Sequence comparison and phylogenetic analysis by the Maximum Likelihood method of ribosome-inactivating proteins from angiosperms

Ribosome-inactivating proteins (RIPs) from angiosperms are rRNA N-glycosidases that have been proposed as defence proteins against virus and fungi. They have been classified as type 1 RIPs, consisting of single-chain proteins, and type 2 RIPs, consisting of an A chain with RIP properties covalently linked to a B chain with lectin properties. In this work we have carried out a broad search of RIP sequence data banks from angiosperms in order to study their main structural characteristics and phylogenetic evolution. The comparison of the sequences revealed the presence, outside of the active site, of a novel structure that might be involved in the internal protein dynamics linked to enzyme catalysis. Also the B-chains presented another conserved structure that might function either supporting the beta-trefoil structure or in the communication between both sugar-binding sites. A systematic phylogenetic analysis of RIP sequences revealed that the most primitive type 1 RIPs were similar to that of the actual monocots (Poaceae and Asparagaceae). The primitive RIPs evolved to the dicot type 1 related RIPs (like those from Caryophyllales, Lamiales and Euphorbiales). The gene of a type 1 RIP related with the actual Euphorbiaceae type 1 RIPs fused with a double beta trefoil lectin gene similar to the actual Cucurbitaceae lectins to generate the type 2 RIPs and finally this gene underwent deletions rendering either type 1 RIPs (like those from Cucurbitaceae, Rosaceae and Iridaceae) or lectins without A chain (like those from Adoxaceae).     

Isolation and characterization of two new N-glycosidase type-1 ribosome-inactivating proteins,unrelated in amino-acid sequence,fromPetrocoptis species

Two new N-glycosidase type-1 ribosome-inactivating proteins (RIPs), denoted petroglaucin 1 and petrograndin, respectively, were isolated from the plantsPetrocoptis glaucifolia (Lag.) Boiss sp.viscosa (Rothm.) Laínz andPetrocoptis grandiflora Rothm. These new RIPs do not share H₂N-terminal amino-acid sequence homology with petroglaucin (now denoted as petroglaucin 2), the only other type-1 RIP to be isolated fromP. glaucifolia (Arias et al. (1992) Planta186, 532–540). Petroglaucin 1 shares amino-acid sequence homology with RIPs from Cucurbitaceae while petroglaucin 2 and petrograndin do so with saporins and dianthin 30 (Caryophyllaceae). The new RIPs strongly inhibited protein synthesis at subnanomolar concentrations in rabbit reticulocyte lysates and other eukaryotic cell-free systems, but they were inactive on bacterial ribosomes.     

High sensitivity of cultured human trophoblasts to ribosome-inactivating proteins.

Many plant proteins possessing abortifacient activities were identified as ribosome-inactivating proteins (RIPs). The effect of several ribosome-inactivating proteins (saporin 6, dianthin 32, pokeweed antiviral protein from seeds, gelonin, bryodin-R, and momordin) on primary cultures of human trophoblasts and human embryonal fibroblasts and on choriocarcinoma (JAR and BeWo) and ovarian carcinoma (TG) cell lines was studied. Protein synthesis of human trophoblasts and BeWo cells was lowered by RIPs more than that of other cells. The trophoblastic receptors for estradiol were not affected by treatment of the cells with momordin. The binding and uptake of saporin 6 and momordin by BeWo and HeLa cells were not correlated to cell toxicity.     

Effects of ribosome-inactivating proteins on Escherichia coli and Agrobacterium tumefaciens translation systems.

The effects of 30 type 1 and of 2 (ricin and volkensin) type 2 ribosome-inactivating proteins (RIPs) on Escherichia coli and Agrobacterium tumefaciens cell-free translation systems were compared with the effects on a rabbit reticulocyte translation system. The depurinating activity of RIPs on E. coli ribosomes was also evaluated. Only six type 1 RIPs inhibited endogenous mRNA-directed translational activity of E. coli lysates, with submicromolar 50% inhibitory concentrations. Four RIPs had similar activities on poly(U)-directed phenylalanine polymerization by E. coli ribosomes, and three RIPs inhibited poly(U)-directed polyphenylalanine synthesis by A. tumefaciens ribosomes, with submicromolar 50% inhibitory concentrations.     

N-terminal sequence of some ribosome-inactivating proteins

The N-terminal portion of some type 1 ribosome-inactivating proteins (RIPs) isolated from the seeds of Gelonium multiflorum, Momordica charantia, Bryonia dioica, Saponaria officinalis and from the leaves of Saponaria officinalis are reported in the present paper. Their relationship with other RIPs is discussed.     

核糖体灭活蛋白在植物中的作用

植物核糖体灭活蛋白 (ribosome -inactivatingproteins ,RIPs)能够破坏真核或原核细胞的核糖体大亚基RNA ,使核糖体失活而不能与蛋白质合成过程中的延伸因子相结合 ,从而导致蛋白质合成受到抑制。不同的核糖体对不同RIPs的敏感性不同 ,RIPs对自体或异体核糖体的作用也有很大区别。RIPs对病毒有很强的抑制作用 ,并且有些RIPs表现出对某些真菌和昆虫的抗性 ,因此认为核糖体灭活蛋白在植物的防御反应中扮演重要角色。另外 ,RIPs还可能参与了细胞代谢、细胞死亡等生理调控过程。     

麻疯树核糖体失活蛋白基因的克隆和表达

麻疯树(Jatropha curcas L.)核糖体失活蛋白(curcin)是存在于麻疯树种子中的一种毒性较强的蛋白,它与蓖麻毒蛋白和相思子毒蛋白的性质相似,属Ⅰ型核糖体失活蛋白.从麻疯树种子中分离得到一种分子量为28.2 kD的蛋白质,其对无细胞系统中蛋白质合成的抑制活性较强,IC50为(0.19±0.01)nmol/L,具有RNA N-糖苷酶活性.依据curcin的N端部分氨基酸设计简并引物,通过RT-PCR和5'-RACE技术从未成熟种子总RNA中克隆到curcin全长cDNA序列.该cDNA全长由1 173个碱基组成,包含一个编码293个氨基酸的前体蛋白,前42个氨基酸为信号肽.推测的多肽序列与测定的蛋白质N端序列相同,与多种己发表的Ⅰ型核糖体失活蛋白和Ⅱ型核糖体失活蛋白的A链有一定的同源性.将curcin的编码区与表达载体pQE-30相连后,转入大肠杆菌(Escherichia coil)M15菌株中得到了有效的表达.将表达的融合蛋白纯化后发现,它具有抑制无细胞系统蛋白质合成的能力.     

Ebulitins: A new family of type 1 ribosome-inactivating proteins (rRNA N-glycosidases) from leaves of Sambucus ebulus L. that coexist with the type 2 ribosome-inactivating protein ebulin 1

A new family of single chain (type 1) ribosome-inactivating proteins (RIPs), that we have named ebulitins, have been found in mature leaves of Sambucus ebulus L., a caprifoliaceae plant also known to contain a non-toxic two chain (type 2) RIP named ebulin 1 in its leaves. Ebulitins are basic proteins of M_r 32,000, 29,000 and 29,000 for ebulitins , β and γ, respectively. The simultaneous presence of different basic type 1 and acidic type 2 RIPs in the same plant and in the same tissue is described here for the first time and opens a new door in research into RIPs.     

Visualization of interaction between ribosome-inactivating proteins and supercoiled DNA with an atomic force microscope

The interaction between ribosome-inactivating proteins (RIPs) and supercoiled DNA was observed with an atomic force microscope (AFM). It was found that RIPs can bind to both supercoiled DNA and the unwound double stranded loop region in supercoiled DNA. The RIPs hound to the supercoils can induce the conformational change of supercoiled DNA. Furthermore, the supercoiled DNA was relaxed and cleaved into nick or linear form by RIPs. It indicated that RIP seemed to be a supercoil-dependent DNA binding protein and exhibited the activity of su-percoil-dependent DNA endonuclease.     

Ribosome-inactivating proteins depurinate poly(ADP-ribosyl)ated poly(ADP-ribose) polymerase and have transforming activity for 3T3 fibroblasts

It has been known that ribosome-inactivating proteins (RIPs) from plants damage ribosomes by removing adenine from a precise position of rRNA. Subsequently it was observed that all tested RIPs depurinate DNA, and some of them also non-ribosomal RNAs and poly(A), hence the denomination of adenine polynucleotide glycosylases was proposed. We report now that ricin, saporin-L2, saporin-S6, gelonin and momordin depurinate also poly(ADP-ribosyl)ated poly(ADP-ribose) polymerase (auto modified enzyme), an enzyme involved in DNA repair. We observed also that all RIPs but gelonin induce transformation of fibroblasts, possibly as a consequence of damage to DNA and of the altered DNA repair system.     

Presence of single-chain ribosome-inactivating protein-like activities in several plant species.

The present screening work was devoted to the search for new ribosome-inactivating proteins (RIPs) in 21 plant species. Eight plants proved to be very active, inhibiting protein synthesis in eukaryotic in vitro systems (rat liver, Vicia sativa and wheat germ). They fulfil the major requirements for consideration as type 1 RIPs. Also, eight plants were found to contain haemagglutinating activity of human red cells but this was not related to the simultaneous presence of RIPs.     

用质粒作底物测定核糖体失活蛋白酶活性的新方法

植物核糖体失活蛋白(ribosome-inactivating protein,RIP)是一类能作用于核糖体最大RNA的独特蛋白质.它是研究蛋白质生物合成中核糖体RNA结构与功能的有力工具.利用RIP能在DNA中脱去一些腺嘌呤碱基使超螺旋DNA解旋的特点,分别以常用的质粒PUC18、PUC19和PBR322 DNA为底物,建立了测定RIP酶活性的一种新方法,其灵敏度是50ng(天花粉蛋白)和5ng(还原型的辛纳毒蛋白),酶催化反应的时间是60min.这个新方法具有方便、快捷、灵敏的特点,避免了常用方法中制备核糖体、提取RNA的仪器和技术条件的限制,检测的时间由原来的几天缩短到约120min,大大地降低了检测的费用,为广泛和深入地研究RIP提供了有利的条件.     

Characterization of two novel type I ribosome-inactivating proteins from the storage roots of the andean crop Mirabilis expansa

Two novel type I ribosome-inactivating proteins (RIPs) were found in the storage roots of Mirabilis expansa, an underutilized Andean root crop. The two RIPs, named ME1 and ME2, were purified to homogeneity by ammonium sulfate precipitation, cation-exchange perfusion chromatography, and C4 reverse-phase chromatography. The two proteins were found to be similar in size (27 and 27.5 kD) by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and their isoelectric points were determined to be greater than pH 10.0. Amino acid N-terminal sequencing revealed that both ME1 and ME2 had conserved residues characteristic of RIPs. Amino acid composition and western-blot analysis further suggested a structural similarity between ME1 and ME2. ME2 showed high similarity to the Mirabilis jalapa antiviral protein, a type I RIP. Depurination of yeast 26S rRNA by ME1 and ME2 demonstrated their ribosome-inactivating activity. Because these two proteins were isolated from roots, their antimicrobial activity was tested against root-rot microorganisms, among others. ME1 and ME2 were active against several fungi, including Pythium irregulare, Fusarium oxysporum solani, Alternaria solani, Trichoderma reesei, and Trichoderma harzianum, and an additive antifungal effect of ME1 and ME2 was observed. Antibacterial activity of both ME1 and ME2 was observed against Pseudomonas syringae, Agrobacterium tumefaciens, Agrobacterium radiobacter, and others.     

Effects of plant ribosome-inactivating proteins on ribosomes from Musca domestica.

1. Ribosomes from M. domestica larvae were isolated and their susceptibility to the action of several ribosome-inactivating proteins (RIPs) from plants was tested. 2. Ribosome-inactivating proteins inhibited, to different extents, phenylalanine polymerization by ribosomes. 3. Analysis of RNA from RIP-treated ribosomes showed the appearance of an aniline-cleavable rRNA fragment resulting from the N-glycosidase activity of the RIPs. 4. The release of adenine from saporin 6-treated M. domestica ribosomes was demonstrated by h.p.l.c. analysis.     

Cytotoxicity acquired by ribosome-inactivating proteins carried by reconstituted Sendai virus envelopes

Association of the ribosome-inactivating proteins (RIPs): pokeweed antiviral protein (PAP), gelonin, Momordica charantia inhibitor (MCI), with reconstituted Sendai virus envelopes (RSVE) was obtained without detectable loss of activities either of RIPs or of viral envelope glycoproteins. RIPs are inactive towards intact cells, but, once encapsulated in RSVE, they become cytotoxic. The concentration of RSVE-associated PAP, which causes 50% inhibition of protein synthesis by Friend erythroleukemic cells, is 0.5 ng/ml. Substances capable to inhibit the viral activities block the acquired cytotoxicity of RIPs associated to RSVE.     

Elderberry (Sambucus nigra L.) seed proteins inhibit protein synthesis and display strong immunoreactivity with rabbit polyclonal antibodies raised against the type 2 ribosome-inactivating protein nigrin b

Affinity chromatography-purifled elderberry (Sambucus nigraL.) seed proteins strongly inhibited protein synthesis and displayedthe 28S rRNA N-glycosidase activity characteristic of all typesof ribosome-inactivating proteins (RIPs). Western blot analysisrevealed several proteins that reacted with antibodies raisedagainst the novel non-toxic type 2 ribosome-inactivating proteinnigrin b isolated from elder bark, thus indicating the presenceof a new type 2 RIP. Key words: Anti-nigrin b antibodies, protein synthesis, seeds, elder seeds, Sambucus nigra     

Ribosome-Inactivating Proteins: A Family of Plant Proteins That Do More Than Inactivate Ribosomes

Many plants contain proteins that are commonly designated as ribosome-inactivating proteins (RIPs). Based on the structure of the genes and the mature proteins a novel system is proposed to unambiguously classify all RIPs in type-1, type-2, and type-3 RIPs. In addition, the concept of one- and two-chain type-1 RIPs is introduced. After an overview of the occurrence, molecular structure, and amino acid sequences of RIPs, the formation of the mature proteins from the primary translation products of the corresponding mRNAs is elaborated in detail in a section dealing with the biosynthesis, posttranslational modifications, topogenesis, and subcellular location of the different types of RIPs. Details about the three-dimensional structure of type-1 RIPs and the A and B chains of type-2 RIPs are discussed in a separate section. Based on the data given in the previous sections, the phylogenic and molecular evolution of RIPs is critically assessed and a novel model is proposed for the molecular evolution of RIPs. Subsequently, the enzymatic activities of RIPs are critically discussed whereby special attention is given to some presumed novel activities, and a brief overview is given of the biological activities of the different types of RIPs on cells and whole organisms. By combining the data on the enzymatic activities and biological activities of RIPs, and the current knowledge of different plant physiological aspects of these proteins, the role of RIPs in plants is revisited. Thereby the attention is focussed on the role of RIPs in plant defense with the emphasis on protection against plant-eating organisms and viruses. Finally, there is a short discussion on the discovery of a novel class of enzymes called RALyases that use ribosomes damaged by RIPs as a substrate and may act cooperatively with RIPs. There is discussion regarding why the identification of this novel enzyme gives valuable clues to the origin and original function of RIPs and may be helpful to unravel the physiological role of modem RIPs.     

Effect of alpha-sarcin and ribosome-inactivating proteins on the interaction of elongation factors with ribosomes.

alpha-Sarcin from Aspergillus giganteus and the ribosome-inactivating proteins (RIPs) from higher plants inactivate the 60 S ribosomal subunit. The former is an RNAase, whereas RIPs are N-glycosidases. The site of cleavage of RNA and that of N-glycosidic depurinization are at one nucleotide distance in 28 S rRNA [Endo & Tsurugi (1987) J. Biol. Chem. 262, 8128-8130]. The effect of alpha-sarcin and that of RIPs on the interaction of elongation factors with Artemia salina (brine shrimp) ribosomes have been investigated. alpha-Sarcin inhibits both the EF1 (elongation factor 1)-dependent binding of aminoacyl-tRNA and the GTP-dependent binding of EF2 (elongation factor 2) to ribosomes, whereas two of the RIPs tested, ricin from Ricinus communis (castor bean) and volkensin from Adenia volkensii (kilyambiti), inhibit only the latter reaction. EF2 protects ribosomes from inactivation by both alpha-sarcin and ricin. The EF1-binding site is affected only by alpha-sarcin. The sensitivity of this site to alpha-sarcin is increased by pretreatment of ribosomes with ricin. A. salina ribosomes were highly resistant to the third RIP tested, namely gelonin from Gelonium multiflorum. All four proteins tested have, however, a comparable activity on the rabbit reticulocyte-lysate system.     

A rapid and sensitive method to measure the enzymatic activity of ribosome-inactivating proteins.

A method is described in which the adenosine- N -glycosidase activity of ribosome-inactivating proteins (RIPs) is measured using as substrate a 2251 bp [3H]DNA obtained by PCR amplification of the 731-2981 region of the pBR322 plasmid. The DNA, labelled in the purine ring of adenine, proved a good substrate for all three RIPs tested (PAP-S, ricin and shiga-like toxin I). The method, which measures directly the [3H]adenine released, is highly specific, extremely rapid and quantitative in a wide range of RIP concentrations.     

研究: 核糖体失活蛋白及其在黄瓜中的表达分析

核糖体失活蛋白是一类具有高度特异性rRNA N-糖苷酶活性的蛋白,它们能够使原核或真核细胞的核糖体失活因而具有细胞毒性．由于其独特的生物学性质,核糖体失活蛋白被认为在农业和医学中都有着巨大的应用潜力．我们之前的研究表明,黄瓜的基因组中共包含2个2类核糖体失活蛋白基因,分别命名为CumsaAB1和CumsaAB2．以蓖麻毒蛋白Ricin为代表,2类核糖体失活蛋白通常由2条二硫键连接的肽链组成：具有N-糖苷酶活性的A链与具有凝集素活性的B链．本文研究了黄瓜中核糖体失活蛋白的表达情况．亚细胞定位研究表明CumsaAB1经过蛋白分泌通路表达于细胞外,这与蛋白质序列分析显示的CumsaAB1包含一个信号肽而不含转膜区域相一致．对黄瓜的不同生长阶段的不同组织中的转录水平分析表明,CumsaAB1在大部分组织中以极低的水平表达,而CumsaAB2表达水平则明显更高,尤其在第一片真叶阶段和刚开花的植物中．最后,我们使用分子模拟对黄瓜中核糖体失活蛋白的结构及糖结合位点进行了分析．本研究对黄瓜中核糖体失活蛋白的亚细胞定位、表达水平和可能的蛋白质结构进行了研究,为其进一步的生物学功能研究提供了重要信息．