NR4A1-3 nuclear receptor activity and immune cell dysregulation in rheumatic diseases

Murphy, Evelyn P.; Crean, Daniel

doi:10.3389/fmed.2022.874182

Cited by 5 publications

(4 citation statements)

References 125 publications

(71 reference statements)

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“…Additionally, the constitutive activation of NLRP3 inflammasomes carrying pathogenic variants dictates a gene expression program that increases inflammatory genes. This includes the upregulation of nuclear receptors 4A1 and 4A2, which although not previously associated with CAPS, control the inflammatory activation of macrophages and have been implicated in rheumatic diseases 56 . CAPS-associated NLRP3 variants also control other genes related to innate immunity (such as lipocalin 2, C-C chemokine receptor type 7, or the zinc finger endoribonuclease Zc3h12a) and IL-17 responses.…”

Section: Discussionmentioning

confidence: 97%

Pathogenic NLRP3 mutants form constitutively active inflammasomes resulting in immune-metabolic limitation of IL-1β production

Molina-López,

Hurtado-Navarro,

García

et al. 2024

Nat Commun

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Cryopyrin-associated periodic syndrome (CAPS) is an autoinflammatory condition resulting from monoallelic NLRP3 variants that facilitate IL-1β production. Although these are gain-of-function variants characterized by hypersensitivity to cell priming, patients with CAPS and animal models of the disease may present inflammatory flares without identifiable external triggers. Here we find that CAPS-associated NLRP3 variants are forming constitutively active inflammasome, which induce increased basal cleavage of gasdermin D, IL-18 release and pyroptosis, with a concurrent basal pro-inflammatory gene expression signature, including the induction of nuclear receptors 4 A. The constitutively active NLRP3-inflammasome of CAPS is responsive to the selective NLRP3 inhibitor MCC950 and its activation is regulated by deubiquitination. Despite their preactivated state, the CAPS inflammasomes are responsive to activation of the NF-κB pathway. NLRP3-inflammasomes with CAPS-associated variants affect the immunometabolism of the myeloid compartment, leading to disruptions in lipids and amino acid pathways and impaired glycolysis, limiting IL-1β production. In summary, NLRP3 variants causing CAPS form a constitutively active inflammasome inducing pyroptosis and IL-18 release without cell priming, which enables the host’s innate defence against pathogens while also limiting IL-1β–dependent inflammatory episodes through immunometabolism modulation.

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Section: Discussionmentioning

confidence: 97%

Pathogenic NLRP3 mutants form constitutively active inflammasomes resulting in immune-metabolic limitation of IL-1β production

Molina-López,

Hurtado-Navarro,

García

et al. 2024

Nat Commun

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“…In inflammatory diseases, NR4A family members are rapidly expressed and control the differentiation and activity of innate and adaptive immune cells. In addition, these proteins mediate cytokine signaling to control angiogenesis (for review (Hamers et al, 2013; Murphy and Crean, 2022)). Furthermore, three genes encoding members of matrix metalloproteinases (MMP1, MMP2, MMP3) are specifically up-regulated only in the presence of iRBCs at elevated temperatures.…”

Section: Discussionmentioning

confidence: 99%

Cytoadhesion ofPlasmodium falciparum-infected red blood cells changes the expression of cytokine-, histone- and antiviral protein-encoding genes in brain endothelial cells

Allweier,

Bartels,

Torabi

et al. 2024

Preprint

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Introduction: Malaria remains a significant global health problem, particularly due to the human malaria parasitePlasmodium falciparum, which is responsible for most fatal infections. Infected red blood cells (iRBCs) evade spleen clearance by adhering to endothelial cells (ECs), triggering capillary blockage, inflammatory cytokine release, endothelial dysfunction, and altered vascular permeability, prompting an endothelial transcriptional response. Methods: The iRBCIT4var04/HBEC-5i model, where iRBCs present IT4var04 (VAR2CSA) on their surface was employed to analyse the effects of iRBC binding on ECs. We used this model to investigate how cytoadhesion of iRBCs to ECs influences their expression profile depending on the temperature (37 degrees celsius vs 40 degrees celsius). Results: Binding of non-infected RBCs (niRBCs) and fever alone significantly changes expression of hundreds of genes in ECs. Comparing the expression profile of HBEC-5i cultured either in the presence of iRBCs or in the presence of niRBCs, genes encoding proteins assigned to the GO terms immune response, nucleosome assembly, NF-kappa B signaling, angiogenesis, and antiviral immune response/interferon-alpha/beta signaling pathway were significantly up-regulated. If the cultivation temperature is increased from 37 degrees celsius to 40 degrees celsius, which simulates fever, a further significant increase in expression can be observed for most regulated genes, especially for genes coding for cytokines and proteins involved in angiogenesis. Conclusion: The presence of iRBCs leads to the stimulation of ECs, activating several immunological signaling pathways and affecting antiviral (-parasitic) mechanisms and angiogenesis. Furthermore, to our knowledge, the induction of the interferon-alpha/beta signaling pathway in ECs in response to iRBCs has been described for the first time.

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“…VEGFR2 is a key receptor in VEGF-induced angiogenesis and has been associated with plaque instability, and VEGFR2 antagonism could reduce vascular sprouting in aortic rings of mice [36]. NR4A1 is a subfamily of nuclear receptors, which mainly mediate growth factor and cytokine signaling to regulate angiogenesis, change the activation status of dendritic cells, regulate mesenchymal stromal cells functions, promote the maintenance of functional regulatory T-cells, and influence the generation of peripheral myeloid and T-lymphocyte lineages [37]. In chronic inflammatory conditions, NR4A1 has been shown to regulate pathological angiogenesis [38].…”

Section: Discussionmentioning

confidence: 99%

Tetramethylpyrazine and paeoniflorin combination (TMP-PF) alleviates atherosclerosis progress by reducing hyperlipemia and inhibiting plaque angiogenesis via the NR4A1/VEGFR2 pathway

Yuan,

Xin,

Shi

et al. 2023

Food Science and Human Wellness

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Atherosclerosis remains a great threat to human health worldwide. Previous studies found that tetramethylpyrazine (TMP) and paeoniflorin (PF) combination (TMP-PF) exerts anti-atherosclerotic effects in vitro. However, whether TMP-PF improves atherosclerosis in vivo needs further exploration. The present study aims to assess the anti-atherosclerotic properties of TMP-PF in ApoE -/mice and explore the related molecule mechanisms. Results showed that TMP and high-dose TMP-PF decreased serum TG and LDL-C levels, suppressed VEGFR2 and NR4A1 expression in aortic tissues, inhibited plaque angiogenesis, reduced plaque areas, and alleviated atherosclerosis in ApoE -/mice. Also, TMP-PF exhibited a better modulation effect than TMP or PF alone. However, NR4A1 agonist abolished the anti-atherosclerotic effects of TMP-PF. In conclusion, TMP-PF was first found to alleviate atherosclerosis progression by reducing hyperlipemia and inhibiting plaque angiogenesis via the NR4A1/VEGFR2 pathway, indicating that TMP-PF had a positive effect on reducing hyperlipemia and attenuating atherosclerosis development.

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NR4A1-3 nuclear receptor activity and immune cell dysregulation in rheumatic diseases

Cited by 5 publications

References 125 publications

Pathogenic NLRP3 mutants form constitutively active inflammasomes resulting in immune-metabolic limitation of IL-1β production

Pathogenic NLRP3 mutants form constitutively active inflammasomes resulting in immune-metabolic limitation of IL-1β production

Cytoadhesion ofPlasmodium falciparum-infected red blood cells changes the expression of cytokine-, histone- and antiviral protein-encoding genes in brain endothelial cells

Tetramethylpyrazine and paeoniflorin combination (TMP-PF) alleviates atherosclerosis progress by reducing hyperlipemia and inhibiting plaque angiogenesis via the NR4A1/VEGFR2 pathway

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