Calcium oxalate monohydrate crystals stimulate monocyte chemoattractant protein-1 and transforming growth factor β1 expression in human renal epithelial cells

Liu, Zhuo; Wang, Tao; Yang, Jun; Wang, Shaogang; Yang, Weimin; Liu, Jihong; Ye, Zhangqun

doi:10.3892/mmr.2012.813

Cited by 10 publications

(4 citation statements)

References 20 publications

(29 reference statements)

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“…The G allele of CCL2 rs1024611, which is known to be a risk allele for inflammatory infective and non-infective diseases 28 29 , could simultaneously participate in progressing chronic kidney disease in nephrolithiasis patients as indicated by the interaction of CCL2 rs1024611 with CASR rs7652589 in the studied HD subjects. Moreover, CCL2 expression was found to be induced by calcium oxalate monohydrate in renal epithelial cells 30 . Suppression of CCL2 mRNA expression and downregulation of the expression of CCL2 -related proteins including transforming growth factor beta-1 by resveratrol in oxalate-treated human renal epithelial cells significantly reduced the number of urine calcium oxalate crystals 31 .…”

Section: Discussionmentioning

confidence: 97%

Associations of the calcium-sensing receptor gene CASR rs7652589 SNP with nephrolithiasis and secondary hyperparathyroidism in haemodialysis patients

Grzegorzewska

Paciorkowski²,

Mostowska

et al. 2016

Sci Rep

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Nephrolithiasis, secondary hyperparathyroidism (sHPT), and cardiovascular complications are associated with disturbances in Ca handling and contribute to morbidity/mortality during haemodialysis (HD). Calcimimetics, activators of the calcium-sensing receptor (CaSR), provide an effective means of reducing parathyroid hormone (PTH) secretion in sHPT. Polymorphism in CaSR gene (CASR) influences Ca-related parameters, however it was not shown in HD patients for CASR rs7652589. The minor allele at this polymorphism modifies the binding sites of transcription factors and CaSR expression. We hypothesized that CASR rs7652589 variants may also influence CaSR in end stage renal disease (ESRD). We aimed to determine the associations of rs7652589 with nephrolithiasis-related ESRD, Ca, P, ALP, PTH, response to treatment with cinacalcet, prevalence of coronary artery disease, and all-cause/cardiovascular mortality in HD patients (n = 1162). Healthy individuals (n = 918) were controls. This study shows that the A allele of rs7652589 is a risk allele for nephrolithiasis-related ESRD. The AA genotype is associated with more severe sHPT (higher Ca and PTH concentrations). The A allele is associated with reduced CaSR transcript level in peripheral blood mononuclear cells. According to computational analysis, potential binding sites for GLI3, AHR and TP53 are removed by the A allele, whereas binding sites for SOX18 and TP63 are created.

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Section: Discussionmentioning

confidence: 97%

Associations of the calcium-sensing receptor gene CASR rs7652589 SNP with nephrolithiasis and secondary hyperparathyroidism in haemodialysis patients

Grzegorzewska

Paciorkowski²,

Mostowska

et al. 2016

Sci Rep

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“…Consumption of meals rich in oxalate augments urinary oxalate excretion potentially leading to new kidney stone formation, growth of existing stones, and in some instances renal damage (12). Experimental studies have shown renal epithelial cells exposed to oxalate have reduced glutathione levels (18), impaired DNA synthesis (19,20), and increased reactive oxygen species (ROS) generation (18,(20)(21)(22)(23), mitochondrial permeability transitionmediated cell death (24), and monocyte chemoattractant protein (MCP-1) secretion (25,26). MCP-1 is a cytokine that recruits monocytes and macrophages to tissues to remove dead cells, pathogens, and crystals (27).…”

Section: Introductionmentioning

confidence: 99%

Dietary Oxalate Loading Impacts Monocyte Metabolism and Inflammatory Signaling in Humans

et al. 2021

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Diet has been associated with several metabolic diseases and may impact immunity. Increased consumption of meals with high oxalate content may stimulate urinary calcium oxalate (CaOx) crystals, which are precursors to CaOx kidney stones. We previously reported that CaOx stone formers have decreased monocyte cellular bioenergetics compared to healthy participants and oxalate reduces monocyte metabolism and redox status in vitro. The purpose of this study was to investigate whether dietary oxalate loading impacts monocyte cellular bioenergetics, mitochondrial complex activity, and inflammatory signaling in humans. Healthy participants (n = 40; 31.1 ± 1.3 years) with a BMI of 24.9 ± 0.6 kg/m2 consumed a controlled low oxalate diet for 3 days before drinking a blended preparation of fruits and vegetables containing a large amount of oxalate. Blood and urine were collected before (pre-oxalate) and for 5 h after the oxalate load to assess urinary oxalate levels, monocyte cellular bioenergetics and mitochondrial complex activity, and plasma cytokine/chemokine levels. Urinary oxalate levels significantly increased in post-oxalate samples compared to pre-oxalate samples. Monocyte cellular bioenergetics, mitochondrial complex I activity, and plasma cytokine and chemokine levels were altered to varying degrees within the study cohort. We demonstrate for the first time that dietary oxalate loading may impact monocyte metabolism and immune response in a cohort of healthy adults, but these response are variable. Further studies are warranted to understand oxalate mediated mechanisms on circulating monocytes and how this potentially influences CaOx kidney stone formation.Clinical Trial RegistrationClinicalTrials.gov, identifier NCT03877276.

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“…CaOx crystals form when the urine becomes supersaturated with calcium and oxalate. Several studies have reported that crystals and oxalate stimulate inflammatory responses, including monocyte chemoattractant protein-1 (MCP-1) release in renal epithelial cells [8] , [9] , [10] , [11] , [12] . MCP-1 plays an important role in monocyte/macrophage recruitment and activation, and has been shown to be elevated in the urine and renal tissue of patients with kidney stones [13] , [14] .…”

Section: Introductionmentioning

confidence: 99%

Oxalate induces mitochondrial dysfunction and disrupts redox homeostasis in a human monocyte derived cell line

et al. 2018

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Monocytes/macrophages are thought to be recruited to the renal interstitium during calcium oxalate (CaOx) kidney stone disease for crystal clearance. Mitochondria play an important role in monocyte function during the immune response. We recently determined that monocytes in patients with CaOx kidney stones have decreased mitochondrial function compared to healthy subjects. The objective of this study was to determine whether oxalate, a major constituent found in CaOx kidney stones, alters cell viability, mitochondrial function, and redox homeostasis in THP-1 cells, a human derived monocyte cell line. THP-1 cells were treated with varying concentrations of CaOx crystals (insoluble form) or sodium oxalate (NaOx; soluble form) for 24 h. In addition, the effect of calcium phosphate (CaP) and cystine crystals was tested. CaOx crystals decreased cell viability and induced mitochondrial dysfunction and redox imbalance in THP-1 cells compared to control cells. However, NaOx only caused mitochondrial damage and redox imbalance in THP-1 cells. In contrast, both CaP and cystine crystals did not affect THP-1 cells. Separate experiments showed that elevated oxalate also induced mitochondrial dysfunction in primary monocytes from healthy subjects. These findings suggest that oxalate may play an important role in monocyte mitochondrial dysfunction in CaOx kidney stone disease.

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Calcium oxalate monohydrate crystals stimulate monocyte chemoattractant protein-1 and transforming growth factor β1 expression in human renal epithelial cells

Cited by 10 publications

References 20 publications

Associations of the calcium-sensing receptor gene CASR rs7652589 SNP with nephrolithiasis and secondary hyperparathyroidism in haemodialysis patients

Associations of the calcium-sensing receptor gene CASR rs7652589 SNP with nephrolithiasis and secondary hyperparathyroidism in haemodialysis patients

Dietary Oxalate Loading Impacts Monocyte Metabolism and Inflammatory Signaling in Humans

Oxalate induces mitochondrial dysfunction and disrupts redox homeostasis in a human monocyte derived cell line

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