Yogesh Scindia scite author profile

Iron-mediated oxidative stress is implicated in the pathogenesis of renal ischemia-reperfusion injury. Hepcidin is an endogenous acute phase hepatic hormone that prevents iron export from cells by inducing degradation of the only known iron export protein, ferroportin. In this study, we used a mouse model to investigate the effect of renal ischemia-reperfusion injury on systemic iron homeostasis and determine if dynamic modulation of iron homeostasis with hepcidin has therapeutic benefit in the treatment of AKI. Renal ischemia-reperfusion injury induced hepatosplenic iron export through increased ferroportin expression, which resulted in hepatosplenic iron depletion and an increase in serum and kidney nonheme iron levels. Exogenous hepcidin treatment prevented renal ischemia-reperfusion-induced changes in iron homeostasis. Hepcidin also decreased kidney ferroportin expression and increased the expression of cytoprotective H-ferritin. Hepcidininduced restoration of iron homeostasis was accompanied by a significant reduction in ischemia-reperfusioninduced tubular injury, apoptosis, renal oxidative stress, and inflammatory cell infiltration. Hepcidin-deficient mice demonstrated increased susceptibility to ischemia-reperfusion injury compared with wild-type mice. Reconstituting hepcidin-deficient mice with exogenous hepcidin induced hepatic iron sequestration, attenuated the reduction in renal H-ferritin and reduced renal oxidative stress, apoptosis, inflammation, and tubular injury. Hepcidin-mediated protection was associated with reduced serum IL-6 levels. In summary, renal ischemiareperfusion injury results in profound alterations in systemic iron homeostasis. Hepcidin treatment restores iron homeostasis and reduces inflammation to mediate protection in renal ischemia-reperfusion injury, suggesting that hepcidin-ferroportin pathway holds promise as a novel therapeutic target in the treatment of AKI.

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Activation of innate immune responses through Toll‐like receptor 3 causes a rapid loss of salivary gland function

Deshmukh

Nandula

Thimmalapura

et al. 2008

J Oral Pathology Medicine

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Background: Recent studies have demonstrated the expression of Toll‐like receptor 3 (TLR3) in salivary glands and epithelial cell lines derived from Sjögren’s syndrome (SS) patients. As viral infections are considered to be a trigger for SS, in this study we investigated whether in vivo engagement of TLR3 affects salivary gland function. Methods: Female New Zealand Black/WF1 mice were repeatedly injected with polyinosinic:polycytidylic acid [poly(I:C)]. TLR3 expression within submandibular glands was studied using immunohistochemistry. RNA levels of inflammatory cytokines in the submandibular glands were determined by real time polymerase chain reaction. Pilocarpine induced saliva volume was used as an index of glandular function. Results: Immunohistochemical analysis of submandibular glands showed TLR3 expression in epithelium of serous and mucous acini, granular convoluted tubules, and ducts. Poly(I:C) treatment rapidly up‐regulated the mRNA levels of type I interferon (IFN) and inflammatory cytokines in the submandibular glands. One week after treatment, the saliva volumes in poly(I:C) treated mice were significantly reduced in comparison with the phosphate‐buffered saline (PBS) treated mice. Hematoxylin and eosin staining showed that salivary gland histology was normal and lymphocytic foci were not detected. Glandular function recovered after poly(I:C) treatment was stopped. Conclusions: Our results demonstrate that engagement of TLR3 within the salivary glands results in a rapid loss of glandular function. This phenomenon is associated with the production of type I IFN and inflammatory cytokines in the salivary glands. Restoration of glandular function suggests that for viral etiology of SS, a chronic infection of salivary glands might be necessary.

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Mesangial pathology in glomerular disease: targets for therapeutic intervention☆

Scindia

Deshmukh

Bagavant

2010

Advanced Drug Delivery Reviews

103

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The glomerulus is the filtration unit of the kidney. Disruption of glomerular function may be caused by primary glomerular pathology or secondary to systemic diseases. The mesangial, endothelial and epithelial cells of the glomerulus are involved in most pathologic processes. Animal models provide an understanding of the molecular basis of glomerular disease. These studies show that mesangial cells are critical players in initiation and progression of disease. Therefore, modulation of mesangial cell responses offers a novel therapeutic approach. The complex architecture of the kidney, specifically the renal glomerulus makes targeted drug delivery especially challenging. Targeted delivery of therapeutic agents reduces dose of administration and minimizes unwanted side effects caused by toxicity to other tissues. The currently available modalities demonstrating the feasibility of mesangial cell targeting are discussed.

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Activation of innate immunity accelerates sialoadenitis in a mouse model for Sjögren’s syndrome‐like disease

et al. 2011

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Objective Sjögren’s syndrome is a chronic autoimmune disorder characterized by progressive lymphocytic infiltration within the salivary and lacrimal glands. The current study was undertaken to investigate the effects of innate immunity activation on sialoadenitis in a mouse strain genetically susceptible for development of Sjögren’s syndrome-like disease. Methods Female New Zealand Black × New Zealand White F1 mice were repeatedly treated with toll-like 3 receptor agonist poly(I:C). Submandibular glands were investigated at different time points for sialoadenitis by immunohistochemistry and for gene expression of different chemokines by quantitative PCR. Submandibular gland infiltrating cells were characterized by flow cytometry. Results Poly(I:C) treatment significantly upregulated the expression of multiple chemokines within the submandibular glands. The severity and incidence of sialoadenitis was considerably higher in poly(I:C) treated mice. There was a preponderance of dendritic cells and NK cells in the initial inflammatory cell infiltrates and these were followed by CD4+ T cells. Conclusions Our data clearly demonstrates that systemic activation of innate immunity accelerates sialoadenitis in a mouse model for Sjögren’s syndrome-like disease. These findings suggest that chronic activation of innate immunity can influence certain features of Sjögren’s syndrome.

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Iron Homeostasis in Healthy Kidney and its Role in Acute Kidney Injury

Scindia

Leeds

Swaminathan

2019

Seminars in Nephrology

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Iron is required for key aspects of cellular physiology including mitochondrial function and DNA synthesis and repair. However, free iron is an aberration because of its ability to donate electrons, reduce oxygen, and generate reactive oxygen species. Iron-mediated cell injury or ferroptosis is a central player in the pathogenesis of acute kidney injury. There are several homeostatic proteins and pathways that maintain critical balance in iron homeostasis to allow iron's biologic functions yet avoid ferroptosis. Hepcidin serves as the master regulator of iron homeostasis through its ability to regulate ferroportin-mediated iron export and intracellular H-ferritin levels. Hepcidin is a protective molecule in acute kidney injury. Drugs targeting hepcidin, H-ferritin, and ferroptosis pathways hold great promise to prevent or treat kidney injury. In this review we discuss iron homeostasis under physiological and pathologic conditions and highlight its importance in acute kidney injury. Semin Nephrol 39:76−84 Ó

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Anti–α8 integrin immunoliposomes in glomeruli of lupus‐susceptible mice: A novel system for delivery of therapeutic agents to the renal glomerulus in systemic lupus erythematosus

Scindia

Deshmukh

Thimmalapura

et al. 2008

Arthritis & Rheumatism

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Objective. Glomerular mesangial cells are active participants in the pathogenesis of lupus glomerulonephritis (GN). Thus, targeted delivery of therapeutic agents to mesangial cells would be an attractive approach to treatment. However, lack of known unique mesangial cell surface markers has hampered this process. This study was undertaken in a mouse model of lupus GN to identify mesangial markers and to develop a system for targeted drug delivery to the glomerulus.Methods. Based on previous observations, ␣8 integrin expressed on the surface of glomerular mesangial cells was selected as a target molecule for delivery. Two mouse strains susceptible to lupus GN, NZM2328 and (NZM2328 ؋ NOD)F 1 , were studied. Glomerular expression of ␣8 integrin in normal and nephritic mice was confirmed by immunofluorescence and quantitative polymerase chain reaction analysis. Liposomes were formulated and conjugated with an anti-␣8 integrin antibody. These immunoliposomes were loaded with DiI, a red fluorescent dye, to allow tracking in vivo, and injected into the tail vein of female mice at different ages. Specificity of targeting was studied by fluorescence microscopy and flow cytometry.Results. Expression of ␣8 integrin was observed in the glomeruli of normal and nephritic mice. Anti-␣8 integrin immunoliposomes were detected in the glomerulus and glomerular mesangial cells after tail vein injection in normal and nephritic mice. Delivery of DiI by anti-␣8 integrin immunoliposomes was tissue specific, being observed predominantly in the glomeruli, with some nonspecific uptake by CD11b cells.Conclusion. These findings are the first demonstration of specific delivery of anti-␣8 integrin immunoliposomes to the mesangium following tail vein injection in mice. Anti-␣8 integrin immunoliposomes thus offer a novel approach for targeted drug therapy in lupus and other glomerular diseases.

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Multi-scale mechanistic modelling of the host defence in invasive aspergillosis reveals leucocyte activation and iron acquisition as drivers of infection outcome

Ribeiro

Vieira

Scindia

et al. 2022

J. R. Soc. Interface.

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Aspergillus species are ubiquitous environmental moulds, with spores inhaled daily by most humans. Immunocompromised hosts can develop an invasive infection resulting in high mortality. There is, therefore, a pressing need for host-centric therapeutics for this infection. To address it, we created a multi-scale computational model of the infection, focused on its interaction with the innate immune system and iron, a critical nutrient for the pathogen. The model, parameterized using published data, was found to recapitulate a wide range of biological features and was experimentally validated in vivo . Conidial swelling was identified as critical in fungal strains with high growth, whereas the siderophore secretion rate seems to be an essential prerequisite for the establishment of the infection in low-growth strains. In immunocompetent hosts, high growth, high swelling probability and impaired leucocyte activation lead to a high conidial germination rate. Similarly, in neutropenic hosts, high fungal growth was achieved through synergy between high growth rate, high swelling probability, slow leucocyte activation and high siderophore secretion. In summary, the model reveals a small set of parameters related to fungal growth, iron acquisition and leucocyte activation as critical determinants of the fate of the infection.

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Modulation of iron homeostasis with hepcidin ameliorates spontaneous murine lupus nephritis

Scindia

Wlazlo

Ghias

et al. 2020

Kidney International

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Yogesh Scindia

Hepcidin Mitigates Renal Ischemia-Reperfusion Injury by Modulating Systemic Iron Homeostasis

Activation of innate immune responses through Toll‐like receptor 3 causes a rapid loss of salivary gland function

Mesangial pathology in glomerular disease: targets for therapeutic intervention☆

Activation of innate immunity accelerates sialoadenitis in a mouse model for Sjögren’s syndrome‐like disease

Iron Homeostasis in Healthy Kidney and its Role in Acute Kidney Injury

Anti–α8 integrin immunoliposomes in glomeruli of lupus‐susceptible mice: A novel system for delivery of therapeutic agents to the renal glomerulus in systemic lupus erythematosus

Multi-scale mechanistic modelling of the host defence in invasive aspergillosis reveals leucocyte activation and iron acquisition as drivers of infection outcome

Modulation of iron homeostasis with hepcidin ameliorates spontaneous murine lupus nephritis

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