo-derived CCR2-negative vasMφs protect EC in BRVO against apoptosis. To decipher the role of monocyte-derived macrophages (Mφs) in vascular remodeling of the occluded vein following experimental branch retinal vein occlusion (BRVO)
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