Endothelial nitric oxide synthase limits host immunity to control disseminated Candida albicans infections in mice

Navarathna, Dhammika H. M. L. P.; Lionakis, Michail S.; Roberts, D. A.

doi:10.1371/journal.pone.0223919

Cited by 11 publications

(8 citation statements)

References 57 publications

(79 reference statements)

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“…Our data showed that kidney is the primary target organ where C. albicans persists, and this is consistent with previous reports that indicate the importance of renal immunity in experimental disseminated candidiasis and subsequent mouse mortality ( Spellberg et al, 2003 ; MacCallum & Odds, 2005 ; Lionakis et al, 2011 ; Navarathna et al, 2012 , 2019 ; Hebecker et al, 2016 ). In particular, despite the ablation of TRMs in all peripheral organs in CD169-DTR mice, kidneys remained as the only organ with persisting C. albicans , hence highlighting the distinctive role of kidney TRMs in systemic Candida immunity.…”

Section: Discussionsupporting

confidence: 93%

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Teo

Mak

et al. 2021

Life Sci. Alliance

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Disseminated candidiasis remains as the most common hospital-acquired bloodstream fungal infection with up to 40% mortality rate despite the advancement of medical and hygienic practices. While it is well established that this infection heavily relies on the innate immune response for host survival, much less is known for the protective role elicited by the tissue-resident macrophage (TRM) subsets in the kidney, the prime organ for Candida persistence. Here, we describe a unique CD169++ TRM subset that controls Candida growth and inflammation during acute systemic candidiasis. Their absence causes severe fungal-mediated renal pathology. CD169++ TRMs, without being actively involved in direct fungal clearance, increase host resistance by promoting IFN-γ release and neutrophil ROS activity.

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Section: Discussionsupporting

confidence: 93%

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Teo

Mak

et al. 2021

Life Sci. Alliance

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“…(Brown, 2011), supporting our conclusion that neutrophil suppression is an important strategy of C. albicans during infection that, if rescued, could represent an exciting therapeutic opportunity. RNS has well characterised, highly candidacidal effects (Rementería, García-Tobalina and Sevilla, 1995; Vazquez-Torres et al ., 1995; Tillmann, Gow and Brown, 2011; Navarathna, Lionakis and Roberts, 2019). Similarly, Macherla et al .…”

Section: Discussionmentioning

confidence: 99%

“…Following recruitment, neutrophils have multiple mechanisms of eliminating C. albicans , including the production of reactive oxygen (ROS) and nitrogen (RNS) species (Winterbourn et al ., 2006). Inhibition of inducible nitric oxide synthase (iNOS) leads to increased mortality in mouse models of C. albicans infections, showing the importance of RNS mediated fungicidal activity (Tillmann, Gow and Brown, 2011; Wagener et al ., 2017; Navarathna, Lionakis and Roberts, 2019).…”

Section: Introductionmentioning

confidence: 99%

Candida albicanssuppression of neutrophil reactive nitrogen species is rescued by host Hif-1αin vivo

Burgess,

Hammond,

Szkuta

et al. 2023

Preprint

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Candidaspp. cause 750,000 cases per annum of invasive disease worldwide, with up to a 50% mortality rate. Poor efficacy of current antifungals, lack of vaccines and rising antifungal resistance rates point towards an urgent need to develop new therapies.Candida albicansis a human commensal fungus that can cause life-threatening invasive infection in immunocompromised individuals.C. albicansis able to manipulate host macrophages and neutrophils to escape phagosomal killing and has previously been shown to suppress reactive nitrogen species (RNS) productionin vitro. However, the effects ofC. albicanson RNSin vivoand the molecular and cellular mechanisms involved remain unclear. Using a zebrafish model, we aimed to characterise RNS suppression byC. albicans in vivo. We demonstrate thatC. albicanssuppressed neutrophil RNS both proximally and distally to the infection site in a partially active process, with heat-killedC. albicansnot reducing RNS to the same extent as live fungi. Using acar1Δ mutant, we show that fungal arginase is partially responsible for the reduction in neutrophil RNS. Stabilisation of Hif-1α, a transcription factor with a key role in immune regulation, rescued neutrophil RNS production duringC. albicansinfection, leading to improved infection outcomes. The protective effect of Hif-1α stabilisation was neutrophil- and nitric oxide synthase-dependent. Together, these data demonstrate that Hif-1α stabilisation can restore the neutrophil RNS response inC. albicansinfection, leading to improved infection outcomes, highlighting the potential of targeting Hif-1α and RNS in host directed therapies against fungal infections.

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“…TLR1, TLR2, and TLR6 were regarded as critical mediators for fungal colonization and inflammatory responses in the candidemia kidney. As expression of these TLRs in the kidney could be enhanced by deficiency of nitric oxide synthase 3, NOS inhibition might mitigate candidemia [44].…”

Section: Infectious Kidneymentioning

confidence: 99%

Toll-Like Receptors Regulate the Development and Progression of Renal Diseases

Liu

Zen

2020

Kidney Dis

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Background: Stimulated by both microbial and endogenous ligands, toll-like receptors (TLRs) play an important role in the development and progression of renal diseases. Summary: As a highly conserved large family, TLRs have 11 members in humans (TLR1∼TLR11) and 13 members in mouse (TLR1∼TLR13). It has been widely reported that TLR2 and TLR4 signaling, activated by both exogenous and endogenous ligands, promote disease progression in both renal ischemia-reperfusion injury and diabetic nephropathy. TLR4 also vitally functions in CKD and infection-associated renal diseases such as pyelonephritis induced by urinary tract infection. Stimulation of intracellular TLR7/8 and TLR9 by host-derived nucleic acids also plays a key role in systemic lupus erythematosus. Given that certain microRNAs with GU-rich sequence have recently been found to be able to serve as TLR7/8 ligands, these microRNAs may initiate pro-inflammatory signal via activating TLR signal. Moreover, as microRNAs can be transferred across different organs via cell-secreted exosomes or protein-RNA complex, the TLR signaling activated by the miRNAs released by other injured organs may also result in renal dysfunction. Key Messages: In this review, we sum up the recent progress in the role of TLRs in various forms of glomerulonephritis and discuss the possible prevention or therapeutic strategies for clinic treatment to renal diseases.

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Endothelial nitric oxide synthase limits host immunity to control disseminated Candida albicans infections in mice

Cited by 11 publications

References 57 publications

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Candida albicanssuppression of neutrophil reactive nitrogen species is rescued by host Hif-1αin vivo

Toll-Like Receptors Regulate the Development and Progression of Renal Diseases

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Endothelial nitric oxide synthase limits host immunity to control disseminated Candida albicans infections in mice

Cited by 11 publications

References 57 publications

Renal CD169++resident macrophages are crucial for protection against acute systemic candidiasis

Renal CD169++resident macrophages are crucial for protection against acute systemic candidiasis

Candida albicanssuppression of neutrophil reactive nitrogen species is rescued by host Hif-1αin vivo

Toll-Like Receptors Regulate the Development and Progression of Renal Diseases

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Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis

Renal CD169⁺⁺resident macrophages are crucial for protection against acute systemic candidiasis