Frontiers in Immunology (Apr 2018)

Alpha-1 Antitrypsin Inhibits ATP-Mediated Release of Interleukin-1β via CD36 and Nicotinic Acetylcholine Receptors

  • Kathrin Siebers,
  • Bijan Fink,
  • Anna Zakrzewicz,
  • Alisa Agné,
  • Katrin Richter,
  • Sebastian Konzok,
  • Andreas Hecker,
  • Sven Zukunft,
  • Mira Küllmar,
  • Jochen Klein,
  • J. Michael McIntosh,
  • J. Michael McIntosh,
  • J. Michael McIntosh,
  • Thomas Timm,
  • Katherina Sewald,
  • Winfried Padberg,
  • Nupur Aggarwal,
  • Walee Chamulitrat,
  • Sentot Santoso,
  • Wendy Xia,
  • Sabina Janciauskiene,
  • Veronika Grau

DOI
https://doi.org/10.3389/fimmu.2018.00877
Journal volume & issue
Vol. 9

Abstract

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While interleukin (IL)-1β is a potent pro-inflammatory cytokine involved in host defense, high levels can cause life-threatening sterile inflammation including systemic inflammatory response syndrome. Hence, the control of IL-1β secretion is of outstanding biomedical importance. In response to a first inflammatory stimulus such as lipopolysaccharide, pro-IL-1β is synthesized as a cytoplasmic inactive pro-form. Extracellular ATP originating from injured cells is a prototypical second signal for inflammasome-dependent maturation and release of IL-1β. The human anti-protease alpha-1 antitrypsin (AAT) and IL-1β regulate each other via mechanisms that are only partially understood. Here, we demonstrate that physiological concentrations of AAT efficiently inhibit ATP-induced release of IL-1β from primary human blood mononuclear cells, monocytic U937 cells, and rat lung tissue, whereas ATP-independent IL-1β release is not impaired. Both, native and oxidized AAT are active, suggesting that the inhibition of IL-1β release is independent of the anti-elastase activity of AAT. Signaling of AAT in monocytic cells involves the lipid scavenger receptor CD36, calcium-independent phospholipase A2β, and the release of a small soluble mediator. This mediator leads to the activation of nicotinic acetylcholine receptors, which efficiently inhibit ATP-induced P2X7 receptor activation and inflammasome assembly. We suggest that AAT controls ATP-induced IL-1β release from human mononuclear blood cells by a novel triple-membrane-passing signaling pathway. This pathway may have clinical implications for the prevention of sterile pulmonary and systemic inflammation.

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