Palmin诱导烟草氧化猝发的机制

为探讨植物对病原微生物的防御机制和激发子启动植物体内的信号转导应答过程 ,本文研究了Phytoph thorapalmi激发子palmin诱导其非寄主亲和性烟草的叶片和悬浮细胞系产生氧化猝发的分子机理。利用生化分析和激光共聚焦显微扫描技术动态观察palmin诱导烟草过敏反应中O·- 2 和H2 O2 的形成、胞间转移及引起细胞死亡的特性。结果表明 :palmin诱导激活了烟草细胞内NADPH氧化酶 ,产生大量的O·- 2 ;O·- 2 在SOD催化下迅速转变成H2 O2 ,并且H2 O2 在一定范围的细胞间转移和积累 ,最后诱发烟草细胞的过敏性坏死反应。palmin诱导氧化猝发过程还有Ca2 和蛋白激酶的参与。     

H2O2参与棉疫病菌90 kD蛋白激发子诱导的烟草过敏反应和系统获得抗性

野生型烟草Bel-W3叶片经棉疫病菌90kD蛋白激发子处理后,处理叶及其上位叶在24h内均发生2次氧化迸发产生H2O2,且第二次H2O2进发高峰期同时出现,均出现在第12小时,处理部位细胞死亡高峰期比第二次H2O2迸发高峰期滞后8h。引起过敏反应剂量的激发子诱发反义抑制抗坏血酸过氧化物酶anti-APX烟草的过敏性坏死枯斑比野生型的大而且出现得早;不能诱发野生型烟草HR的剂量可以诱导anti-APX烟草发生HR。经激发子处理后anti-APX烟草对烟草疫霉(Phytophtora nicotianae)和TMV产生的诱导抗性比其野生型高。上述结果表明,H2O2可能是一种重要的信号分子,在棉疫病菌90kD蛋白激发子诱发烟草的HR和SAR中具有重要作用,但可能不是一种可以系统移动的信号分子。     

大丽轮枝菌分泌蛋白激发子的分离纯化及生物功能研究

利用硫酸铵沉淀、(A)KTA explorer 10蛋白纯化仪、非变性电泳、割胶电洗脱等方法,从大丽轮枝菌(Verticillium dahliae)发酵液中分离纯化出一种蛋白激发子,经SDS-PAGE电泳检测单一条带,相对分子量为20 kD.该蛋白激发子能够诱导烟草的过敏反应,处理6h后,处理部位出现水溃状,24h后出现坏死斑.该激发子可以诱导烟草细胞在较短时间内产生防卫反应信号分子H2O2和NO,并引起活性氧爆发.     

质膜NAD(P)H氧化酶参予金瓜炭疽(Colletotrichum lagerarium) 细胞壁激发子诱导人参细胞产生激发反应

在人参(Panax ginseng C.A.Meyer)悬浮细胞质膜上测出了NAD(P)H氧化酶活性.这类NAD(P)H氧化酶活性可以被金瓜炭疽细胞壁激发子(Cle)诱导.Cle处理还能诱导人参悬浮细胞的氧进发、促进人参悬浮细胞的皂苷合成、提高苯丙氨酸解氨酶(PAL)的活力、以及诱导查尔式酮酶(CHS)的累积和细胞壁上抗性相关蛋白基因脯氨酸富裕蛋白基因hrgp(Hydroxyprolin-rich glycoproteins)的表达.当用哺乳动物白细胞质膜NADPH氧化酶的特异性抑制剂二亚苯基碘(Diphenylene iodonium,DPI)与奎吖因(quinacrine)预处理人参悬浮细胞30min后,Cle诱导的H2O2释放与Cle激活的质膜NAD(P)H氧化酶活性被抑制,同时Cle诱导的PAL活性及CHS的积累下降,皂苷合成与hrgp的表达被抑制.由此推测:人参细胞质膜NAD(P)H氧化酶与哺乳动物白细胞质膜NADPH氧化酶有很大的相似性.在Cle激发人参悬浮细胞产生氧进发的过程中,NAD(P)H氧化酶活性被诱导从而导致H2O2的产生,H2O2作为第二信使,激活苯丙氨酸途径,诱发人参皂苷的合成及hrgp防御基因的表达.这一过程中还涉及到Ca2+内流,胞内Ca2+浓度的升高,蛋白磷酸化与去磷酸化.人参细胞质膜NAD(P)H氧化酶在人参细胞对Cle的反应过程中起一种介导作用.因此可能存在由Cle刺激,NAD(P)H氧化酶被诱导,H2O2释放,到人参细胞产生激发反应这样一个由外及内的级联反应.     

质膜NAD（P）H氧化酶参予金瓜炭疽（Colletotr8ichum lagerarium）细胞壁激发子诱导人参细胞产生激发反应

在人参（Panax ginsengC.A.Meyer)悬浮细胞质膜上测出了NAD（P）H氧化酶活性可以被金瓜炭疽细胞壁激发子（Cle)诱导,Cle处理还能诱导人参悬浮细胞的氧迸发,促进人参悬浮细胞的皂苷合成,提高苯丙氨酸解氨酶（PAL）的活力,以及诱导查尔式酮酶（CHS）的累积和细胞壁上抗性相关蛋白基因脯氨酸富裕蛋白基因hrgp(Hydroxyprolin-rich glycoproteins)的表达,当用哺乳动物白细胞质膜NADPH氧化酶的特异性抑制剂二精致苯基碘（Diphenylene iodonium,DPI)与奎吖因（quinacrine)预处理人参悬浮细胞30min后,Cle诱导的H2O2释放与Cle激活的质膜NAD（P）H氧化酶活性被抑制。同时Cle诱导的PAL活性及CHS的积累下降,皂苷合成与hrgp的表达被抑制。由此推测;人参细胞质膜NAD（P）H氧化酶与哺乳动物白细胞质膜NADPH氧化酶有很大的相似性,在Cle激发人参悬浮细胞产生氧迸发的过程中,NAD（P）H氧化酶活性被诱导从而导致H2O2的产生,H2O2作为第二信使,激活苯丙氨酸途径,诱发人参皂苷的合成及hrgp防御基因的表达,这一过程中还涉及到Ca^2 内流,胞内Ca^2 浓度的升高,蛋白磷酸化与去磷酸化。人参细胞质膜NAD（P）H氧化酶在人参细胞对Cle的反应过程中起一种介导作用。因此可能存在由Cle刺激,NAD（P）H氧化酶被诱导,H2O2释放,到人参细胞产生激发反应这样一个由外及内的级联反应。     

H2O2参与AM真菌与烟草共生过程

以烟草((Nicotiana tabacum,品种CF90NF)为寄主,苗期接种丛枝菌根(AM)真菌摩西球囊霉(Glomus mosseae,G.m),测定G.m与烟草共生过程中烟草根部H2O2含量以及多胺氧化酶(PAO)和过氧化物酶(POD)活性;研究外源H2O2对G.m侵染烟草的影响以及H2O2清除剂和合成抑制剂对烟草侧根H2O2含量及烟草侧根和菌丝中H2O2荧光强度的影响,以探究H2O2在AM真菌侵染烟草过程中的作用。结果表明,接种G.m 20d后烟草侧根中出现H2O2含量的猝发,一定浓度的外源H2O2促进G.m对烟草的侵染,而H2O2清除剂抗坏血酸(AsA)显著削弱烟草侧根和菌丝中的H2O2荧光强度,降低G.m对烟草的侵染率,表明H2O2参与G.m与烟草共生过程;在G.m与烟草共生过程中,PAO和POD活性显著升高,PAO抑制剂二氨基十二烷(DADD)和POD抑制剂水杨羟肟酸(SHAM)显著降低烟草侧根中H2O2荧光强度,对菌丝中H2O2荧光强度无显著影响,表明烟草根部和G.m均可产生H2O2,PAO和POD参与烟草侧根中H2O2的合成,菌丝中可能存在其他来源的H2O2。     

质膜NAD(P)H氧化酶参予金瓜炭疽(Colletotrichum lagerarium)细胞壁激发子诱导人参细胞产生激发反应(英文)

在人参(Panax ginseng C.A.Meyer)悬浮细胞质膜上测出了NAD(P)H氧化酶活性。这类NAD(P)H氧化酶活性可以被金瓜炭疽细胞壁激发子(Cle)诱导。Cle处理还能诱导人参悬浮细胞的氧进发、促进人参悬浮细胞的皂苷合成、提高苯丙氨酸解氨酶(PAL)的活力、以及诱导查尔式酮酶(CHS)的累积和细胞壁上抗性相关蛋白基因脯氨酸富裕蛋白基因hrgp(Hydroxyprolin-rich glycoproleins)的表达。当用哺乳动物白细胞质膜NADPH氧化酶的特异性抑制剂二亚苯基碘(Diphenylene iodonium,DPI)与奎吖因(quinacrine)预处理人参悬浮细胞30 min 后,Cle诱导的H2O2释放与Cle激活的质膜NAD(P)H氧化酶活性被抑制,同时Cle诱导的PAL活性及CHS的积累下降,皂苷合成与hrgp的表达被抑制。由此推测:人参细胞质膜NAD(P)H氧化酶与哺乳动物白细胞质膜NADPH氧化酶有很大的相似性。在Cle激发人参悬浮细胞产生氧进发的过程中,NAD(P)H氧化酶活性被诱导从而导致H2O2的产生,H2O2作为第二信使,激活苯丙氨酸途径,诱发人参皂苷的合成及hrgp防御基因的表达。这一过程中还涉及到Ca2+内流,胞内Ca2+浓度的升高,蛋白磷酸化与去磷酸化。人参细胞质膜NAD(P)H氧化酶在人参细胞对Cle的反应过程中起一种介导作用。因此可能存在由Cle刺激,NAD(P)H氧化酶被诱导,H2O2释放,到人     

质膜NADPH氧化酶的活化与H2O2的产生介导内源激发子诱导人参悬浮细胞中PAL活性的提高与人参皂甙的积累

利用纤维素酶降解人参(Panax ginseng C.A.Meyer)悬浮细胞的细胞壁制备了内源激发子(CDW).CDW体外诱导了游离人参细胞质膜NADPH氧化酶的活性,激发了活体人参悬浮细胞产生H2O2.CDW还可以诱导提高苯丙氨酸解氨酶(PAL)活性,促进人参鲨烯环氧酶基因(sqe)的转录与人参皂甙的积累.NADPH氧化酶的抑制剂不仅可以抑制CDW体外诱导的质膜NADPH活性而且还可以抑制CDW诱导人参细胞产生H2O2.进而,这些抑制剂还可以抑制CDW诱导PAL活性的提高,以及sqe的转录与人参皂甙的合成.过氧化氢酶与H2O2的粹灭剂也可以抑制CDW激发产生的这些诱导效应.上述结果表明CDW激发质膜NADPH氧化酶的活化与H2O2的产生在介导CDW诱导人参细胞抗性反应中,包括PAL活性的提高与人参皂甙的积累,起了重要的信号转导作用.     

病原激发子对番茄阴离子过氧化物酶表达与反应性氧迸发的诱导

采用Nortnern印迹法和鲁米诺化学发光法分析抗性的、近等位基因的敏感番茄细胞株阴离子过氧化物酶基因的转录和细胞反应性氧变化,发现病原真菌的激发子和外源H2O2均能促进抗性番茄细胞中阴离子过氧化物酶转录。激发子还能刺激抗性细胞中反应性氧水平暂时急剧升高。敏感番茄细胞对激发子或H2O2没有响应。Ca2 和磷脂酶C的抑制剂硫酸新霉素分别促进和抑制激发子诱导下抗性细胞反应性氧增加。     

UV-B对拟南芥叶片不同来源H2O2的活化和气孔关闭的诱导

在UV-B调控植物许多生理过程中过氧化氢(H2O2)作为第二信使发挥着重要作用,但H2O2来源途径并不清楚。该研究借助气孔开度分析和激光扫描共聚焦显微镜技术,探讨H2O2在介导不同剂量UV-B诱导拟南芥叶片气孔关闭过程中的酶学来源途径。结果发现:0.5W.m-2 UV-B能诱导野生型拟南芥叶片保卫细胞的H2O2产生和气孔关闭,且该效应能被NADPH氧化酶抑制剂二苯基碘(DPI)抑制,而不能被细胞壁过氧化物酶抑制剂水杨基氧肟酸(SHAM)抑制,同时该剂量UV-B也不能诱导NADPH氧化酶功能缺失单突变体AtrbohD和AtrbohF以及双突变体AtrbohD/F保卫细胞的H2O2产生和气孔关闭;相反,0.65 W.m-2 UV-B既能诱导野生型也能诱导NADPH氧化酶突变体保卫细胞的H2O2产生和气孔关闭,且该效应能被SHAM抑制,却不能被DPI抑制。结果表明,不同剂量UV-B通过活化不同生成途径的H2O2来诱导拟南芥叶片气孔关闭,即低剂量UV-B主要诱导NADPH氧化酶AtrbohD和AtrbohF途径来源的H2O2生成,而高剂量UV-B主要活化细胞壁过氧化酶途径来源的H2O2。     

Hydrogen Peroxide from the Oxidative Burst Is Neither Necessary Nor Sufficient for Hypersensitive Cell Death Induction, Phenylalanine Ammonia Lyase Stimulation, Salicylic Acid Accumulation, or Scopoletin Consumption in Cultured Tobacco Cells Treated with Elicitin

H(2)O(2) from the oxidative burst, cell death, and defense responses such as the production of phenylalanine ammonia lyase (PAL), salicylic acid (SA), and scopoletin were analyzed in cultured tobacco (Nicotiana tabacum) cells treated with three proteinaceous elicitors: two elicitins (alpha-megaspermin and beta-megaspermin) and one glycoprotein. These three proteins have been isolated from Phytophthora megasperma H20 and have been previously shown to be equally efficient in inducing a hypersensitive response (HR) upon infiltration into tobacco leaves. However, in cultured tobacco cells these elicitors exhibited strikingly different biological activities. beta-Megaspermin was the only elicitor that caused cell death and induced a strong, biphasic H(2)O(2) burst. Both elicitins stimulated PAL activity similarly and strongly, while the glycoprotein caused only a slight increase. Only elicitins induced SA accumulation and scopoletin consumption, and beta-megaspermin was more efficient. To assess the role of H(2)O(2) in HR cell death and defense response expression in elicitin-treated cells, a gain and loss of function strategy was used. Our results indicated that H(2)O(2) was neither necessary nor sufficient for HR cell death, PAL activation, or SA accumulation, and that extracellular H(2)O(2) was not a direct cause of intracellular scopoletin consumption.     

Early H(2)O(2) accumulation in mesophyll cells leads to induction of glutathione during the hyper-sensitive response in the barley-powdery mildew interaction

H(2)O(2) production and changes in glutathione, catalase, and peroxidase were followed in whole-leaf extracts from the susceptible (AlgS [Algerian/4* (F14) Man.(S)]; ml-a1 allele) and resistant (AlgR [Algerian/4* (F14) Man.(R)]; Ml-a1 allele) barley (Hordeum vulgare) isolines between 12 and 24 h after inoculation with powdery mildew (Blumeria graminis [DC]. Speer [syn. Erysiphe graminis DC] f.sp hordei Marchal). Localized papilla responses and cell death hypersensitive responses were not observed within the same cell. In hypersensitive response sites, H(2)O(2) accumulation first occurred in the mesophyll underlying the attacked epidermal cell. Subsequently, H(2)O(2) disappeared from the mesophyll and accumulated around attacked epidermal cells. In AlgR, transient glutathione oxidation coincided with H(2)O(2) accumulation in the mesophyll. Subsequently, total foliar glutathione and catalase activities transiently increased in AlgR. These changes, absent from AlgS, preceded inoculation-dependent increases in peroxidase activity that were observed in both AlgR and AlgS at 18 h. An early intercellular signal precedes H(2)O(2), and this elicits anti-oxidant responses in leaves prior to events leading to death of attacked cells.     

Salicylic acid glucoside acts as a slow inducer of oxidative burst in tobacco suspension culture

Salicylic acid beta-glucoside (SAG) is a storage form of a defense signal against pathogens, releasing free salicylic acid (SA), to meet the requirements in plants. Since excess SA induces locally restricted cell death following oxidative burst and Ca2+ influx in plants, the effects of SAG on cell viability, Ca2+ influx, and generation of superoxide (O2*-) were examined in suspension-cultured tobacco BY-2 cells expressing aequorin. Among SA-related chemicals tested, only SAG induced the slow and long-lasting O2*- generation, although SAG was less active in acute O2*- generation, Ca2+ influx and induction of cell death. The prolonging action of SAG is likely due to gradual release of SA and the data suggested that a peroxidase-dependent reaction is involved. Notably, pretreatment with low-dose SA (50 micromu) enhanced the response to SAG by 2.5-fold. There are four possible secondary messengers in early SA signaling detectable in the BY-2 culture, namely O2*-, H2O2, Ca2+ and protein kinase (PK). If these messengers are involved in the low-dose SA-dependent priming for SAG response, they should be inducible by low-dose SA. Among the four SA-inducible signaling events, PK activation was excluded from the low-dose SA action since a much higher SA dose (> 0.4 mmu) was required for PK activation.     

Elicitation of the Hypersensitive Responses in Tabacco by a10.6 kD Proteinaceous Elicitor from Phytophthora palmi

A 10.6 kD heat resistant, proteinacious elicitor was purified from the culture filtrate of Phytophthora palmivora Butler but not from P. melonis Katsura. The 10.6 kD elicitor is a holoprotein devoid of glycoside. It can cause hypersensitive necrosis of the detached tobacco ( Nicotiatna tabacum L. ) leaves 48 h post-inoculation with dosages of above 40 μg. Four cell types were investigated by using Confocal microscopy, and 2' ,7'-dichlorodihydrofluorescein diacetate (DCFDA) as a probe of H2O2 production. It was showed that oxidative burst occurred in cultured suspension cells as well as in mesophyll cells, epidermal cells and guard cells within 10 min upon the elicitor treatment. The hypersensitive cell death appeared 6 h after the treatment when inoculated with fluorescein diacetate (FDA) as indicator of cell viability. These results suggest that H2O2 accumulation was the main cause of the hypersensitive cell death in tobacco induced by the 10.6 kD elicitor. This 10.6 kD elicitor may belong to the family of elicitins.     

Phytophthora palmi分泌的10.6kD蛋白激发烟草的过敏反应

从疫霉菌Ｐｈｙｔｏｐｈｔｈｏｒａ ｐａｌｍｉｖｏｒａ Ｂｕｔｌｅｒ的培养滤液中分离出分子量为１０．６ｋＤ的不含糖基的耐热蛋白．这种１０．６ｋ蛋白能诱导烟草（Ｎｉｃｏｔｉａｎａ ｔａｂａｃｕｍ Ｌ．）叶片发生过敏性坏死反应。而疫霉菌另一种Ｐ．ｍｅｌｏｎｉｓ Ｋａｔｓｕｒａ的培养滤液中不含这种类似蛋白,不能诱导烟草叶片发生过敏反应。利用共聚焦激光扫描显微镜,以荧光探剂ＦＤＡ（ｆｌｕｏｒｅｓｃｅｉｎ ｄ     

Reactive oxygen species, nitric oxide, and their interactions play different roles in Cupressus lusitanica cell death and phytoalexin biosynthesis

Beta-thujaplicin Is a natural troponoid with strong antifungal, antiviral, and anticancer activities. Beta-thujaplicin production in yeast elicitor-treated Cupressus lusitanica cell culture and its relationships with reactive oxygen species (ROS) and nitric oxide (NO) production and hypersensitive cell death were investigated. Superoxide anion radical (O2*-) induced cell death and inhibited beta-thujaplicin accumulation, whereas hydrogen peroxide (H2O2) induced beta-thujaplicin accumulation but did not significantly affect cell death. Both elicitor and O2*- induced programmed cell death, which can be blocked by protease inhibitors, protein kinase inhibitors, and Ca2+ chelators. Elicitor-induced NO generation was nitric oxide synthase (NOS)-dependent. Inhibition of NO generation by NOS inhibitors and NO scavenger partly blocked the elicitor-induced beta-thujaplicin accumulation and cell death, and NO donors strongly induced cell death. Interaction among NO, H2O2, and O2*- shows that NO production and H2O2 production are interdependent, but NO and O2*- accumulation were negatively related because of coconsumption of NO and O2*-. NO- and O2*- -induced cell death required each other, and both were required for elicitor-induced cell death. A direct interaction between NO and O2*- was implicated in the production of a potent oxidant peroxynitrite, which might mediate the elicitor-induced cell death.     

Independent pathways leading to apoptotic cell death, oxidative burst and defense gene expression in response to elicitin in tobacco cell suspension culture.

We characterized pharmacologically the hypersensitive cell death of tobacco BY-2 cells that followed treatments with Escherichia coli preparations of INF1, the major secreted elicitin of the late blight pathogen Phytophthora infestans. INF1 elicitin treatments resulted in fragmentation and 180 bp laddering of tobacco DNA as early as 3 h post-treatment. INF1 elicitin also induced rapid accumulation of H2O2 typical of oxidative burst, and the expression of defense genes such as phenylalanine ammonia-lyase (PAL) gene at 1 h and 3 h after elicitin treatment, respectively. To investigate the involvement of the oxidative burst and/or the expression of defense genes in the signal transduction pathways leading to hypersensitive cell death, we analyzed the effect of several chemical inhibitors of signal transduction pathways on the various responses. The results indicated that (a) the cell death required serine proteases, Ca2+ and protein kinases, (b) the oxidative burst was involved in Ca2+ and protein kinase mediated pathways, but elicitin-induced AOS was neither necessary nor sufficient for cell death and PAL gene expression, and (c) the signaling pathway of PAL gene expression required protein kinases. These results suggest that the three signal transduction pathways leading to cell death, oxidative burst and expression of defense genes branch in the early stages that follow elicitin recognition by tobacco cells.