Chitosan (a polymer of beta-1,4-glucosamine residues) is a deacetylated derivative of chitin which presents antifungal properties and acts as a potent elicitor of plant resistance against fungal pathogens. Attention was focused in this study on the chitosan-induced early events in the elicitation chain. Thus, it was shown that chitosan triggered in a dose-dependent manner rapid membrane transient depolarization of Mimosa pudica motor cells and, correlatively, a transient rise of pH in the incubation medium of pulvinar tissues. By using plasma membrane vesicles (PMVs), it was specified that a primary site of action of the compound is the plasma membrane H(+)-ATPase as shown by its inhibitory effect on the proton pumping and the catalytic activity of the enzyme up to 250 microg ml(-1). As a consequence, chitosan treatment modified H(+)-mediated processes, in particular it inhibited the uptake of the H(+)-substrate co-transported sucrose and valine, and inhibited the light-induced H(+)/K(+)-mediated turgor reaction of motor cells. The present data also allowed the limit of the cytotoxicity of the compound to be established close to a concentration of 100 microg ml(-1) at the plasma membrane level. As a consequence, chitosan could be preferably used in plant disease control as a powerful elicitor rather than a direct antifungal agent.
Eutypa dieback is a devastating disease induced in vineyards by the fungal pathogen Eutypa lata. The fungus colonizes the xylem tissues of trunk and cordons but is never found in the annual canes. Nevertheless, dwarfed shoots and leaf necrosis observed in diseased plants indicate that a necrotic signal can spread at a distance from the infected area. Eutypine, a small cyclic molecule, and related compounds have been postulated as the toxins inducing these symptoms. In this work, we evidence that E. lata secreted other metabolites of polypeptidic nature which induced toxic effects on canes and leaves of vines, and on leaves of other plant materials. The polypeptide fraction (PF) isolated from culture medium of mycelium induced transitory Hþ fluxes and membrane depolarization of plant cells. Complementary assays with plasma membrane vesicles (PMV) showed that Hþ-ATPase is a primary site of action as indicated by inhibition of the enzyme activity and increase of Hþ conductance of plasma membrane. The toxic effect was also obvious on respiration and photosynthesis. All these impairments led to a hindering in cell energetics and, as a consequence, to an inhibition of uptake of assimilates. Treatment with PF also triggered biological events, characteristics of elicitation as suggested by the early responses on cell membrane described above, the activation of NADPH oxidase and the activation of Phenylalanine ammonia lyase (PAL)
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