β-1,3-D-Glucan Transported from Golgi Apparatus of Japanese Pear Leaves is a Component of Extracellular Polysaccharides Accumulated after AK-toxin I Treatment

This fluorescence and immunoelectron microscopic study showed that β-1,3-D-glucan accumulated only in leaves of a susceptible cultivar of Japanese pear after treatment with a host-specific toxin, AK-toxin I, from Alternate, alternata Japanese pear pathotype. The positive fluorescent reaction of callose was detected only in aniline blue fluorochrome-stained sections from toxin-treated leaves of the susceptible cultivar: positive sites were observed on cell walls of leaf cells. The sites of callose deposition were probably consistent spatially with modified sites on the plasma membrane that were observed only in the toxin-treated leaves of the susceptible cultivar. The toxin-induced modifications, identified as damage to the plasma membrane, were characterized by invagination of the plasmalemma specifically at plasmodesmata and as the concomitant accumulation of extracellular polysaccharides at the invaginated sites. A positive reaction to anti-β-1,3-D-glucan antibody was detected at the polysaccharides, Golgi vesicles, and trans-Golgi network (TGN) of toxin-treated leaves of the susceptible cultivar, but not at Golgi vesicles and TGN of water-treated ones. The cis-, medial and trans-Golgi stacks of toxin-treated leaves of the susceptible cultivar were negative for the antibody. The results showed that the polysaccharides, Golgi vesicles and TGN contained abundant β-1,3-D-glucan and that the glucan was transported from the Golgi apparatus via Golgi vesicles to the modified sites in cells of toxin-treated leaves of the susceptible cultivar.