Glucocorticoids inhibit apoptosis of human neutrophils

Liles, W. Conrad; Dale, DC; Klebanoff, Seymour J.

doi:10.1182/blood.v86.8.3181.3181

Cited by 282 publications

(137 citation statements)

References 56 publications

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“…Whether hypoxia operates to suppress constitutive apoptosis of eosinophils within microenvironments such as inflamed airways, with re-oxygenation on exposure to oxygen in the airway lumen releasing these constraints is unknown, but would be consistent with mouse data where hypoxia increases peri-bronchial eosinophilia post-OVA challenge [50]. Glucocorticoids have dichotomous effects on granulocyte lifespan, promoting neutrophil survival yet inducing eosinophil apoptosis [62]. Although corticosteroids are used to modulate inflammatory cell function within environments that may be profoundly hypoxic, few studies have examined the impact of hypoxia on the effects of these agents.…”

Section: Discussionsupporting

confidence: 56%

Hypoxia causes IL‐8 secretion, Charcot Leyden crystal formation, and suppression of corticosteroid‐induced apoptosis in human eosinophils

Porter

Cowburn

Farahi

et al. 2017

Clin Experimental Allergy

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Summary Background Inflamed environments are typically hypercellular, rich in pro‐inflammatory cytokines, and profoundly hypoxic. While the effects of hypoxia on neutrophil longevity and function have been widely studied, little is known about the consequences of this stimulus on eosinophils. Objective We sought to investigate the effects of hypoxia on several key aspects of eosinophil biology, namely secretion, survival, and their sensitivity to glucocorticosteroids (GCS), agents that normally induce eosinophil apoptosis. Methods Eosinophils derived from patients with asthma/atopy or healthy controls were incubated under normoxia and hypoxia, with or without glucocorticoids. Activation was measured by flow cytometry, ELISA of cultured supernatants, and F‐actin staining; apoptosis and efferocytosis by morphology and flow cytometry; and GCS efficacy by apoptosis assays and qPCR. Results Hypoxic incubation (3 kPa) caused (i) stabilization of HIF‐2α and up‐regulation of hypoxia‐regulated genes including BNIP3 (BCL2/adenovirus E1B 19‐kDa protein‐interacting protein 3) and GLUT1 (glucose transporter 1); (ii) secretion of pre‐formed IL‐8, and Charcot Leyden crystal (CLC) formation, which was most evident in eosinophils derived from atopic and asthmatic donors; (iii) enhanced F‐actin formation; (iv) marked prolongation of eosinophil lifespan (via a NF‐κB and Class I PI3‐kinase‐dependent mechanism); and (v) complete abrogation of the normal pro‐apoptotic effect of dexamethasone and fluticasone furoate. This latter effect was evident despite preservation of GCS‐mediated gene transactivation under hypoxia. Conclusion and Clinical Relevance These data indicate that hypoxia promotes an eosinophil pro‐inflammatory phenotype by enhancing eosinophil secretory function, delaying constitutive apoptosis, and importantly, antagonizing the normal pro‐apoptotic effect of GCS. As eosinophils typically accumulate at sites that are relatively hypoxic, particularly during periods of inflammation, these findings may have important implications to understanding the behaviour of these cells in vivo.

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Section: Discussionsupporting

confidence: 56%

Hypoxia causes IL‐8 secretion, Charcot Leyden crystal formation, and suppression of corticosteroid‐induced apoptosis in human eosinophils

Porter

Cowburn

Farahi

et al. 2017

Clin Experimental Allergy

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“…Increased neutrophil numbers may be a result of the inability of steroids to block NF-B-induced neutrophil activation and proliferation resulting from a strong viral stimulus or the ability of glucocorticoids to inhibit neutrophil apoptosis. Several studies have demonstrated that dexamethasone delays or even prevents neutrophil apoptosis, thus prolonging neutrophil survival and functional responsiveness (51)(52)(53)(54), due in part to the stabilization of the anti-apoptotic Mcl-1L protein (55). This, along with increased expression of neutrophil survival factors, such as granulocyte colony-stimulating factor (G-CSF) (56) and granulocyte-macrophage colony-stimulating factor (GM-CSF) (57), which are often induced during viral infections, may explain why dexamethasone-treated animals did not exhibit a more significant decrease in neutrophil numbers.…”

Section: Discussionmentioning

confidence: 99%

A Lethal Disease Model for Hantavirus Pulmonary Syndrome in Immunosuppressed Syrian Hamsters Infected with Sin Nombre Virus

Brocato

Hammerbeck

Bell

et al. 2014

J Virol

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Sin Nombre virus (SNV) is a rodent-borne hantavirus that causes hantavirus pulmonary syndrome (HPS) predominantly in North America. SNV infection of immunocompetent hamsters results in an asymptomatic infection; the only lethal disease model for a pathogenic hantavirus is Andes virus (ANDV) infection of Syrian hamsters. Efforts to create a lethal SNV disease model in hamsters by repeatedly passaging virus through the hamster have demonstrated increased dissemination of the virus but no signs of disease. In this study, we demonstrate that immunosuppression of hamsters through the administration of a combination of dexamethasone and cyclophosphamide, followed by infection with SNV, results in a vascular leak syndrome that accurately mimics both HPS disease in humans and ANDV infection of hamsters. Immunosuppressed hamsters infected with SNV have a mean number of days to death of 13 and display clinical signs associated with HPS, including pulmonary edema. Viral antigen was widely detectable throughout the pulmonary endothelium. Histologic analysis of lung sections showed marked inflammation and edema within the alveolar septa of SNV-infected hamsters, results which are similar to what is exhibited by hamsters infected with ANDV. Importantly, SNV-specific neutralizing polyclonal antibody administered 5 days after SNV infection conferred significant protection against disease. This experiment not only demonstrated that the disease was caused by SNV, it also demonstrated the utility of this animal model for testing candidate medical countermeasures. This is the first report of lethal disease caused by SNV in an adult small-animal model.

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“…However, this effect is thought to involve the nucleotide receptor P2X7 and not FPR2/ALX. In comparison, ANXA1 has been shown to accelerate neutrophil apoptosis (Solito et al, 2003), although glucocorticoids that regulate ANXA1 production have antiapoptotic effects (Liles et al, 1995). El Kebir et al (2007) reported that SAA could stimulate concurrent activation of the ERK and PI3K/Akt signaling pathways, resulting in the phosphorylation of BCL-XL/BCL2-associated death promoter (BAD) protein at Ser112 and Ser136, respectively, thereby preventing collapse of mitochondrial transmembrane potential, cytochrome c release, and caspase-3 activation.…”

Section: Transcriptional Regulation and Anti-inflammatorymentioning

confidence: 99%

International Union of Basic and Clinical Pharmacology. LXXIII. Nomenclature for the Formyl Peptide Receptor (FPR) Family

Ye¹,

Boulay²,

Wang³

et al. 2009

Pharmacol Rev

676

1,034

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Glucocorticoids inhibit apoptosis of human neutrophils

Cited by 282 publications

References 56 publications

Hypoxia causes IL‐8 secretion, Charcot Leyden crystal formation, and suppression of corticosteroid‐induced apoptosis in human eosinophils

Hypoxia causes IL‐8 secretion, Charcot Leyden crystal formation, and suppression of corticosteroid‐induced apoptosis in human eosinophils

A Lethal Disease Model for Hantavirus Pulmonary Syndrome in Immunosuppressed Syrian Hamsters Infected with Sin Nombre Virus

International Union of Basic and Clinical Pharmacology. LXXIII. Nomenclature for the Formyl Peptide Receptor (FPR) Family

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