In vivo interferon-gamma induced changes in gene expression dramatically alter neutrophil phenotype

Author:

Ambruso Daniel R.ORCID,Briones Natalie J.ORCID,Baroffio Angelina F.ORCID,Murphy John R.ORCID,Tran Alexander D.ORCID,Gowan Katherine,Sanford BridgetORCID,Ellison Michael,Jones Kenneth L.

Abstract

The cytokine Interferon-γ (IFN-γ) exerts powerful immunoregulatory effects on the adaptive immune system and also enhances functions of the neutrophil (PMN). The clinical use of IFN-γ has been driven by the finding that its administration to patients with chronic granulomatous disease (CGD) results in decreased incidence and severity of infections. However, IFN-γ has no effect on the characteristic defect of CGD, the inability to convert oxygen to microbicidal metabolites including superoxide anion (O2-) during the phagocytosis associated oxidative burst. We administered varying doses of IFN-γ to adult volunteers and studied the effects on plasma drug levels and response molecules and PMNs isolated from blood drawn at intervals over a 96- hour period. Plasma concentrations of IFN-γ, IP-10 and neopterin, and stimulated release of O2-from PMNs exhibited dose- and time-dependent increases after IFN-γ administration. Gene expression in PMNs was altered for 2775 genes; changes occurred rapidly after administration and returned to baseline in 24–36 hours. Several genes involved with neutrophil host defense were upregulated including those for components of the O2-generating NADPH oxidase; innate-immune and Fc receptors; proteins involved in MHCI and II; a regulator of circulating PMN number; guanylate binding proteins; and a key enzyme in synthesis of an essential NOS cofactor. Coordinate changes were detected in protein levels of representative products from several of these genes. Lysates from isolated neutrophils also demonstrated a spike in NO following IFN-γ administration. IFN-γ appears to increase non-oxygen dependent microbicidal functions of PMNs which could provide strategies to compensate for deficiencies, explain its clinical benefit for CGD patients and expand therapeutic applications of IFN-γ to other disorders.Trial registration:Protocol registered in ClinicalTrials.gov,NCT02609932, Effect of IFN-γ on Innate Immune Cells.

Funder

Horizon Pharma

Stacy True Memorial Trust Fund

NIH/NCATS

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

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