Abstract
Pathogen/microbe- or plant-derived signaling molecules (PAMPs/MAMPs/DAMPs) or elicitors induce increases in the cytosolic concentration of free Ca(2+) followed by a series of defense responses including biosynthesis of antimicrobial secondary metabolites called phytoalexins; however, the molecular links and regulatory mechanisms of the phytoalexin biosynthesis remains largely unknown. A putative voltage-gated cation channel, OsTPC1 has been shown to play a critical role in hypersensitive cell death induced by a fungal xylanase protein (TvX) in suspension-cultured rice cells. Here we show that TvX induced a prolonged increase in cytosolic Ca(2+), mainly due to a Ca(2+) influx through the plasma membrane. Membrane fractionation by two-phase partitioning and immunoblot analyses revealed that OsTPC1 is localized predominantly at the plasma membrane. In retrotransposon-insertional Ostpc1 knock-out cell lines harboring a Ca(2+)-sensitive photoprotein, aequorin, TvX-induced Ca(2+) elevation was significantly impaired, which was restored by expression of OsTPC1. TvX-induced production of major diterpenoid phytoalexins and the expression of a series of diterpene cyclase genes involved in phytoalexin biosynthesis were also impaired in the Ostpc1 cells. Whole cell patch clamp analyses of OsTPC1 heterologously expressed in HEK293T cells showed its voltage-dependent Ca(2+)-permeability. These results suggest that OsTPC1 plays a crucial role in TvX-induced Ca(2+) influx as a plasma membrane Ca(2+)-permeable channel consequently required for the regulation of phytoalexin biosynthesis in cultured rice cells.
Highlights
Molecular mechanisms for elicitor-induced changes in cytosolic Ca2ϩ concentration and its molecular link with regulation of phytoalexin biosynthesis in plant immunity remain mostly unknown
These results suggest that OsTPC1 plays a crucial role in TvX-induced Ca2؉ influx as a plasma membrane Ca2؉permeable channel required for the regulation of phytoalexin biosynthesis in cultured rice cells
External Ca2ϩ was required for TvX-induced hypersensitive cell death, suggesting that Ca2ϩ influx through the plasma membrane (PM) is indispensable for
Summary
Molecular mechanisms for elicitor-induced changes in cytosolic Ca2ϩ concentration and its molecular link with regulation of phytoalexin biosynthesis in plant immunity remain mostly unknown. Whole cell patch clamp analyses of OsTPC1 heterologously expressed in HEK293T cells showed its voltage-dependent Ca2؉-permeability These results suggest that OsTPC1 plays a crucial role in TvX-induced Ca2؉ influx as a plasma membrane Ca2؉permeable channel required for the regulation of phytoalexin biosynthesis in cultured rice cells. Fourteen diterpenoid phytoalexins have been identified and can be classified into four groups, based on the structure of their hydrocarbon precursors: phytocassanes A–E, oryzalexins A–F, momilactones A and B, and oryzalexin S Biosynthesis of these phytoalexins are induced by various elicitors including chitin fragments, cerebrosides and xylanase protein from Trichoderma viride (TvX)/ethylene-inducing xylanase (EIX) in rice-cultured cells, along with a variety of defense responses [7,8,9]. Evidence presented here suggests that OsTPC1 is predominantly localized at the plasma membrane and has a role in the regulation of TvXinduced increases in [Ca2ϩ]cyt as well as phytoalexin biosynthesis
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