Hyperfiltration-associated biomechanical forces in glomerular injury and response: Potential role for eicosanoids

Sharma, Mukut; Sharma, Ram; McCarthy, Ellen T.; Savin, Virginia J.; Srivastava, Tarak

doi:10.1016/j.prostaglandins.2017.01.003

Cited by 20 publications

(34 citation statements)

References 139 publications

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“…Prostaglandins are lipid mediators able to regulate many functions during an inflammation, such as cytokine production and cellular activation/maturation (Nagamatsu and Schust, 2010; Kalinski, 2012). The production of PGE 2 occurs when arachidonic acid is converted into prostaglandins by enzymes called cyclooxygenases, as previously described (Batlouni, 2010; Agard et al, 2013; Sharma et al, 2017; Martínez-Colón and Moore, 2018). Many studies demonstrate the role of COX-2 and PGE 2 during infections triggered by pathogens (Michelin et al, 2005; Abdalla et al, 2008; Tatakihara et al, 2008; Moraes et al, 2015), however there are no studies demonstrating association between COX-2 and susceptibility to T. gondii infection.…”

Section: Discussionmentioning

confidence: 99%

“…Subsequently, the arachidonic acid is converted into prostaglandins by enzymes called cyclooxygenases (COXs). There are at least two isoforms of COX: COX-1, constitutively expressed in all cell types, and COX-2, which is induced by inflammatory mediators, mainly cytokines (Batlouni, 2010; Agard et al, 2013; Sharma et al, 2017; Martínez-Colón and Moore, 2018).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Cyclooxygenase (COX)-2 Inhibitors Reduce Toxoplasma gondii Infection and Upregulate the Pro-inflammatory Immune Response in Calomys callosus Rodents and Human Monocyte Cell Line

Aca

Silva

et al. 2019

Front. Microbiol.

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Toxoplasma gondii is able to infect a wide range of vertebrates, including humans. Studies show that cyclooxygenase-2 (COX-2) is a modulator of immune response in multiple types of infection, such as Trypanosoma cruzi . However, the role of COX-2 during T. gondii infection is still unclear. The aim of this study was to investigate the role of COX-2 during infection by moderately or highly virulent strains of T. gondii in Calomys callosus rodents and human THP-1 cells. C. callosus were infected with 50 cysts of T. gondii (ME49), treated with COX-2 inhibitors (meloxicam or celecoxib) and evaluated to check body weight and morbidity. After 40 days, brain and serum were collected for detection of T. gondii by real-time PCR and immunohistochemistry or cytokines by CBA. Furthermore, peritoneal macrophages or THP-1 cells, infected with RH strain or uninfected, were treated with meloxicam or celecoxib to evaluate the parasite proliferation by colorimetric assay and cytokine production by ELISA. Finally, in order to verify the role of prostaglandin E 2 in COX-2 mechanism, THP-1 cells were infected, treated with meloxicam or celecoxib plus PGE 2 , and analyzed to parasite proliferation and cytokine production. The data showed that body weight and morbidity of the animals changed after infection by T. gondii , under both treatments. Immunohistochemistry and real-time PCR showed a reduction of T. gondii in brains of animals treated with both COX-2 inhibitors. Additionally, it was observed that both COX-2 inhibitors controlled the T. gondii proliferation in peritoneal macrophages and THP-1 cells, and the treatment with PGE 2 restored the parasite growth in THP-1 cells blocked to COX-2. In the serum of Calomys , upregulation of pro-inflammatory cytokines was detected, while the supernatants of peritoneal macrophages and THP-1 cells demonstrated significant production of TNF and nitrite, or TNF, nitrite and MIF, respectively, under both COX-2 inhibitors. Finally, PGE 2 treatment in THP-1 cells triggered downmodulation of pro-inflammatory mediators and upregulation of IL-8 and IL-10. Thus, COX-2 is an immune mediator involved in the susceptibility to T. gondii regardless of strain or cell types, since inhibition of this enzyme induced control of infection by upregulating important pro-inflammatory mediators against Toxoplasma .

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Cyclooxygenase (COX)-2 Inhibitors Reduce Toxoplasma gondii Infection and Upregulate the Pro-inflammatory Immune Response in Calomys callosus Rodents and Human Monocyte Cell Line

Aca

Silva

et al. 2019

Front. Microbiol.

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“…These include the changes in podocyte structure/function and consequential loss of glomerular filtration barrier resulting in albuminuria. Therefore we and others have started reconsidering hyperfiltration in terms of biomechanical forces within the glomerulus (30,31,48,54). We believe that investigating the effect of biomechanical forces on podocytes within the glomerulus may provide a better understanding of hyperfiltration-mediated kidney injury.…”

Section: Introductionmentioning

confidence: 99%

Mechanotransduction signaling in podocytes from fluid flow shear stress

Srivastava

Dai

Heruth

et al. 2018

American Journal of Physiology-Renal Physiology

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Recently, we and others have found that hyperfiltration-associated increase in biomechanical forces, namely, tensile stress and fluid flow shear stress (FFSS), can directly and distinctly alter podocyte structure and function. The ultrafiltrate flow over the major processes and cell body generates FFSS to podocytes. Our previous work suggests that the cyclooxygenase-2 (COX-2)-PGE-PGE receptor 2 (EP2) axis plays an important role in mechanoperception of FFSS in podocytes. To address mechanotransduction of the perceived stimulus through EP2, cultured podocytes were exposed to FFSS (2 dyn/cm) for 2 h. Total RNA from cells at the end of FFSS treatment, 2-h post-FFSS, and 24-h post-FFSS was used for whole exon array analysis. Differentially regulated genes ( P < 0.01) were analyzed using bioinformatics tools Enrichr and Ingenuity Pathway Analysis to predict pathways/molecules. Candidate pathways were validated using Western blot analysis and then further confirmed to be resulting from a direct effect of PGE on podocytes. Results show that FFSS-induced mechanotransduction as well as exogenous PGE activate the Akt-GSK3β-β-catenin (Ser552) and MAPK/ERK but not the cAMP-PKA signal transduction cascades. These pathways are reportedly associated with FFSS-induced and EP2-mediated signaling in other epithelial cells as well. The current regimen for treating hyperfiltration-mediated injury largely depends on targeting the renin-angiotensin-aldosterone system. The present study identifies specific transduction mechanisms and provides novel information on the direct effect of FFSS on podocytes. These results suggest that targeting EP2-mediated signaling pathways holds therapeutic significance for delaying progression of chronic kidney disease secondary to hyperfiltration.

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“…However, in contrast to mesangial and endothelial cells, podocytes are terminally differentiated cells with low mitotic potential. Changes in the capillary pressure and the flow of the glomerular ultrafiltrate subject podocytes to pressure and flow-associated biomechanical forces that may result in their detachment [90-93]. These rheological factors and the inability to replace the lost cells render podocytes the most vulnerable component of the glomerular filtration barrier vis- à-vis mesangial and endothelial cells.…”

Section: Biomechanical Forces Associated With Glomerular Ultrafiltrationmentioning

confidence: 99%

“…Blood flow through capillary loops generates force radially at 90° to the direction of flow, causing the capillary wall to stretch and dilate which, in turn, radiates the force to podocyte foot processes attached to the GBM on the outer aspect of the capillary (Figure 1). Glomerular capillary pressure within the vascular compartment is the major determinant of tensile stress exerted over the basolateral aspect of podocytes [90,94]. The stretch on podocyte foot processes attached to the GBM results in tensile stress on podocytes.…”

Section: Biomechanical Forces Associated With Glomerular Ultrafiltrationmentioning

confidence: 99%

Hyperfiltration-mediated Injury in the Remaining Kidney of a Transplant Donor

Srivastava

Hariharan²,

Alon

et al. 2018

Transplantation

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Kidney donors face a small but definite risk of end-stage renal disease 15 to 30 years postdonation. The development of proteinuria, hypertension with gradual decrease in kidney function in the donor after surgical resection of 1 kidney, has been attributed to hyperfiltration. Genetic variations, physiological adaptations, and comorbidities exacerbate the hyperfiltration-induced loss of kidney function in the years after donation. A focus on glomerular hemodynamics and capillary pressure has led to the development of drugs that target the renin-angiotensin-aldosterone system (RAAS), but these agents yield mixed results in transplant recipients and donors. Recent work on glomerular biomechanical forces highlights the differential effects of tensile stress and fluid flow shear stress (FFSS) from hyperfiltration. Capillary wall stretch due to glomerular capillary pressure increases tensile stress on podocyte foot processes that cover the capillary. In parallel, increased flow of the ultrafiltrate due to single-nephron glomerular filtration rate elevates FFSS on the podocyte cell body. Although tensile stress invokes the RAAS, FFSS predominantly activates the cyclooxygenase 2-prostaglandin E2-EP2 receptor axis. Distinguishing these 2 mechanisms is critical, as current therapeutic approaches focus on the RAAS system. A better understanding of the biomechanical forces can lead to novel therapeutic agents to target FFSS through the cyclooxygenase 2-prostaglandin E2-EP2 receptor axis in hyperfiltration-mediated injury. We present an overview of several aspects of the risk to transplant donors and discuss the relevance of FFSS in podocyte injury, loss of glomerular barrier function leading to albuminuria and gradual loss of renal function, and potential therapeutic strategies to mitigate hyperfiltration-mediated injury to the remaining kidney.

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Hyperfiltration-associated biomechanical forces in glomerular injury and response: Potential role for eicosanoids

Cited by 20 publications

References 139 publications

Cyclooxygenase (COX)-2 Inhibitors Reduce Toxoplasma gondii Infection and Upregulate the Pro-inflammatory Immune Response in Calomys callosus Rodents and Human Monocyte Cell Line

Cyclooxygenase (COX)-2 Inhibitors Reduce Toxoplasma gondii Infection and Upregulate the Pro-inflammatory Immune Response in Calomys callosus Rodents and Human Monocyte Cell Line

Mechanotransduction signaling in podocytes from fluid flow shear stress

Hyperfiltration-mediated Injury in the Remaining Kidney of a Transplant Donor

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