A role for arabinogalactan proteins in gibberellin-induced α-amylase production in barley aleurone cells

Abstract

Arabinogalactan proteins (AGPs) are plant proteoglycans that have been implicated in plant growth and development. The possible involvement of AGPs in the action of gibberellin (GA), a class of plant hormones, was examined by applying β-glucosyl Yariv reagent (β-GIc)3Y, a synthetic phenyl glycoside that interacts selectively with AGPs, to barley aleurone protoplasts. Gibberellin induces transcription and secretion of α-amylases in the protoplasts. Induction of α-amylase was clearly inhibited by (β-GIc)3Y but not by (α-GaI)3Y, a negative control of the Yariv reagent that does not interact with AGPs. Transfection analysis, using an α-amylase promoter-GUS fusion gene in the protoplasts, indicated that the transcriptional activation of the α-amylase promoter was inhibited specifically by (β-GIc)3Y. These observations are the first indication of an involvement of AGPs in a plant hormone function. The inhibitory effect of (β-GIc)3Y was not observed when aleurone layers or half-seed grains were used. This result, together with the fact that protoplasts do not have cell walls, suggests that the AGPs that function in α-amylase induction reside at the plasma membrane. An aleurone-specific AGP was detected by reversed-phase HPLC, and supported the idea that an AGP may play an important role in aleurone-specific events. The possible mechanism of AGP function in gibberellin-induced α-amylase production is discussed.