Chronic Kidney Disease Is Characterized by Expansion of a Distinct Proinflammatory Intermediate Monocyte Subtype and by Increased Monocyte Adhesion to Endothelial Cells

Cormican, Sarah; Negi, Neha; Naicker, Serika D.; Islam, Md. Rakibul; Fazekas, Barbara; Power, Rachael; Griffin, Tomás P.; Dennedy, Michael Conall; MacNeill, Briain D.; Malone, Andrew F.; Griffin, Matthew

doi:10.1681/asn.0000000000000083

Cited by 16 publications

(12 citation statements)

References 63 publications

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“…As evidenced by Huang et al, a signi cant relationship between neutrophil and monocyte counts with proteinuria was found among 12,225 normal, healthy individuals who underwent hospital examinations [49]. In addition, Cormican et al discovered that only intermediate monocytes (IMs) with high human leukocyte antigen (HLA)-DR expression levels increased in individuals with CKD compared with healthy controls, indicating different monocyte subpopulations may play different roles in the process of in uencing eGFR [50].…”

Section: Discussionmentioning

confidence: 96%

The causal relationship between circulating leukocytes and kidney function: A Mendelian randomization study

LI,

Yang

2024

Preprint

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Background Several studies proposed that inflammatory response strongly correlated with kidney function and the progression of the chronic kidney disease (CKD), both in terms of its onset and course as well as any ensuing consequences. Objectives To investigate the potential causal relationship of the five subtypes of leukocytes count (monocytes, lymphocytes, neutrophils, eosinophils, and basophils) with CKD and kidney function by employing Mendelian randomization (MR) analysis. Methods At the genome-wide significance level, single-nucleotide polymorphisms correlated to major white blood cell types were identified. Large-scale genome-wide association studies with sample sizes of 44,266, 86,640, 58,284, and 23,210 provided summary-level data for CKD, eGFR, and urine albumin-to-creatinine ratio (uACR), respectively. The inverse variance weighted (IVW) method was used for primary MR analysis, and additional sensitivity approach were carried out to evaluate the robustness. Results We discovered that a higher genetically determined monocyte count was causally associated with an increased genetically predicted eGFR level (beta = 0.0035; 95% CI: 0.0013–0.0057; P = 1.45×10− 3) and uACR level (betaIVW = 0.017; 95%CI: 0.008–0.027, P = 5.5 × 10− 4). Sensitivity analyses employing different approaches revealed comparable associations, while MR-Egger regression revealed no indication of pleiotropy. In addition, we observed that was lymphocyte count (betaIVW = 0.018; 95%CI: 0.004–0.033, P = 1.1 × 10− 2) and neutrophil count (betaIVW = 0.018; 95%CI: 0.001–0.035, P = 3.9 × 10− 2) were positively associated with uACR, while the association remained non-significant after Bonferroni correction. Conclusion Our research implicates peripheral white blood cells, specifically monocytes, lymphocytes, and eosinophils, to the kidney function damage, underscoring the necessity for mechanistic investigations to discover these associations.

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Section: Discussionmentioning

confidence: 96%

The causal relationship between circulating leukocytes and kidney function: A Mendelian randomization study

LI,

Yang

2024

Preprint

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“…Interestingly, chronic kidney disease is associated with increased numbers of HLA-DR high circulating proinflammatory intermediate monocytes, increased migration toward CCL5, and adhesion to primary endothelial cell layers 33 . In the aged mouse brain, it has been reported that parenchymal border macrophages comprise of less Lyve-1 + cells and more MHC-II + cells 11,34 .…”

Section: Discussionmentioning

confidence: 99%

“…While the MHC-II high subset receives modest monocyte contribution and is not continually replaced, the CCR2 + subset is almost entirely replaced by monocytes and is therefore more dynamic. Interestingly, chronic kidney disease is associated with increased numbers of HLA-DR high circulating pro-inflammatory intermediate monocytes, increased migration toward CCL5, and adhesion to primary endothelial cell layers 33 . In the aged mouse brain, it has been reported that parenchymal border macrophages comprise of less Lyve-1 + cells and more MHC-II + cells 11, 34 .…”

Section: Discussionmentioning

confidence: 99%

The renal capsule, a vibrant and adaptive cell environment of the kidney in homeostasis and aging

Korin,

Avraham,

Moncada

et al. 2023

Preprint

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The kidney is a complex organ that governs many physiological parameters. It is roughly divided into three parts, the renal pelvis, medulla, and cortex. Covering the cortex is the renal capsule, a serosal tissue that provides protection and forms a barrier for the kidney. Serosal tissues of many organs have been recently shown to play a vital role in homeostasis and disease. Analyses of the cells that reside in these tissues have identified distinct cell types with unique phenotypes. Surprisingly, despite the importance of serosal tissues, little is known about cells of the renal capsule. Here, we characterized this niche and found that it is mainly comprised of fibroblasts and macrophages, but also includes many other diverse cell types. Characterizing renal capsule-associated macrophages, we found that they consist of a distinct subset (i.e., TLF+ macrophages) that is nearly absent in the kidney parenchyma. Injury, disease, and other changes within the kidney, affected the cell composition and phenotype of the renal capsule, indicating its dynamic and vibrant response to changes within the organ parenchyma. Lastly, we studied age-related changes in the renal capsule and found that aging affected the cell composition and pro-inflammatory phenotype of macrophages, increased CD8 T cells and other lymphocyte counts, and promoted a senescence-associated phenotype in fibroblasts. Taken together, our data illustrate the complexity and heterogeneity of the renal capsule and its underlying changes during aging and disease, improving our understanding of the kidney serosa that may be valuable for novel renal therapies.

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“…In ammatory PT cells may also receive signaling from stromal cells as they expressed receptors for FAS and TWEAK (Fig. 4F), while the ligands were expressed by NK cells (FAS) and monocytes (TWEAK), with both these cell types being implicated in kidney disease (19,30). While these are classically considered pro-apoptotic factors, they can also promote in ammation via NF-κβ signaling (31,32) and hence enable bi-directional cross talk between leucocytes and in ammatory PT cells to mediate renal in ammation.…”

Section: Inter-cellular Signaling Pathways Between In Ammatory Tubule...mentioning

confidence: 99%

Multiomic analysis of human kidney disease identifies a tractable inflammatory, pro-fibrotic tubular cell phenotype

Conway,

Reck,

Baird

et al. 2024

Preprint

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Maladaptive proximal tubular cells have been implicated in failure of repair following renal injury in rodent models, however whether this translates to human kidney disease is unknown. Hence, we integrated snRNA-ATAC-seq with single-cell molecular imaging to generate a multiomic atlas of human kidney disease. In injured kidneys, a subset of tubular epithelial cells acquired an inflammatory phenotype, enriched with pro-fibrotic and senescence markers, analogous to maladaptive cells in mice. Cell neighborhood analysis positioned the inflammatory phenotype adjacent to leucocytes and myofibroblasts and ligand-receptor analysis highlighted paracrine signaling from inflammatory tubular cells to mediate leucocyte recruitment and myofibroblast activation. Loss of an HNF4α-driven gene regulatory network and activation of NF-κβ and AP-1 transcription factors epigenetically imprinted the inflammatory phenotype. Targeting these inflammatory tubular cells by administration of an AP-1 inhibitor or a senolytic agent ameliorated inflammation, expression of senescence-associated transcripts and fibrosis in murine models of kidney injury suggesting these as therapies for human kidney disease.

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Chronic Kidney Disease Is Characterized by Expansion of a Distinct Proinflammatory Intermediate Monocyte Subtype and by Increased Monocyte Adhesion to Endothelial Cells

Cited by 16 publications

References 63 publications

The causal relationship between circulating leukocytes and kidney function: A Mendelian randomization study

The causal relationship between circulating leukocytes and kidney function: A Mendelian randomization study

The renal capsule, a vibrant and adaptive cell environment of the kidney in homeostasis and aging

Multiomic analysis of human kidney disease identifies a tractable inflammatory, pro-fibrotic tubular cell phenotype

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