豚鼠精子质膜Ca2+ -ATPase活性与精子顶体反应关系的研究

用生化测定法首次证实豚鼠精子质膜Ca²⁺-ATPase活性在精子获能和顶体反应过程中显著下降.Ca²⁺-ATPase抑制剂利尿酸(ethacrynic acid)抑制质膜Ca²⁺-ATPase活性,但钙调素(50μg/mL)的拮抗剂三氟拉嗪(TFP,200～500μmol/L)对该酶活性没有影响,说明钙调素不直接参与精子依赖于ATP的Ca²⁺的主动泵出.但钙调素与精子的Ca²⁺内流有关,钙调素拮抗剂TFP显著促进精子顶体反应和精子对Ca²⁺的摄入.Ca²⁺-ATPase抑制剂栎皮酮(quercetin)、原钒酸钠(sodiumorthovandate)、利尿磺胺(furosemide)和利尿酸均显著促进豚鼠精子的顶体反应,但却抑制精子对Ca²⁺的摄入,这无法用它们对质膜Ca²⁺-ATPase活性的抑制作用解释.推测这可能是由于Ca²⁺-ATPase抑制剂在抑制质膜Ca²⁺-ATPase活性的同时也抑制了顶体外膜或线粒体外膜上的该酶的活性,导致Ca²⁺在细胞质内的积累,进而通过负反馈机制抑制Ca²⁺进一步内流所致.另外,Ca²⁺-ATPase抑制剂对糖酵解的抑制作用也可能是Ca²⁺在细胞质中积累和抑制精子Ca²⁺摄入的原因.     

硒对NO诱导的内皮细胞内游离钙离子浓度变化的影响

用Fura-2显微荧光测钙技术,研究了用外源性一氧化氮（NO）供体S-亚硝基谷胱甘肽（GSNO）诱导的,人脐静脉内皮细胞系ECV-304细胞胞内游离钙离子浓度（［Ca²⁺］_i ）升高以及硒的抑制效应.结果表明,GSNO作用于ECV-304细胞,短时间内即可导致其胞内游离钙离子浓度升高.胞外液换为无钙液或向胞外液中加入CdCl₂（1 mmol/L）对GSNO引起的［Ca²⁺］_i升高无影响.提示,GSNO刺激主要引起胞内钙库释放.而且,一氧化氮清除剂血红蛋白（Hb）对这一过程有抑制作用,说明GSNO引起的胞内钙库释放由NO介导.经亚硒酸钠（1 μmol/L）处理的细胞,其NO引起的［Ca²⁺］_i升高幅度明显被抑制,说明NO的这种作用可能与细胞的氧化还原状态有关.     

双光子及共聚焦激光扫描显微术研究天花粉蛋白对人绒癌细胞的作用机制

天花粉蛋白(trichosanthin, TCS)是从中草药栝楼根中提取的一种核糖体失活蛋白,具有抗肿瘤和抗HIV功能.应用双光子及共聚焦激光扫描显微术结合特异性荧光探针Hoechst 33342、2′,7′-二氯荧光黄双乙酸酯 (DCFH-DA)、Indo-1和Fluo 3-AM,首次同时观察了TCS诱导人绒癌细胞（JAR细胞）凋亡过程中活性氧自由基（ROS）和细胞内钙离子浓度（［Ca²⁺］_i）的变化,实验结果表明TCS引起的［Ca²⁺］_i升高和ROS形成参与了TCS诱导的JAR细胞凋亡,并且ROS形成和［Ca²⁺］_i升高有关.共聚焦激光扫描显微术的研究结果表明,［Ca²⁺］_i升高不是导致ROS形成的主要原因,TCS诱导产生的ROS可能是通过TCS与JAR细胞膜表面受体作用介导的.     

胞外ATP对AlCl3诱导的细胞死亡过程中胞内H2O2和Ca2+水平的影响及其生理机制分析

该实验以烟草悬浮细胞 BY 2 为材料,在烟草悬浮细胞中分别加入0.05、0.10、0.15、0.20 mmol·L^-1AlCl₃,以等体积去离子水处理的悬浮细胞液为对照,并依据前述实验结果选择0.15 mmol·L^-1 AlCl₃,分别添加5 mmol·L^-1 DMTU(H₂O₂ 抑制剂)、20 μmol·L^-1CaCl₂、15 μmol·L^-1 LaCl₃(Ca²⁺通道抑制剂)和50 μmol·L^-1 ATP设计多项处理,分析胞外ATP(eATP)对铝离子(Al³⁺)胁迫引起的植物细胞死亡及其胞内H₂O₂、Ca²⁺的影响,以揭示Al³⁺胁迫下植物调节细胞死亡的可能机制,进一步扩展对eATP功能的认知。结果显示：(1)随着 AlCl₃ 胁迫浓度的提高,细胞死亡水平和胞内H₂O₂水平上升,而胞内Ca²⁺和eATP水平则逐渐降低。(2)外援施加H₂O₂抑制剂 DMTU(二甲基硫脲)和Ca²⁺能够有效缓解AlCl₃诱导的细胞死亡水平的上升;而Ca²⁺通道抑制剂LaCl₃(三氯化镧)则加剧了AlCl₃胁迫下的细胞死亡。(3)在AlCl₃胁迫下对细胞添加外源ATP,能够缓解AlCl₃胁迫下胞内H₂O₂水平上升和Ca²⁺水平下降的同时,并显著降低AlCl₃胁迫导致的细胞死亡。研究表明, Al³⁺以剂量依赖的模式提升细胞死亡和细胞内H₂O₂的水平并降低胞内Ca²⁺和eATP水平,AlCl₃诱导的细胞死亡受到H₂O₂和Ca²⁺水平变化的调节,eATP可以通过调节H₂O₂与Ca²⁺水平缓解AlCl₃诱导的细胞死亡。推测Al³⁺胁迫可能通过抑制钙离子通道而破坏了细胞内H₂O₂和Ca²⁺之间的协同关系,外源ATP对Al³⁺诱导H₂O₂上升的缓解作用可能是由于其提升了细胞的抗氧化能力。     

Ca2+信号途径参与稻瘟病菌分生孢子萌发及附着胞形成的调控

为了确定Ca²⁺信号途径是否参与、在哪一时期参与稻瘟病菌分生孢子萌发及附着胞形成过程的调控,用四种可从不同位点阻断Ca²⁺信号途径的抑制剂分别处理分生孢子,观察抑制剂对孢子萌发及附着胞形成过程的抑制作用。结果表明:Ca²⁺螯合剂EGTA、Ca²⁺通道抑制剂Verapamil、抑制磷脂酶C活性的抑制剂U-73122、影响钙调素与钙调素依赖蛋白激酶作用位点的抑制剂KN-93,随着浓度的增加,对孢子萌发和附着胞形成过程的抑制作用明显增强;同一浓度下,抑制剂对附着胞形成过程的抑制作用大于孢子萌发过程;抑制剂影响孢子萌发和附着胞形成过程在萌发早期(1~4h)最有效;在完全被抑制、不能萌发的孢子内出现了许多颗粒状囊泡;抑制剂可使附着胞形态明显变小甚至不能形成。以上结果表明钙信号途径参与了稻瘟病菌孢子萌发及疏水条件下附着胞形成过程的调控。     

双歧杆菌对菌群失调大鼠血清NO及NOS的影响

目的观察双歧杆菌对抗生素诱导的菌群失调大鼠血清一氧化氮(Nitricoxlcle,NO)及一氧化氮合成酶(Nitric oxide synthase,NOS)的影响。方法肠道盐酸林可霉素脱污染制备肠道菌群失调大鼠。造模成功后用双歧杆菌活菌灌胃治疗,14 d后血清学检测细胞因子NO、NOS水平。结果与模型组相比,NO含量明显增多(P<0.05);NOS含量降低(P<0.05)。结论双歧杆菌活菌可能通过调节细胞因子NO、NOS含量而调整菌群失调大鼠肠道内有益菌的比例。     

钙信号途径参与小斑病菌致病过程的调控*

为确定Ca²⁺信号途径与玉米小斑病菌致病过程的相关性,用可从不同位点阻断Ca²⁺信号转导途径的抑制剂分别处理小斑病菌的分生孢子,结果表明:Ca²⁺螯合剂EGTA、Ca²⁺通道抑制剂Verapam il、影响钙调素与钙调素依赖蛋白激酶作用位点的抑制剂KN-93,随着浓度的增加,对孢子萌发和附着胞形成过程的抑制作用明显增强;同一浓度下,抑制剂对附着胞形成过程的抑制作用大于孢子萌发过程;抑制剂可使附着胞形态明显变小甚至不能形     

脉冲电场对粒细胞内Ca2+浓度影响的动态变化

利用激光共聚焦扫描显微镜和装有CCD系统的荧光显微镜 ,研究在单脉冲电场作用下经fluo 3/AM标记的鸡胚小脑粒细胞内自由Ca²⁺浓度 ( [Ca ²⁺]_i)的动态变化过程 .结果表明 :在单个电脉冲作用下 ,细胞内Ca²⁺浓度立刻升高并达到其最大值 .Ca²⁺浓度升高的幅度以及升高的速率具有电场强度的依赖性 .当细胞外Ca²⁺被过量的EGTA络合或细胞膜上的Ca²⁺通道被La ³⁺堵塞后 ,细胞内的Ca²⁺浓度仍然升高 .细胞内不同区域的Ca²⁺浓度同时升高 ;两极内的Ca²⁺浓度早于胞体的Ca²⁺浓度达到最大值并迅速恢复 .     

钙离子通道A23187对血小板聚集和蛋白质磷酸化的影响

以 ³²P-Na₂HPO₄标记猪血小板,在阿斯匹林阻断花生四烯酸代谢,Apyrase去除分泌的ADP情况下,以A23187和PMA为血小板激动剂,staurosporine为PKC抑制剂,研究Ca²⁺和蛋白激酶C在血小板聚集中的作用.结果表明,a.A23187在1～20 μmol/L引起血小板聚集,相应地,明显地引起40 ku、20 ku蛋白质磷酸化,且存在剂量和时间效应关系.b.A23187和PMA在血小板聚集和蛋白质磷酸化上都存在着协同效应.c.1 μmol/L staurosporine可大部分抑制20 μmol/L A23187诱导的血小板聚集和20 ku、40 ku蛋白质磷酸化.结果提示,Ca²⁺激活血小板是建立在激活PKC的基础上,Ca²⁺通过激活PKC诱导血小板聚集,这是Ca²⁺激活血小板的主要途径.     

骨骼肌内质网Ca2+泵转运Ca2+的结构基础

Ca²⁺泵(Ca²⁺-ATPase)是调节细胞内Ca²⁺浓度的重要蛋白质之一. Ca²⁺泵在转运Ca²⁺的过程中经历一系列构象变化. 其中,E1状态为外向的Ca²⁺高亲和状态,E2状态则为内向的Ca²⁺低亲和状态. 目前,骨骼肌内质网Ca²⁺泵转运Ca²⁺过程中的几个中间状态,包括E1-2Ca²⁺,E1-ATP,E1-P-ADP,E2-Pi和E2状态的三维晶体结构已经解析. 介绍这几种状态的晶体结构,并分析Ca²⁺泵在执行功能过程中结构与功能的关系.     

Nitric oxide production and its functional link with OIPK in tobacco defense response elicited by chitooligosaccharide

Chitooligosaccharide (COS) or oligochitosan has been shown to induce tobacco defense responses which are connected with nitric oxide (NO) and OIPK (oligochitosan-induced Ser/Thr protein kinase). The aim of this study was to reveal the relationship between NO production and OIPK pathway in the defense response of tobacco elicited by COS. NO generation was investigated by epidermal strip bioassay and fluorophore microscope using fluorophore diaminofluorescein diacetate (DAF-2DA). Tobacco epidermal cells treated with COS resulted in production of NO, which was first present in chloroplast, then in nucleus, finally in the whole cell; this NO production was sensitive to NO scavenger cPTIO and the mammalian NO synthase (NOS) inhibitor l-NAME, suggesting that NOS-like enzyme maybe involved in NO generation in tobacco epidermal cells. However, NOS and nitrate reductase (NR, EC 1.6.6.1) inhibitors reduced NO content in tobacco leaves by using NO Assay Kit, suggesting both NOS and NR were involved in NO production in tobacco leaves. Using a pharmacological approach and western blotting, we provide evidence that NO acts upstream of OIPK expression. NO scavenger, NOS inhibitor partly blocked the activation of OIPK and the activities of several defense-related enzymes induced by COS; treatment with NO donor sodium nitroprusside (SNP) induced the activation of OIPK and enhanced the defense systems. The results suggest that COS is able to induce NO generation, which results in up-regulation the activities of some defense-related enzymes through an OIPK-dependent or independent pathway.     

Changes in the antioxidant systems as part of the signaling pathway responsible for the programmed cell death activated by nitric oxide and reactive oxygen species in tobacco Bright-Yellow 2 cells

Nitric oxide (NO) has been postulated to be required, together with reactive oxygen species (ROS), for the activation of the hypersensitive reaction, a defense response induced in the noncompatible plant-pathogen interaction. However, its involvement in activating programmed cell death (PCD) in plant cells has been questioned. In this paper, the involvement of the cellular antioxidant metabolism in the signal transduction triggered by these bioactive molecules has been investigated. NO and ROS levels were singularly or simultaneously increased in tobacco (Nicotiana tabacum cv Bright-Yellow 2) cells by the addition to the culture medium of NO and/or ROS generators. The individual increase in NO or ROS had different effects on the studied parameters than the simultaneous increase in the two reactive species. NO generation did not cause an increase in phenylalanine ammonia-lyase (PAL) activity or induction of cellular death. It only induced minor changes in ascorbate (ASC) and glutathione (GSH) metabolisms. An increase in ROS induced oxidative stress in the cells, causing an oxidation of the ASC and GSH redox pairs; however, it had no effect on PAL activity and did not induce cell death when it was generated at low concentrations. In contrast, the simultaneous increase of NO and ROS activated a process of death with the typical cytological and biochemical features of hypersensitive PCD and a remarkable rise in PAL activity. Under the simultaneous generation of NO and ROS, the cellular antioxidant capabilities were also suppressed. The involvement of ASC and GSH as part of the transduction pathway leading to PCD is discussed.     

壳寡糖、一氧化氮和植物激素在烟草气孔运动中的作用及其相互关系

本文研究了壳寡糖（COS）、一氧化氮（NO）和植物激素对烟草气孔运动的作用及其相互关系,结果表明,COS、NO、脱落酸（ABA）能诱导烟草气孔开度减小;ABA合成抑制剂钨酸钠（Na2WO4）和NO合成酶抑制剂L-NAME具有清除COS、ABA或NO诱导烟草气孔开度减小的作用。说明COS通过诱导ABA和NO产生,进而诱导烟草气孔开度减小,而且ABA和NO之间有相互作用。另外,细胞分裂素和生长素能够诱导烟草气孔开度增大,也能够逆转COS诱导的气孔开度减小。     

Inhibition of proinflammatory cytokine-induced invasiveness of HT-29 cells by chitosan oligosaccharide

The effect of chitosan oligosaccharide (COS, 1 kDa 相似文献   

Phosphatidic acid production in chitosan-elicited tomato cells, via both phospholipase D and phospholipase C/diacylglycerol kinase, requires nitric oxide

Nitric oxide (NO) and the lipid second messenger phosphatidic acid (PA) are involved in plant defense responses during plant-pathogen interactions. NO has been shown to be involved in the induction of PA production in response to the pathogen associated molecular pattern (PAMP) xylanase in tomato cells. It was shown that NO is critical for PA production induced via phospholipase C (PLC) in concerted action with diacylglycerol kinase (DGK) but not for the xylanase-induced PA via phospholipase D (PLD). In order to study whether this is a general phenomenon during PAMP perception or if it is particular for xylanase, we studied the effect of the PAMP chitosan in tomato cell suspensions. We observed a rapid NO production in tomato cells treated with chitosan. Chitosan induced the formation of PA by activating both PLD and PLC/DGK. The activation of either phospholipase-mediated signaling pathway was inhibited in cells treated with the NO scavenger cPTIO. This indicates that NO is required for PA generation via both the PLD and PLC/DGK pathway during plant defense response in chitosan elicited cells. Responses downstream PA were studied. PLC inhibitors neomycin and U73122 inhibited chitosan-induced ROS production. Differences between xylanase and chitosan-induced phospholipid signaling pathways are discussed.     

Nitrate efflux is an essential component of the cryptogein signaling pathway leading to defense responses and hypersensitive cell death in tobacco

There is much interest in the transduction pathways by which avirulent pathogens or derived elicitors activate plant defense responses. However, little is known about anion channel functions in this process. The aim of this study was to reveal the contribution of anion channels in the defense response triggered in tobacco by the elicitor cryptogein. Cryptogein induced a fast nitrate (NO(3)(-)) efflux that was sensitive to anion channel blockers and regulated by phosphorylation events and Ca(2+) influx. Using a pharmacological approach, we provide evidence that NO(3)(-) efflux acts upstream of the cryptogein-induced oxidative burst and a 40-kD protein kinase whose activation seems to be controlled by the duration and intensity of anion efflux. Moreover, NO(3)(-) efflux inhibitors reduced and delayed the hypersensitive cell death triggered by cryptogein in tobacco plants. This was accompanied by a delay or a complete suppression of the induction of several defense-related genes, including hsr203J, a gene whose expression is correlated strongly with programmed cell death in plants. Our results indicate that anion channels are involved intimately in mediating defense responses and hypersensitive cell death.     

Chitosan oligosaccharides suppress production of nitric oxide in lipopolysaccharide-induced N9 murine microglial cells in vitro

Chitosan oligosaccharides (COS) have been reported to exert many biological activities, such as antioxidant, antitumor and anti-inflammatory effects. In the present study, we examined the effect of COS on nitric oxide (NO) production in LPS induced N9 microglial cells. Pretreatment with COS (50?~?200?μg/ml) could markedly inhibit NO production by suppressing inducible nitric oxide synthase (iNOS) expression in activated microglial cells. Signal transduction studies showed that COS remarkably inhibited LPS-induced phosphorylation of p38 MAPK and ERK1/2. COS pretreatment could also inhibit the activation of both nuclear factor-κB (NF-κB) and activator protein-1 (AP-1). In conclusion, our results suggest that COS could suppress the production of NO in LPS-induced N9 microglial cells, mediated by p38 MAPK and ERK1/2 pathways.     

Nitric oxide induced by hydrogen peroxide mediates abscisic acid-induced activation of the mitogen-activated protein kinase cascade involved in antioxidant defense in maize leaves

* The role of nitric oxide (NO) and the relationship between NO, hydrogen peroxide (H(2)O(2)) and mitogen-activated protein kinase (MAPK) in abscisic acid (ABA)-induced antioxidant defense in leaves of maize (Zea mays) plants were investigated. * Both ABA and H(2)O(2) induced increases in the generation of NO in mesophyll cells of maize leaves, and H(2)O(2) was required for the ABA-induced generation of NO. Pretreatment with NO scavenger and nitric oxide synthase (NOS) inhibitor substantially reduced the ABA-induced production of NO, and partly blocked the activation of a 46 kDa MAPK and the expression and the activities of several antioxidant enzymes induced by ABA. Treatment with the NO donor sodium nitroprusside (SNP) also induced the activation of the MAPK, and enhanced the antioxidant defense systems. * Conversely, SNP treatment did not induce the production of H(2)O(2), and pretreatments with NO scavenger and NOS inhibitor did not affect ABA-induced H(2)O(2) production. * Our results suggest that ABA-induced H(2)O(2) production mediates NO generation, which, in turn, activates MAPK and results in the upregulation in the expression and the activities of antioxidant enzymes in ABA signaling.     

Ca2+- and phosphatidylinositol 3-kinase-dependent nitric oxide generation in lung endothelial cells in situ with ischemia

Endothelial cells generate nitric oxide (NO) in response to agonist stimulation or increased shear stress. In this study, we evaluated the effects of abrupt cessation of shear stress on pulmonary endothelial NO generation and its relationship to changes in intracellular Ca(2+). In situ endothelial generation of NO and changes in intracellular Ca(2+) in isolated, intact rat lungs were evaluated using fluorescence microscopy with diaminofluorescein diacetate, an NO probe, and Fluo-3, a Ca(2+) probe. The onset of increased NO generation in endothelial cells of subpleural microvessels in situ occurred between 30 and 90 s after onset of ischemia and was preceded by an increase in intracellular Ca(2+) due to both influx of extracellular Ca(2+) and release from intracellular stores. Flow cessation-induced NO generation in endothelial cells in situ was Ca(2+)-, calmodulin-, and PI3-kinase-dependent. The similarity of endothelial cell response (increased NO generation) to either increased flow or cessation of flow suggests that cells respond to an imposed alteration from a state of adaptation. This response to flow cessation may constitute a compensatory vasodilatatory mechanism and may play a role in signaling for cell proliferation and vascular remodeling.     

Rapid increase of NO release in plant cell cultures induced by cytokinin.

4,5-Diaminofluorescein, a fluorescence indicator for NO, was applied to detect the release of NO from plant cells. NO production was increased within 3 min when plant cell cultures (Arabidopsis, parsley, and tobacco) were treated by cytokinin and was dose-dependent and signal-specific in that other plant hormones and inactive cytokinin analog were not effective in stimulating of NO release. The response was quenched by addition of 2-(aminoethyl)-2-thiopseudourea, an inhibitor of the animal NO synthase, and by addition of an NO scavenger, 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-1-oxy-3-oxide. These results imply that NO may act in cytokinin signal transduction.