BCL-XL antagonism selectively reduces neutrophil life span within inflamed tissues without causing neutropenia

Emma M Carrington; Cynthia Louis; Tobias Kratina; Manuela Hancock; Christine R Keenan; Nadia Iannarella; Rhys S Allan; Ahmad Z Wardak; Peter E Czabotar; Marco J Herold; Robyn L Schenk; Christine A White; Damian D'Silva; Yuyan Yang; Wesley Wong; Huon Wong; Vanessa L Bryant; Nicholas D Huntington; Jai Rautela; Robyn M Sutherland; Yifan Zhan; Jacinta Hansen; Duong Nhu; Guillaume Lessene; Ian P Wicks; Andrew M Lew

doi:10.1182/bloodadvances.2020004139

BCL-XL antagonism selectively reduces neutrophil life span within inflamed tissues without causing neutropenia

Blood Adv. 2021 Jun 8;5(11):2550-2562. doi: 10.1182/bloodadvances.2020004139.

Authors

Emma M Carrington^{1

2}, Cynthia Louis^{1

2}, Tobias Kratina¹, Manuela Hancock¹, Christine R Keenan^{1

2}, Nadia Iannarella¹, Rhys S Allan^{1

2}, Ahmad Z Wardak¹, Peter E Czabotar^{1

2}, Marco J Herold^{1

2}, Robyn L Schenk^{1

2}, Christine A White^{1

2}, Damian D'Silva¹, Yuyan Yang¹, Wesley Wong^{1

3}, Huon Wong¹, Vanessa L Bryant^{1

2}, Nicholas D Huntington^{2

4}, Jai Rautela^{1

2

4}, Robyn M Sutherland^{1

2}, Yifan Zhan^{1

2}, Jacinta Hansen¹, Duong Nhu^{1

2}, Guillaume Lessene^{1

2}, Ian P Wicks^{1

2

3}, Andrew M Lew^{1

2

5}

Affiliations

¹ The Walter and Eliza Hall Institute of Medical Research, Parkville, Australia.
² Department of Medical Biology, University of Melbourne, Parkville, Australia.
³ Royal Melbourne Hospital, Parkville, Australia.
⁴ Biomedicine Discovery Institute and the Department of Biochemistry and Molecular Biology, Monash University, Clayton, Australia; and.
⁵ Department of Microbiology & Immunology, University of Melbourne, Parkville,Australia.

Abstract

Neutrophils help to clear pathogens and cellular debris, but can also cause collateral damage within inflamed tissues. Prolonged neutrophil residency within an inflammatory niche can exacerbate tissue pathology. Using both genetic and pharmacological approaches, we show that BCL-XL is required for the persistence of neutrophils within inflammatory sites in mice. We demonstrate that a selective BCL-XL inhibitor (A-1331852) has therapeutic potential by causing apoptosis in inflammatory human neutrophils ex vivo. Moreover, in murine models of acute and chronic inflammatory disease, it reduced inflammatory neutrophil numbers and ameliorated tissue pathology. In contrast, there was minimal effect on circulating neutrophils. Thus, we show a differential survival requirement in activated neutrophils for BCL-XL and reveal a new therapeutic approach to neutrophil-mediated diseases.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Apoptosis
Longevity
Mice
Neutropenia* / drug therapy
Neutrophils*