CCL5 paradoxically regulates glomerular injury by skewing macrophage polarization
Ika N. Kadariswantiningsih, Issei Okunaga, Kaho Yamasaki, Maulana A. Empitu, Hiroyuki Yamada, Shin-ichi Makino, Akitsu Hotta, Hideo Yagita, Masashi Aizawa, Ryo Koyama-Nasu, Motoko Y. Kimura, Narihito Tatsumoto, Katsuhiko Asanuma
Ika N. Kadariswantiningsih, Issei Okunaga, Kaho Yamasaki, Maulana A. Empitu, Hiroyuki Yamada, Shin-ichi Makino, Akitsu Hotta, Hideo Yagita, Masashi Aizawa, Ryo Koyama-Nasu, Motoko Y. Kimura, Narihito Tatsumoto, Katsuhiko Asanuma
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Research Article Inflammation Nephrology

CCL5 paradoxically regulates glomerular injury by skewing macrophage polarization

Abstract

Glomerular inflammation and podocyte loss are the hallmarks of chronic kidney disease (CKD) progression. Understanding how podocytes and their microenvironment regulate inflammation is critical for developing effective therapies. In this study, we identified C-C chemokine ligand 5 (CCL5) as an inflammatory mediator elevated in injured podocytes, based on analyses of both human kidney biopsies and mouse models of CKD. We discovered that CCL5 exerts paradoxical effects in nephropathy; while it protects podocytes in vitro, it exacerbates glomerular injury in vivo. Recombinant CCL5 and podocyte-specific CCL5 overexpression promoted cell survival and reduced apoptosis in cultured podocytes. However, in adriamycin-induced nephropathy, CCL5 worsened glomerular injury, increasing proteinuria, glomerulosclerosis, and podocyte loss. Bone marrow (BM) transplantation experiments revealed that CCL5 in BM-derived cells — not kidney-resident cells — drove disease progression. CCL5 deficiency in BM-derived cells conferred protection by increasing reparative M2 macrophages, whereas endogenous CCL5 promoted M1 polarization, inhibited M2 differentiation, and triggered M2-to-M1 transition. These findings demonstrate that while CCL5 supports podocyte survival, its expression in BM-derived cells promotes inflammatory macrophage phenotypes and glomerular injury. The harmful immune effects of CCL5 in BM-derived cells outweigh its podocyte-protective role, highlighting the importance of cell-targeted strategies to mitigate kidney damage.

Authors

Ika N. Kadariswantiningsih, Issei Okunaga, Kaho Yamasaki, Maulana A. Empitu, Hiroyuki Yamada, Shin-ichi Makino, Akitsu Hotta, Hideo Yagita, Masashi Aizawa, Ryo Koyama-Nasu, Motoko Y. Kimura, Narihito Tatsumoto, Katsuhiko Asanuma

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Figure 8

CCL5 skews macrophage polarization toward the M1 phenotype and inhibits M2 polarization.

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CCL5 skews macrophage polarization toward the M1 phenotype and inhibits ...
(A) Experimental diagram of macrophage isolation from BM cells of WT mice or Ccl5-KO mice. (B) Relative mRNA expression of M2 macrophage marker Mrc1 in unpolarized macrophages from WT and Ccl5-KO mice. (C) Experimental diagram of the M1 macrophage polarization assay using macrophages from WT (n = 3) and Ccl5-KO mice (n = 3). (D) Relative mRNA expression of M1 macrophage marker Il1b in macrophages from WT and Ccl5-KO mice in M1 macrophage polarization assay. (E) Experimental diagram of the M2 macrophage polarization assay using macrophages from WT (n = 3) and Ccl5-KO mice (n = 3). (F) Relative mRNA expression of M2 macrophage marker Mrc1 in macrophages from WT and Ccl5-KO mice in M2 macrophage polarization assay. (G) Experimental diagram of the M2-to-M1 shifting assay using macrophages from WT (n = 3) and Ccl5-KO mice (n = 3). (H) Relative mRNA expression of M1 macrophage marker Il1b in macrophages from WT and Ccl5-KO mice in M2-to-M1 shifting assay. (I) Relative mRNA expression of M2 macrophage marker in macrophages from WT and Ccl5-KO mice in M2-to-M1 shifting assay. The measured values were normalized to Gapdh and calculated using the ΔΔCt method. All data are expressed as mean ± SEM. Unpaired 2-tailed t tests were performed to calculate the P values. *P < 0.05, **P < 0.01, ***P < 0.001. NS, not significant; Mφ, macrophages; urine ACR, urine albumin-to-creatinine ratio.