Eotaxin-1/CC chemokine ligand 11: A novel eosinophil survival factor secreted by human pulmonary artery endothelial cells

Farahi, Neda, Cowburn, Andrew S., Upton, Paul D., Deighton, John, Sobolewski, Anastasia, Gherardi, Ermanno, Morrell, Nicholas W. and Chilvers, Edwin R. (2007) Eotaxin-1/CC chemokine ligand 11: A novel eosinophil survival factor secreted by human pulmonary artery endothelial cells. Journal of Immunology, 179 (2). pp. 1264-1273. ISSN 0022-1767

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Airway eosinophilia plays a major role in the pathogenesis of asthma with the inhibition of apoptosis by GM-CSF and IL-5 proposed as a mechanism underlying prolonged eosinophil survival. In vivo and ex vivo studies have indicated the capacity of interventions that drive human eosinophil apoptosis to promote the resolution of inflammation. Far less is known about the impact of transendothelial migration on eosinophil survival, in particular, the capacity of endothelial cell-derived factors to contribute toward the apoptosis-resistant phenotype characteristic of airway-resident eosinophils. We examined the effects of conditioned medium from human pulmonary artery endothelial cells (HPAEC-CM) on eosinophil apoptosis in vitro. HPAEC-CM inhibited eosinophil, but not neutrophil apoptosis. This effect was specific to HPAECs and comparable in efficacy to the survival effects of GM-CSF and IL-5. The HPAEC survival factor was shown, on the basis of GM-CSF, IL-5, and IL-3 detection assays, Ab neutralization, and sensitivity to PI3K inhibition, to be clearly discrete from these factors. Gel filtration of HPAEC-CM revealed a peak of eosinophil survival activity at 8–12 kDa, and PCR confirmed the presence of mRNA for CCL5, CCL11, CCL24, CCL26, and CCL27 in the HPAECs. The CCR3 antagonist GW782415 caused a major inhibition of the HPAEC-CM-induced survival effect, and Ab neutralization of individual CCR3 chemokines revealed CCL11 as the major survival factor present in the HPAEC-CM. Furthermore, chemokine Ab arrays demonstrated up-regulation of CCL11 in HPAEC-CM. These data demonstrate the capacity of HPAECs to generate CCR3 agonists and the ability of CCL11 to inhibit human eosinophil apoptosis.

Item Type: Article
Faculty \ School: Faculty of Science > School of Biological Sciences
Faculty of Science > School of Pharmacy
UEA Research Groups: Faculty of Science > Research Groups > Molecular and Tissue Pharmacology
Depositing User: Pure Connector
Date Deposited: 12 Oct 2016 15:00
Last Modified: 07 Feb 2023 12:30
URI: https://ueaeprints.uea.ac.uk/id/eprint/60884
DOI: 10.4049/jimmunol.179.2.1264

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