CCR2 deficiency fails to protect mice with renal artery stenosis from chronic renal injury (278.7)

Recent studies have implicated CCR2 ‐ CCL2 signaling in macrophage influx and development of chronic renal disease in human and experimental renal artery stenosis (RAS). We sought to test the hypothesis that development of chronic renal disease would be abrogated in CCR2 knockout (KO) mice. We established RAS in CCR2 KO and WT mice (n=10) through placement of a cuff on the right renal artery We have shown that the cuff reproducibly reduces blood flow by 65% to the kidney. Sham mice underwent manipulation of the right renal artery without cuff placement. Both CCR2 KO and WT mice developed hypertension, which persisted throughout the 4 week study. There was no difference in renal atrophy between CCR2 KO (53+//‐14.6% cortical surface area) and WT (61.2%+/‐14%) mice. Furthermore, there were no significant differences in F4/80+ macrophage infiltration (12.78+/‐4.9% surface area for CCR2 KO mice and 13.13+/‐ 3.1% for WT mice) or CD3+ T cell infiltration. Infiltrating macrophages were predominantly iNOS+ M1 phenotype; few arginase+ cells were observed in any group. Urine protein excretion was similar in CCR2 KO and WT mice. CCL was induced to a similar extent in CCR2 KO and WT mice. Furthermore, no differences in CCL5, CCL7, CCR5, CCR1, or iNOS expression was observed between CCR2 KO and WT mice. We conclude that macrophage infiltration and chronic renal damage occurs in mice with deletion of CCR2. Future studies will identify signaling pathway(s) responsible for macrophage influx and chronic renal damage in this model. Grant Funding Source : AI‐100911