Abstract
Plasma membrane-borne pattern recognition receptors, which recognize microbe-associated molecular patterns and endogenous damage-associated molecular patterns, provide the first line of defense in innate immunity. In plants, leucine-rich repeat receptor kinases fulfill this role, as exemplified by FLS2 and EFR, the receptors for the microbe-associated molecular patterns flagellin and elongation factor Tu. Here we examined the perception of the damage-associated molecular pattern peptide 1 (AtPep1), an endogenous peptide of Arabidopsis identified earlier and shown to be perceived by the leucine-rich repeat protein kinase PEPR1. Using seedling growth inhibition, elicitation of an oxidative burst and induction of ethylene biosynthesis, we show that wild type plants and the pepr1 and pepr2 mutants, affected in PEPR1 and in its homologue PEPR2, are sensitive to AtPep1, but that the double mutant pepr1/pepr2 is completely insensitive. As a central body of our study, we provide electrophysiological evidence that at the level of the plasma membrane, AtPep1 triggers a receptor-dependent transient depolarization through activation of plasma membrane anion channels, and that this effect is absent in the double mutant pepr1/pepr2. The double mutant also fails to respond to AtPep2 and AtPep3, two distant homologues of AtPep1 on the basis of homology screening, implying that the PEPR1 and PEPR2 are responsible for their perception too. Our findings provide a basic framework to study the biological role of AtPep1-related danger signals and their cognate receptors.
Highlights
In plant immunity, a first line of defense is based on the perception of a group of conserved, pathogen-derived molecules, 464534, the Swiss National Science Foundation, and German Research Foundation Graduierten Kolleg 1342 “Lipid Signalling” and SFB567
Earlier studies observed an increase in root and aerial growth in plants expressing constitutively the associated molecular pattern peptide 1 (AtPep1) precursor PROPEP1, which seems to be in contrast to the effect of AtPep1 on Arabidopsis seedlings observed here [6]
In this study peptides were supplied in a form that can be perceived by membrane receptors, it is unclear how PROPEP1 is processed and how the AtPep1 is transported to the apoplast after this processing
Summary
Plant Material—The Arabidopsis plants used in this study were grown as one plant per pot at 20 –21 °C with an 8-h photoperiod, or on plates containing MS salts medium (Duchefa), 1% sucrose, and 0.8% agar under continuous light. Leaf pieces of 4-week-old Arabidopsis plants were cut in 2-mm pieces and floated overnight in water. Ethylene Accumulation—For ethylene measurement leaf material of 4-week-old plants were cut into 1-mm thick stripes and floated overnight in water. Afterward three leaf stripes (20 mg) were transferred in 6-ml glass vials containing 0.5 ml of an aqueous solution of the elicitor to be tested. Microelectrodes from borosilicate glass capillaries with filament (Hilgenberg, Malsfeld, Germany) were pulled on a horizontal laser puller (P2000, Sutter Instruments Co., Novato, CA). They were filled with 300 mM KCl and connected via an Ag/AgCl half-cell to a headstage (1 gigaohm, HS-2A, Axon Instruments, Union City, CA). The relative luminescence was determined from the ratio of the actual luminescence per second and the total luminescence was emitted from the probe [9]
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