Hydrogen sulfide (H2S) is a newly discovered gaseous signaling molecule and involved in ethylene and ABA-induced stomatal closure. As an important factor, extracellular ATP (eATP) was believed to participate in re...Hydrogen sulfide (H2S) is a newly discovered gaseous signaling molecule and involved in ethylene and ABA-induced stomatal closure. As an important factor, extracellular ATP (eATP) was believed to participate in regulation of stomatal closing. However, the mechanism by which eATP mediates HES-regulated stomatal closure remains unclear. Here, we employed Arabidopsis wild-type and mutant lines of ATP-binding cassette transporters (Atmrp4, Atmrp5 and their double mutant Atmrp4/5) to study the function of eATP in H_2S-regulated stomatal movement. Our results indicated that H_2S affected stomatal closing through stimulating guard cell outward K^+ current. Moreover, we found that HES induced eATP generation by regulating the activity of an ABC transporter. The inhibitor of ABC transporters, glibenclamide (Gli), could impair H_2S-regulated stomatal closure and reduce H_2S-dependent eATP accumulation in Atmrp4 and Atmrp5 mutants. In addition, the promotion effect of H_2S on outward K^+ currents was diminished in Atmrp4/5 double mutant. Our data suggested that hydrogen peroxide (H_2O_2) is required for H_2S-induced stomatal closure, and the production of H_2O_2 is regulated by eATP via NADPH oxidase. Based on this work, we conclude that H_2S-induced stomatal closure requires ABC transporter-dependent eATP pro- duction and subsequent NADPH oxidase-dependent H_2O_2 accumulation.展开更多
基金supported by the National Natural Science Foundation of China(31170237)the National Key Laboratory Program of China Agricultural University(SKLPPBKF11001)Shandong Taishan Scholar Program
文摘Hydrogen sulfide (H2S) is a newly discovered gaseous signaling molecule and involved in ethylene and ABA-induced stomatal closure. As an important factor, extracellular ATP (eATP) was believed to participate in regulation of stomatal closing. However, the mechanism by which eATP mediates HES-regulated stomatal closure remains unclear. Here, we employed Arabidopsis wild-type and mutant lines of ATP-binding cassette transporters (Atmrp4, Atmrp5 and their double mutant Atmrp4/5) to study the function of eATP in H_2S-regulated stomatal movement. Our results indicated that H_2S affected stomatal closing through stimulating guard cell outward K^+ current. Moreover, we found that HES induced eATP generation by regulating the activity of an ABC transporter. The inhibitor of ABC transporters, glibenclamide (Gli), could impair H_2S-regulated stomatal closure and reduce H_2S-dependent eATP accumulation in Atmrp4 and Atmrp5 mutants. In addition, the promotion effect of H_2S on outward K^+ currents was diminished in Atmrp4/5 double mutant. Our data suggested that hydrogen peroxide (H_2O_2) is required for H_2S-induced stomatal closure, and the production of H_2O_2 is regulated by eATP via NADPH oxidase. Based on this work, we conclude that H_2S-induced stomatal closure requires ABC transporter-dependent eATP pro- duction and subsequent NADPH oxidase-dependent H_2O_2 accumulation.
