Molecular Mechanisms in Genetically Defined Autoinflammatory Diseases: Disorders of Amplified Danger Signaling

Jesús, Adriana Almeida de; Canna, Scott; Liu, Yin; Goldbach‐Mansky, Raphaela

doi:10.1146/annurev-immunol-032414-112227

Cited by 240 publications

(217 citation statements)

References 239 publications

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“…Immunological response to “danger signals” may lead to excessive activation of proinflammatory cytokines and chemokines, consequently leading to organ damage over time, as observed in the case of autoimmune diseases, where there is a loss in ability to downregulate/attenuate proinflammatory signalling (de Jesus, Canna, Liu, & Goldbach‐Mansky, 2015). This suggests that donor characteristics are important for DGF occurrence and may be linked to organismal/organ stress levels in relation to the type of organ donation (Bon et al, 2012; Morrissey & Monaco, 2014).…”

Section: Discussionmentioning

confidence: 99%

A molecular signature for delayed graft function

et al. 2018

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Chronic kidney disease and associated comorbidities (diabetes, cardiovascular diseases) manifest with an accelerated ageing phenotype, leading ultimately to organ failure and renal replacement therapy. This process can be modulated by epigenetic and environmental factors which promote loss of physiological function and resilience to stress earlier, linking biological age with adverse outcomes post‐transplantation including delayed graft function (DGF). The molecular features underpinning this have yet to be fully elucidated. We have determined a molecular signature for loss of resilience and impaired physiological function, via a synchronous genome, transcriptome and proteome snapshot, using human renal allografts as a source of healthy tissue as an in vivo model of ageing in humans. This comprises 42 specific transcripts, related through IFNγ signalling, which in allografts displaying clinically impaired physiological function (DGF) exhibited a greater magnitude of change in transcriptional amplitude and elevated expression of noncoding RNAs and pseudogenes, consistent with increased allostatic load. This was accompanied by increased DNA methylation within the promoter and intragenic regions of the DGF panel in preperfusion allografts with immediate graft function. Pathway analysis indicated that an inability to sufficiently resolve inflammatory responses was enabled by decreased resilience to stress and resulted in impaired physiological function in biologically older allografts. Cross‐comparison with publically available data sets for renal pathologies identified significant transcriptional commonality for over 20 DGF transcripts. Our data are clinically relevant and important, as they provide a clear molecular signature for the burden of “wear and tear” within the kidney and thus age‐related physiological capability and resilience.

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Section: Discussionmentioning

confidence: 99%

A molecular signature for delayed graft function

et al. 2018

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“…Certain auto-inflammatory syndromes are caused by gene mutations that result in dysregulated, excessive IL-1β production 36. These subjects are known to manifest various neuropsychiatric symptoms and seizures [36,37]. In rodent models of seizures, treatment-resistant seizures were shown to be associated with neuro-inflammation triggered by IL-1β [38].…”

Section: Discussionmentioning

confidence: 99%

Interleukin-1β/Interleukin10 Ratio Produced by Monocytes as a Biomarker of Neuroinflammation in Autism

Jyonouchi¹,

Geng²,

Buyske³

2017

J Clin Cell Immunol

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“…89 Genetic variants in IL-1-related genes associate with the risk for ESRD. 90,91 The pathogenic concept of CAPS was verified by dramatic clinical responses to IL-1 inhibitors such as the IL-1b neutralizing antibody canakinumab (Ilaris), the soluble decoy receptor rilonacept (Arcalyst), and the recombinant human IL-1Ra (Kineret).…”

Section: Il-1-related Drugs and Clinical Datamentioning

confidence: 99%

“…90,91 The pathogenic concept of CAPS was verified by dramatic clinical responses to IL-1 inhibitors such as the IL-1b neutralizing antibody canakinumab (Ilaris), the soluble decoy receptor rilonacept (Arcalyst), and the recombinant human IL-1Ra (Kineret). 89 Important for nephrologists is renal amyloidosis secondary to CAPS or any other hereditary systemic (auto-) inflammatory disorder that responds well to therapeutic IL-1 inhibition (Table 4). [92][93][94][95][96] Numerous other IL-1b-, IL-1a-, or IL-1R1-specific biologic drug candidates and one oral caspase-1 inhibitor are currently in clinical trials.…”

Section: Il-1-related Drugs and Clinical Datamentioning

confidence: 99%

Of Inflammasomes and Alarmins: IL-1β and IL-1α in Kidney Disease

Anders

2016

JASN

204

152

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Kidney injury implies danger signaling and a response by the immune system. The inflammasome is a central danger recognition platform that triggers local and systemic inflammation. In immune cells, inflammasome activation causes the release of mature IL-1b and of the alarmin IL-1a. Dying cells release IL-1a also, independently of the inflammasome. Both IL-1a and IL-1b ligate the same IL-1 receptor (IL-1R) that is present on nearly all cells inside and outside the kidney, further amplifying cytokine and chemokine release. Thus, the inflammasome-IL-1a/IL-b-IL-1R system is a central element of kidney inflammation and the systemic consequences. Seminal discoveries of recent years have expanded this central paradigm of inflammation. This review gives an overview of arising concepts of inflammasome and IL-1a/b regulation in renal cells and in experimental kidney disease models. There is a pipeline of compounds that can interfere with the inflammasome-IL-1a/IL-b-IL-1R system, ranging from recently described small molecule inhibitors of NLRP3, a component of the inflammasome complex, to regulatory agency-approved IL-1-neutralizing biologic drugs. Based on strong theoretic and experimental rationale, the potential therapeutic benefits of using such compounds to block the inflammasome-IL-1a/IL-b-IL-1R system in kidney disease should be further explored.

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Molecular Mechanisms in Genetically Defined Autoinflammatory Diseases: Disorders of Amplified Danger Signaling

Cited by 240 publications

References 239 publications

A molecular signature for delayed graft function

A molecular signature for delayed graft function

Interleukin-1β/Interleukin10 Ratio Produced by Monocytes as a Biomarker of Neuroinflammation in Autism

Of Inflammasomes and Alarmins: IL-1β and IL-1α in Kidney Disease

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