Thylakoid Membrane Protein Kinase Activity as a Signal Transduction Pathway in Chloroplasts

Photosynthetica - In plants external stimuli are perceived through a cascade of signals and signal transduction pathways. Protein phosphorylation and de-phosphorylation is one of the most important...     

植物丝裂原活化蛋白激酶级联信号转导通路研究进展

丝裂原活化蛋白激酶(MAPK)是酵母、动物和植物等真核生物中普遍存在和高度保守的一类信号转导通路,由MAPKKK、MAPKK和MAPK等3部分组成,在应对生物非生物胁迫、激素、细胞分裂调控及植物生长发育等过程中发挥重要作用。该文对近年来国内外有关MAPK级联通路的组成、在植株体内的生物学功能以及MAPK通路的失活进行了概述,旨在为今后MAPK通路介导的信号转导机制的研究提供参考依据。     

Involvement of Protein Kinase D1 in Signal Transduction from the Protein Kinase C Pathway to the Tyrosine Kinase Pathway in Response to Gonadotropin-releasing Hormone

The receptor for gonadotropin-releasing hormone (GnRH) belongs to the G protein-coupled receptors (GPCRs), and its stimulation activates extracellular signal-regulated protein kinase (ERK). We found that the transactivation of ErbB4 was involved in GnRH-induced ERK activation in immortalized GnRH neurons (GT1–7 cells). We found also that GnRH induced the cleavage of ErbB4. In the present study, we examined signal transduction for the activation of ERK and the cleavage of ErbB4 after GnRH treatment. Both ERK activation and ErbB4 cleavage were completely inhibited by YM-254890, an inhibitor of G_q/11 proteins. Down-regulation of protein kinase C (PKC) markedly decreased both ERK activation and ErbB4 cleavage. Experiments with two types of PKC inhibitors, Gö 6976 and bisindolylmaleimide I, indicated that novel PKC isoforms but not conventional PKC isoforms were involved in ERK activation and ErbB4 cleavage. Our experiments indicated that the novel PKC isoforms activated protein kinase D (PKD) after GnRH treatment. Knockdown and inhibitor experiments suggested that PKD1 stimulated the phosphorylation of Pyk2 by constitutively activated Src and Fyn for ERK activation. Taken together, it is highly possible that PKD1 plays a critical role in signal transduction from the PKC pathway to the tyrosine kinase pathway. Activation of the tyrosine kinase pathway may be involved in the progression of cancer.     

Ras的结构和功能及其参与的信号传导

从ras基因发现以来,因为它和癌症的相关性,引起了人们对其基因和蛋白研究的普遍关注.通过这些研究不仅知道了ras基因的癌变作用机制,而且对Ras蛋白与磷酸化途径的关系有了一个比较清晰的了解.同时关于Ras蛋白所参与的信号传导途径的研究使得对细胞内的整个信息通路的开关和调节有了更进一步的认识.Ras蛋白参与的信号传导途径还和其他的通路有相关性,如G蛋白的β、γ亚基二聚体可以激活Ras途径.因此对Ras途径的研究不仅可以了解Ras自身的调节途径,而且对细胞内整体的信息传导的研究是十分必要的.     

Raf-1蛋白激酶在细胞信号转导研究中的新进展

重点讨论Raf-1蛋白激酶的特征、激活方式及其与其他蛋白质相互作用等方面的研究进展.Raf-1蛋白激酶是酪氨酸激酶相关信号转导途径中的重要信号分子之一,可直接下传与Ras蛋白相关的细胞增殖信号.近年来发现,Raf-1蛋白激酶还可与其他信号分子作用或相互调节,参与多种细胞生物学过程的信号转导与调控.     

拟南芥钙依赖蛋白激酶参与植物激素信号转导

在植物信号通路中,涉及到钙应答的蛋白激酶大多是钙依赖蛋白激酶。钙依赖蛋白激酶作为钙信号转导因子,参与了包括激素信号转导途径在内的很多传递过程。本工作在前人研究的基础上,对拟南芥AtCPK30基因的功能进行了深入的研究。RT-PCR分析结果表明:AtCPK30在植物根中的表达量很高,其在幼苗中的转录水平分别受ABA、IAA、2,4-D、GA_3和6-BA等激素的诱导调节。AtCPK30基因过表达的转基因株系幼苗的主根比野生型的长,同时发现转基因植株幼苗的根在缺钙的MS培养基上生长较野生型植株长,表明缺钙对转基因幼苗影响较小。用ABA、IAA、GA_3和BA处理时,转基因植株幼苗的根对激素更敏感。当野生型和转基因植株生长在含有生长素抑制剂NPA的MS培养基上时,NPA对转基因植株侧根的抑制比对野生型弱。GFP-CPK30融合蛋白的亚细胞定位研究结果表明:CPK30蛋白定位在细胞壁和细胞膜上。这些研究结果说明了AtCPK30作为钙信号转导因子,参与了多种激素调节植物根生长的过程。     

Calcium/Ganglioside-Dependent Protein Kinase Activity in Rat Brain Membrane

The effects of gangliosides on phosphorylation were studied in rat brain membrane. Gangliosides stimulated phosphorylation only in the presence of Ca2+ with major phosphoproteins of 45,000, 50,000, 60,000, and 80,000 daltons and high-molecular-weight species. In addition, gangliosides inhibited the phosphorylation of three proteins with molecular weights of 15,000, 20,000, and 78,000 daltons. The two low-molecular-weight proteins comigrated with rat myelin basic proteins. Ganglioside stimulation was dependent on the formation of a Ca2+-ganglioside complex since the calcium salt of gangliosides stimulated phosphorylation maximally. Disialo and trisialo gangliosides were more potent stimulators of kinase activity than the monosialo GM1 X GD1a was the most potent activator tested. Asialo-GM1, cerebroside, sialic acid, neuraminyllactose, sulfatide, and the acidic phospholipids phosphatidylserine and phosphatidylinositol did not stimulate kinase activity. The Ca2+-dependent, ganglioside-stimulated phosphorylation was qualitatively similar to the pattern for calmodulin-dependent phosphorylation. However, while calmodulin-dependent kinase activity was inhibited with an IC50 of 10 microM trifluoperazine, ganglioside-stimulated kinase was inhibited with an IC50 of 200 microM trifluoperazine. These results indicate that gangliosides have complex effects on membrane-associated kinase activities and suggest that Ca2+-ganglioside complexes are potent stimulators of membrane kinase activity.     

Nucleoside Diphosphate Kinase Is a Possible Component of the Ethylene Signal Transduction Pathway

In etiolated seedlings of Pisum sativum and leaves of Arabidopsis thaliana, in vivo ethylene treatment resulted in an increase in in vitro phosphorylation of 17 kD (P. sativum) or 16 and 17 kD (A. thaliana) polypeptides. These polypeptides were identified as nucleoside diphosphate kinase (NDPK) based on both biochemical properties and interaction with antibodies against NDPK from P. sativum. Using the receptor-directed antagonist of ethylene action 2,5-norbornadiene and the ethylene-insensitive mutants of A. thaliana etr1-1 and eti5, ethylene specificity and receptor dependence of NDPK phosphorylation have been demonstrated. In pea epicotyls, ethylene treatment also led to increase in nucleoside transferase activity unlike in A. thaliana leaves. The increases in nucleoside transferase activity and NDPK phosphorylation were very rapid and transient. The results suggest a role for NDPK as a possible component of the ethylene signal transduction chain.     

丙型肝炎病毒蛋白作用于细胞信号转导途径的研究进展

细胞信号转导异常往往与人类疾病的发生、发展密切相关。一些病毒致病和感染机制即为病毒抗原蛋白作用宿主细胞信号转导途径,导致宿主细胞内信号转导发生紊乱。丙型肝炎病毒（HCV）是引发慢性丙型肝炎,导致肝硬化和肝细胞癌发生的主要病原体,但目前HCV的致病机制与宿主内持续感染机制尚不清楚。HCV致病机制可能与HCV表达的蛋白质干扰宿主细胞信号转导途径而导致异常的细胞信号转导有关。研究HCV蛋白对宿主细胞信号转导途径的影响不仅有助于阐明其致病机制,还能为新药设计和寻找新的治疗方法提供新思路和新靶点。本文主要综述了近年来国内外有关HCV蛋白作用细胞信号转导途径的研究进展。     

Gibberellin Signal Transduction in Rice

In the past decade, significant knowledge has accumulated regarding gibberellin （GA） signal transductlon In rice as a result of studies using multiple approaches, particularly molecular genetics. The present review highlights the recent developments In the identification of GA signaling pathway components, the discovery of GA-Induced destructlon of GA signaling repressor （DELLA protein）, and the possible mechanism underlying the regulation of GA- responsive gene expression in rice.     

Protein Clusters in Phosphotyrosine Signal Transduction

Signal transduction systems based on tyrosine phosphorylation are central to cell–cell communication in multicellular organisms. Typically, in such a system, the signal is initiated by activating tyrosine kinases associated with transmembrane receptors, which induces tyrosine phosphorylation of the receptor and/or associated proteins. The phosphorylated tyrosines then serve as docking sites for the binding of various downstream effector proteins. It has long been observed that the cooperative association of the receptors and effectors produces higher-order protein assemblies (clusters) following signal activation in virtually all phosphotyrosine signal transduction systems. However, mechanistic studies on how such clustering processes affect signal transduction outcomes have only emerged recently. Here we review current progress in decoding the biophysical consequences of clustering on the behavior of the system, and how clustering affects how these receptors process information.     

高尔基体应激信号传导通路研究进展

高尔基体应激是因脑缺血再灌注等应激反应中,导致高尔基体蛋白质加工运输、分泌等功能改变,与多种细胞内的信号通路是密切相关的。我们综观近年相关文献,并综述其研究进展,结果认为高尔基体应激通过磷酸肌醇、蛋白激酶C/蛋白激酶D、RAS/MAPK激酶、c AMP/PKA等信号通路发挥作用,参与缺血性脑卒中、脊髓损伤及神经变性疾病等发病机制。     

Radiation inactivation analysis of thylakoid protein kinase systems in light and in darkness

Chloroplast thylakoid contains several membrane-bound protein kinases that phosphorylate thylakoid polypeptides for the regulation of photosynthesis. Thylakoid protein phosphorylation is activated when the plastoquinone pool is reduced either by light-dependent electron flow through photosystem 2 (PS2) or by adding exogenous reductants such as durohydroquinone in the dark. The major phosphorylated proteins on thylakoid are components of light-harvesting complex 2 (LHC2) and a PS2 associated 9 kDa phosphoprotein. Radiation inactivation technique was employed to determine the functional masses of various kinases for protein phosphorylation in thylakoids. Under the photosynthetically active radiation (PAR), the apparent functional masses of thylakoid protein kinase systems (TPKXs) for catalyzing phosphorylation of LHC2 27 and 25 kDa polypeptides were 540±50 and 454±35 kDa as well as it was 448±23 kDa for PS2 9 kDa protein phosphorylation. Furthermore, the functional sizes of dark-regulated TPKXs for 25 and 9 kDa proteins were 318±25 and 160±8 kDa. The 9 kDa protein phosphorylation was independent of LHC2 polypeptides phosphorylation with regard to its TPKX functional mass. Target size analysis of protein phosphorylation mentioned above indicates that thylakoid contains a group of distinct protein kinase systems. A working model is accordingly proposed to interpret the interaction between these protein kinase systems.     

ΔpH-Dependent Fluorescence Quenching and Its Photoprotective Role in the Unicellular Red Alga Rhodella Violacea

Plants have developed various photoprotective mechanisms to resist irradiation stress. One of the photoprotective mechanisms described in the literature for LHC2-containing organisms involves a down-regulation of photosystem (PS) 2 occurring simultaneously with the build-up of a proton gradient across the thylakoid membrane (ΔpH). It is often correlated with deepoxidation of xanthophylls located in LHC2. In Rhodophyta instead of LHC2, the peripheral antenna of PS2 consists of a large extramembrane complex, the phycobilisome (PBS), which transfers its excitation to the core antennae of PS2 composed of the CP43 and CP47 protein-chlorophyll complexes and there is no xanthophyll cycle. In the red alga Rhodella violacea a ΔpH-dependent chlorophyll (Chl) a fluorescence quenching can be formed. We characterised this quenching, studied the effects of various irradiances and inhibitors. Under photoinhibitory conditions, the ΔpH-dependent Chl fluorescence quenching exerts a photoprotective role and delays the kinetics of photoinhibition. It is the first time that such a photoprotective mechanism is described in PBS-containing organisms. This revised version was published online in August 2006 with corrections to the Cover Date.     

带有蛋白转导结构域的Bcr/Abl癌蛋白片段的表达及其跨膜转运

HIV 1编码的反式激活蛋白TAT具有将细胞外蛋白转导进入细胞的基序 ,称为蛋白转导结构域 (PTD) .为研究PTD介导的PTD Bcr Abl融合蛋白的跨膜转运 ,合成了编码PTD的基因片段 ,并与PCR扩增的慢性粒细胞白血病癌蛋白bcr abl基因片段融合 .在大肠杆菌中表达纯化了融合蛋白 ,将纯化的融合蛋白加入培养的HL60细胞和C2C12细胞后 ,发现PTD基序可以介导Bcr Abl蛋白自由从细胞外跨膜转导进入细胞内 .研究结果可能为用外源蛋白负载 (loading)免疫活性细胞如抗原提呈细胞提供新的途径 .     

白细胞介素-1通过JNK信号通路调控Schlafen2基因的表达

目的：在多效生长因子（Ptn）基因稳定沉默的小鼠胚胎成纤维细胞Ptn-siRNA B/MEF241中,研究白细胞介素-1（IL-1）调控Schlafen2（Slfn2）基因表达的机制。方法：应用Northernblot检测Ptn沉默细胞Ptn-siRNAB/MEF241处于不同生长密度时Slfn2基因的表达变化,以确定Ptn沉默细胞中Slfn2基因的表达是否受到某种分泌性细胞因子的调控;用不同浓度的IL-1α中和抗体及IL-1受体拮抗剂处理Ptn沉默细胞,通过Northern blot检测细胞内Slfn2表达的抑制情况;用不同浓度的IL-1α中和抗体及IL-1受体拮抗剂处理Ptn沉默细胞不同时间,通过Western blot检测细胞中JNK磷酸化水平;Northern blot检测SP600125（JNK/MAPK通路抑制剂）对Ptn沉默细胞中Slfn2基因表达的影响。结果：Ptn沉默细胞中Slfn2基因的表达水平同细胞密度相关;用中和抗体和受体拮抗剂阻断IL-1通路,Slfn2表达受到显著抑制;IL-1受到抑制会影响JNK通路的活化;阻断JNK通路,Slfn2的表达受到显著抑制。结论：IL-1可以通过JNK通路诱导Slfn2的表达。     

拟南芥GEF14不独立参与ROP10介导的ABA信号转导途径

通过PCR扩增技术,从DNA和mRNA水平上鉴定出拟南芥GEF14基因的T-DNA插入纯合突变体gef14-1。不同浓度ABA处理拟南芥野生型(Col-0)及gef14-1的7 d龄幼苗,采用实时荧光定量PCR(Real-time quantitative PCR,Q-PCR)方法,分析小G蛋白ROP10的表达模式,结果表明gef14-1在不同浓度ABA处理下的ROP10的表达模式与Col-0中的一致;表型分析结果显示gef14-1与野生型并无明显区别。推测GEF14不参与ROP10介导的ABA信号转导途径或其调控与其他GEFs存在功能冗余。     

Identification and Expression Analysis of Abscisic Acid Signal Transduction Genes in Hemp Seeds

Abscisic acid (ABA) is involved in regulating diverse biological processes, but its signal transduction genes and roles in hemp seed germination are not well known. Here, the ABA signaling pathway members, PYL, PP2C and SnRK2 gene families, were identified from the hemp reference genome, including 7 CsPYL (pyrab-actin resistance1-like, ABA receptor), 8 CsPP2CA (group A protein phosphatase 2c), and 7 CsSnRK2 (sucrose nonfermenting1-related protein kinase 2). The content of ABA in hemp seeds in germination stage is lower than that in non-germination stage. Exogenous ABA (1 or 10 μM) treatment had a significant regulatory effect on the selected PYL, PP2C, SnRK2 gene families. CsAHG3 and CsHAI1 were most significantly affected by exogenous ABA treatment. Yeast two-hybrid experiments were performed to reveal that CsPYL5, CsSnRK2.2, and CsSnRK2.3 could interact with CsPP2CA7 and demonstrate that this interaction was ABA-independent. Our results indicated that CsPYL5, CsSnRK2.2, CsSnRK2.3 and CsPP2CA7 might involve in the ABA signaling transduction pathway of hemp seeds during the hemp seed germination stages. This study suggested that novel genetic views can be brought into investigation of ABA signaling pathway in hemp seeds and lay the foundation for further exploration of the mechanism of hemp seed germination.