LANCL2 is necessary for abscisic acid binding and signaling in human granulocytes and in rat insulinoma cells

Abstract

Abscisic acid (ABA) is a plant hormone regulating fundamental physiological functions in plants, such as response to abiotic stress. Recently,ABAwas shown to be produced and released by human granulocytes, by insulin-producing rat insulinoma cells, and by human and murine pancreatic β cells. ABA autocrinally stimulates the functional activities specific for each cell type through a receptor-operated signal transduction pathway, sequentially involving a pertussis toxin-sensitive receptor/Gprotein complex, cAMP, CD38-produced cADP-ribose and intracellular calcium. Here we show that the lanthionine synthetase C-like protein LANCL2 is required for ABA binding on the membrane of human granulocytes and that LANCL2 is necessary for transduction of the ABA signal into the cell-specific functional responses in granulocytes and in rat insulinoma cells. Co-expression of LANCL2 and CD38 in the human HeLa cell line reproduces the ABA-signaling pathway. Results obtained with granulocytes and CD38+/LANCL2+ HeLa transfected with a chimeric G-protein (Gαq/i) suggest that the pertussis toxin-sensitive G-protein coupled to LANCL2 is a Gi. Identification of LANCL2 as a critical component of the ABA-sensing protein complex will enable the screening of synthetic ABA antagonists as prospective new anti-inflammatory and anti-diabetic agents. © 2009 by The American Society for Biochemistry and Molecular Biology, Inc.