A Pathophysiologic Role for T Lymphocytes in Murine Acute Cisplatin Nephrotoxicity

Liu, Manchang; Chien, Chu Chun; Burne-Taney, Melissa J.; Molls, Roshni R.; Racusen, Lorraine C.; Colvin, Robert B.; Rabb, Hamid

doi:10.1681/asn.2005010102

Cited by 166 publications

(170 citation statements)

References 31 publications

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“…After intraperitoneal (ip) cisplatin injection, we noted infiltrating eGFP + T cells scattered throughout the renal parenchyma (Figure 1B) peaking at 12 hours, consistent with previous findings by Liu et al 11 We then tested whether abrogating AT 1 receptor signals selectively within T lymphocytes influences the development of cisplatin-induced AKI. Wildtype (WT) mice and mice genetically deficient of the dominant murine AT 1 receptor isoform (AT 1A ) solely within T cells (TKO; Supplemental Figure 1) had similar levels of BUN and serum creatinine (sCr) after saline treatment, indicating that the T cell AT 1 receptor does not affect baseline renal function ( Figure 1, C and D).…”

supporting

confidence: 86%

“…Although our findings confirm the importance of CD4 + T lymphocytes in mediating cisplatin-induced AKI, 11 these experiments are the first, to our knowledge, to document a protective effect of the T cell AT 1 receptor in the setting of AKI and highlight a potential danger of treating patients who require cisplatin chemotherapy with an ARB. Although we cannot exclude a TNFindependent contribution to the exaggerated renal injury in the TKOs, the actions of AT 1 receptors on T cells to limit TNF production are consistent with our previous findings in the setting of hypertensive kidney damage and can accrue from both an effect on T-betmediated T cell differentiation and a reduction in T cell-renal tubular cell interactions caused by effects of the T cell AT 1 receptor on chemokine generation.…”

supporting

confidence: 55%

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Competing Actions of Type 1 Angiotensin II Receptors Expressed on T Lymphocytes and Kidney Epithelium during Cisplatin-Induced AKI

Zhang¹,

Rudemiller²,

Patel³

et al. 2016

JASN

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Inappropriate activation of the renin-angiotensin system (RAS) contributes to many CKDs. However, the role of the RAS in modulating AKI requires elucidation, particularly because stimulating type 1 angiotensin II (AT 1 ) receptors in the kidney or circulating inflammatory cells can have opposing effects on the generation of inflammatory mediators that underpin the pathogenesis of AKI. For example, TNF-a is a fundamental driver of cisplatin nephrotoxicity, and generation of TNF-a is suppressed or enhanced by AT 1 receptor signaling in T lymphocytes or the distal nephron, respectively. In this study, cell tracking experiments with CD4-Cre mT/mG reporter mice revealed robust infiltration of T lymphocytes into the kidney after cisplatin injection. Notably, knockout of AT 1 receptors on T lymphocytes exacerbated the severity of cisplatin-induced AKI and enhanced the cisplatin-induced increase in TNF-a levels locally within the kidney and in the systemic circulation. In contrast, knockout of AT 1 receptors on kidney epithelial cells ameliorated the severity of AKI and suppressed local and systemic TNF-a production induced by cisplatin. Finally, disrupting TNF-a production specifically within the renal tubular epithelium attenuated the AKI and the increase in circulating TNF-a levels induced by cisplatin. These results illustrate discrepant tissue-specific effects of RAS stimulation on cisplatin nephrotoxicity and raise the concern that inflammatory mediators produced by renal parenchymal cells may influence the function of remote organs by altering systemic cytokine levels. Our findings suggest selective inhibition of AT 1 receptors within the nephron as a promising intervention for protecting patients from cisplatin-induced nephrotoxicity.

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supporting

confidence: 86%

supporting

confidence: 55%

Competing Actions of Type 1 Angiotensin II Receptors Expressed on T Lymphocytes and Kidney Epithelium during Cisplatin-Induced AKI

Zhang¹,

Rudemiller²,

Patel³

et al. 2016

JASN

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“…Compelling evidence suggests that renal dysfunction in different forms of AKI is the outcome of secretion of immune mediators [5][6][7][8][9] and the activation of renal resident and recruited leukocytes 2,3,10,11 ; however, recent studies also suggested that certain cytokines 40 -43 and immune cells 23,44,45 may limit kidney injury by reducing the immune-mediated inflammatory response. 46 During renal injury, DCs are thought to contribute to renal inflammation and exacerbate kidney injury.…”

Section: Discussionmentioning

confidence: 99%

“…[1][2][3][4] The elaborated chemokines and cytokines, including TNF-␣, IL-18, keratinocyte-derived chemokine, and monocyte chemoattractant protein 1, subsequently recruit additional immune cells to the kidney, such as neutrophils, T cells, monocytes, and inflammatory dendritic cells (DCs), which may cause further injury through pathways that are not fully defined. 2,[5][6][7][8][9][10][11][12] DCs are sentinels of the immune system and under steady-state conditions induce tolerance by various mechanisms, including production of TGF-␤, IL-10, or indoleamine 2,3-dioxygenase [13][14][15][16] ; expression of PDL-1, PDL-2, or Fc␥R2B 17,18 ; clonal deletion of autoreactive T cells 19 ; and induction of T regulatory cells via the inducible co-stimulator (ICOS) pathway. 20 -23 In response to pathogens or products of tissue injury, DCs mature and initiate immunity or inflammatory diseases.…”

mentioning

confidence: 99%

Renal Dendritic Cells Ameliorate Nephrotoxic Acute Kidney Injury

Tadagavadi¹,

Reeves

2010

Journal of the American Society of Nephrology

139

161

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Inflammation contributes to the pathogenesis of acute kidney injury. Dendritic cells (DCs) are immune sentinels with the ability to induce immunity or tolerance, but whether they mediate acute kidney injury is unknown. Here, we studied the distribution of DCs within the kidney and the role of DCs in cisplatin-induced acute kidney injury using a mouse model in which DCs express both green fluorescence protein and the diphtheria toxin receptor. DCs were present throughout the tubulointerstitium but not in glomeruli. We used diphtheria toxin to deplete DCs to study their functional significance in cisplatin nephrotoxicity. Mice depleted of DCs before or coincident with cisplatin treatment but not at later stages experienced more severe renal dysfunction, tubular injury, neutrophil infiltration and greater mortality than nondepleted mice. We used bone marrow chimeric mice to confirm that the depletion of CD11c-expressing hematopoietic cells was responsible for the enhanced renal injury. Finally, mixed bone marrow chimeras demonstrated that the worsening of cisplatin nephrotoxicity in DC-depleted mice was not a result of the dying or dead DCs themselves. After cisplatin treatment, expression of MHC class II decreased and expression of inducible co-stimulator ligand increased on renal DCs. These data demonstrate that resident DCs reduce cisplatin nephrotoxicity and its associated inflammation.

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“…Splenocytes that were collected from WT mice were minced on a nylon mesh as described. 23 Approximately 5 Â 10 6 spleen cells were injected intraperitoneally into each IL-18Ra-deficient mouse 3 weeks before the IRI. IL-18Ra-deficient mice (n ¼ 5), WT mice (n ¼ 6), and IL-18Ra-deficient mice that received a transfer of splenocytes (n ¼ 8) were culled on day 1.…”

Section: Il-18ra and Acute Kidney Injury T Yano Et Almentioning

confidence: 99%

The pathological role of IL-18Rα in renal ischemia/reperfusion injury

Yano

Nozaki

Kinoshita

et al. 2015

Laboratory Investigation

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Interleukin (IL)-18 is a proinflammatory cytokine produced by leukocytes and parenchymal cells (eg, tubular epithelial cells (TECs), mesangial cells, and podocytes). IL-18 receptor (IL-18R) is expressed on these cells in the kidney during ischemia/reperfusion injury (IRI), but its role in this injury is unknown. Fas/Fas ligand (FasL) is also involved in the pathogenesis of renal IRI via tubular apoptosis. In addition, IL-18 enhances the expression of FasL on TECs, but the mechanism underlying this enhancement is not known. Here we used IL-18Ra-deficient mice to explore the pathological role of IL-18Ra in renal IRI. We found that compared to wild-type (WT) mice with renal IRI as an acute kidney injury (AKI), the IL-18Ra-deficient mice demonstrated decreased renal function (as represented by blood urea nitrogen), tubular damage, an increased accumulation of leukocytes (CD4 þ T cells, neutrophils, and macrophages), upregulated early AKI biomarkers (ie, urinary kidney injury molecule-1 levels), and increased mRNA expressions of proinflammatory cytokines (IL-1b, IL-12p40, and IL-18) and chemokines (intercellular adhesion molecule-1 and CCL2/monocyte chemoattractant protein-1). The mRNA expression of FasL in the kidney was increased in the IL-18Ra-deficient mice compared to the WT mice. The adoptive transfer of splenocytes by WT mice led to decreased renal IRI compared to the IL-18Ra-deficient mice. In vitro, the mRNA expression of FasL on TECs was promoted in the presence of recombinant IL-18. These data reveal that IL-18Ra has an anti-inflammatory effect in IRI-induced AKI. Above all, IL-18 enhanced the inflammatory mechanisms and the apoptosis of TECs through the Fas/FasL pathway by blocking IL-18Ra.Laboratory Investigation (2015) 95, 78-91;

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A Pathophysiologic Role for T Lymphocytes in Murine Acute Cisplatin Nephrotoxicity

Cited by 166 publications

References 31 publications

Competing Actions of Type 1 Angiotensin II Receptors Expressed on T Lymphocytes and Kidney Epithelium during Cisplatin-Induced AKI

Competing Actions of Type 1 Angiotensin II Receptors Expressed on T Lymphocytes and Kidney Epithelium during Cisplatin-Induced AKI

Renal Dendritic Cells Ameliorate Nephrotoxic Acute Kidney Injury

The pathological role of IL-18Rα in renal ischemia/reperfusion injury

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