Literature DB >> 15215179

Blockade of CCR2 ameliorates progressive fibrosis in kidney.

Kiyoki Kitagawa1, Takashi Wada, Kengo Furuichi, Hiroyuki Hashimoto, Yoshiro Ishiwata, Masahide Asano, Motohiro Takeya, William A Kuziel, Kouji Matsushima, Naofumi Mukaida, Hitoshi Yokoyama.   

Abstract

Fibrosis is a hallmark of progressive organ diseases. Monocyte chemoattractant protein (MCP)-1, also termed as macrophage chemotactic and activating factor (MCAF/CCL2) and its receptor, CCR2 are presumed to contribute to progressive fibrosis. However, the therapeutic efficacy of MCP-1/CCR2 blockade in progressive fibrosis remains to be investigated. We hypothesized that blockade of CCR2 may lead to the improvement of fibrosis. To achieve this goal, we investigated renal interstitial fibrosis induced by a unilateral ureteral obstruction in CCR2 gene-targeted mice and mice treated with propagermanium or RS-504393, CCR2 inhibitors. Cell infiltrations, most of which were F4/80-positive, were reduced in CCR2 knockout mice. In addition, dual staining revealed that CCR2-positive cells were mainly F4/80-positive macrophages. Importantly, CCR2 blockade reduced renal interstitial fibrosis relative to wild-type mice. Concomitantly, renal transcripts and protein of MCP-1, transforming growth factor-beta, and type I collagen were decreased in CCR2-null mice. Further, this CCR2-dependent loop for renal fibrosis was confirmed by treatment with CCR2 antagonists in a unilateral ureteral obstruction model. These findings suggest that the therapeutic strategy of blocking CCR2 may prove beneficial for progressive fibrosis via the decrease in infiltration and activation of macrophages in the diseased kidneys.

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Year:  2004        PMID: 15215179      PMCID: PMC1618531          DOI: 10.1016/S0002-9440(10)63292-0

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


  36 in total

1.  Severe reduction in leukocyte adhesion and monocyte extravasation in mice deficient in CC chemokine receptor 2.

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Journal:  Proc Natl Acad Sci U S A       Date:  1997-10-28       Impact factor: 11.205

2.  Intervention of crescentic glomerulonephritis by antibodies to monocyte chemotactic and activating factor (MCAF/MCP-1).

Authors:  T Wada; H Yokoyama; K Furuichi; K I Kobayashi; K Harada; M Naruto; S B Su; M Akiyama; N Mukaida; K Matsushima
Journal:  FASEB J       Date:  1996-10       Impact factor: 5.191

3.  Urinary levels of chemokines (MCAF/MCP-1, IL-8) reflect distinct disease activities and phases of human IgA nephropathy.

Authors:  H Yokoyama; T Wada; K Furuichi; C Segawa; M Shimizu; K Kobayashi; S Su; N Mukaida; K Matsushima
Journal:  J Leukoc Biol       Date:  1998-04       Impact factor: 4.962

4.  MIP-1alpha and MCP-1 contribute to crescents and interstitial lesions in human crescentic glomerulonephritis.

Authors:  T Wada; K Furuichi; C Segawa-Takaeda; M Shimizu; N Sakai; S I Takeda; K Takasawa; H Kida; K I Kobayashi; N Mukaida; Y Ohmoto; K Matsushima; H Yokoyama
Journal:  Kidney Int       Date:  1999-09       Impact factor: 10.612

5.  Hepatoprotective effect of propagermanium on Corynebacterium parvum and lipopolysaccharide-induced liver injury in mice.

Authors:  S Yokochi; Y Ishiwata; H Hashimoto; F Ninomiya; T Suzuki
Journal:  Scand J Immunol       Date:  1998-08       Impact factor: 3.487

6.  Monitoring urinary levels of monocyte chemotactic and activating factor reflects disease activity of lupus nephritis.

Authors:  T Wada; H Yokoyama; S B Su; N Mukaida; M Iwano; K Dohi; Y Takahashi; T Sasaki; K Furuichi; C Segawa; Y Hisada; S Ohta; K Takasawa; K Kobayashi; K Matsushima
Journal:  Kidney Int       Date:  1996-03       Impact factor: 10.612

7.  Monocyte chemoattractant protein-1 promotes macrophage-mediated tubular injury, but not glomerular injury, in nephrotoxic serum nephritis.

Authors:  G H Tesch; A Schwarting; K Kinoshita; H Y Lan; B J Rollins; V R Kelley
Journal:  J Clin Invest       Date:  1999-01       Impact factor: 14.808

8.  Collagen deposition in a non-fibrotic lung granuloma model after nitric oxide inhibition.

Authors:  C M Hogaboam; C S Gallinat; C Bone-Larson; S W Chensue; N W Lukacs; R M Strieter; S L Kunkel
Journal:  Am J Pathol       Date:  1998-12       Impact factor: 4.307

9.  Protection against concanavalin A-induced murine liver injury by the organic germanium compound, propagermanium.

Authors:  Y Ishiwata; S Yokochi; H Hashimoto; F Ninomiya; T Suzuki
Journal:  Scand J Immunol       Date:  1998-12       Impact factor: 3.487

10.  Investigation of the functional role played by the chemokine monocyte chemoattractant protein-1 in interleukin-1-induced murine peritonitis.

Authors:  M N Ajuebor; L Gibbs; R J Flower; A M Das; M Perretti
Journal:  Br J Pharmacol       Date:  1998-09       Impact factor: 8.739
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  118 in total

1.  Collagen XIII induced in vascular endothelium mediates alpha1beta1 integrin-dependent transmigration of monocytes in renal fibrosis.

Authors:  Jameel Dennis; Daniel T Meehan; Duane Delimont; Marisa Zallocchi; Greg A Perry; Stacie O'Brien; Hongmin Tu; Taina Pihlajaniemi; Dominic Cosgrove
Journal:  Am J Pathol       Date:  2010-09-23       Impact factor: 4.307

2.  Addition of angiotensin II type 1 receptor blocker to CCR2 antagonist markedly attenuates crescentic glomerulonephritis.

Authors:  Maki Urushihara; Naro Ohashi; Kayoko Miyata; Ryousuke Satou; Omar W Acres; Hiroyuki Kobori
Journal:  Hypertension       Date:  2011-01-31       Impact factor: 10.190

3.  The kinetics of VEGF and MCP-1 in the second vitrectomy cases with proliferative diabetic retinopathy.

Authors:  Y Sassa; S Yoshida; K Ishikawa; R Asato; T Ishibashi; T Kono
Journal:  Eye (Lond)       Date:  2016-02-26       Impact factor: 3.775

4.  Role for macrophage metalloelastase in glomerular basement membrane damage associated with alport syndrome.

Authors:  Velidi H Rao; Daniel T Meehan; Duane Delimont; Motowo Nakajima; Takashi Wada; Michael Ann Gratton; Dominic Cosgrove
Journal:  Am J Pathol       Date:  2006-07       Impact factor: 4.307

5.  Monocyte/macrophage chemokine receptor CCR2 mediates diabetic renal injury.

Authors:  Alaa S Awad; Gilbert R Kinsey; Konstantine Khutsishvili; Ting Gao; W Kline Bolton; Mark D Okusa
Journal:  Am J Physiol Renal Physiol       Date:  2011-08-31

6.  Attenuation of folic acid-induced renal inflammatory injury in platelet-activating factor receptor-deficient mice.

Authors:  Kent Doi; Koji Okamoto; Kousuke Negishi; Yoshifumi Suzuki; Akihide Nakao; Toshiro Fujita; Akiko Toda; Takehiko Yokomizo; Yoshihiro Kita; Yasuyuki Kihara; Satoshi Ishii; Takao Shimizu; Eisei Noiri
Journal:  Am J Pathol       Date:  2006-05       Impact factor: 4.307

7.  C57BL/6 mice require a higher dose of cisplatin to induce renal fibrosis and CCL2 correlates with cisplatin-induced kidney injury.

Authors:  Sophia M Sears; Cierra N Sharp; Austin Krueger; Gabrielle B Oropilla; Douglas Saforo; Mark A Doll; Judit Megyesi; Levi J Beverly; Leah J Siskind
Journal:  Am J Physiol Renal Physiol       Date:  2020-08-24

8.  Galectin-3 expression and secretion links macrophages to the promotion of renal fibrosis.

Authors:  Neil C Henderson; Alison C Mackinnon; Sarah L Farnworth; Tiina Kipari; Christopher Haslett; John P Iredale; Fu-Tong Liu; Jeremy Hughes; Tariq Sethi
Journal:  Am J Pathol       Date:  2008-01-17       Impact factor: 4.307

9.  CCR2 promotes hepatic fibrosis in mice.

Authors:  Ekihiro Seki; Samuele de Minicis; Sayaka Inokuchi; Kojiro Taura; Katsumi Miyai; Nico van Rooijen; Robert F Schwabe; David A Brenner
Journal:  Hepatology       Date:  2009-07       Impact factor: 17.425

Review 10.  Macrophage diversity in renal injury and repair.

Authors:  Sharon D Ricardo; Harry van Goor; Allison A Eddy
Journal:  J Clin Invest       Date:  2008-11       Impact factor: 14.808
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