Pokeweed antiviral protein cleaves double-stranded supercoiled DNA using the same active site required to depurinate rRNA

Ribosome-inactivating proteins (RIPs) are N-glycosylases that remove a specific adenine from the sarcin/ricin loop of the large rRNA in a manner analogous to N-glycosylases that are involved in DNA repair. Some RIPs have been reported to remove adenines from single-stranded DNA and cleave double-stranded supercoiled DNA. The molecular basis for the activity of RIPs on double-stranded DNA is not known. Pokeweed antiviral protein (PAP), a single-chain RIP from Phytolacca americana, cleaves supercoiled DNA into relaxed and linear forms. Double-stranded DNA treated with PAP contains apurinic/apyrimidinic (AP) sites due to the removal of adenine. Using an active-site mutant of PAP (PAPx) which does not depurinate rRNA, we present evidence that double-stranded DNA treated with PAPx does not contain AP sites and is not cleaved. These results demonstrate for the first time that PAP cleaves supercoiled double-stranded DNA using the same active site that is required for depurination of rRNA.     

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.     

快速检测核糖体失活蛋白活性质粒的构建及应用

核糖体失活蛋白专一地断裂28S rRNA第4 324位的腺嘌呤与核糖之间的N-糖苷键,具有特异破坏核糖体的结构,抑制蛋白质生物合成的功能。核糖体失活蛋白在医疗方面有极大的应用价值。为了能简单快速筛选出核糖体失活蛋白,本实验构建了一种包含核糖体失活蛋白识别位点的双荧光素酶质粒psiCHECKTM-2-F28RNA。用具有N 糖苷酶活性的苦荞凝集素(tartary buckwheat lectin,TBL)作用于psiCHECKTM-2-F28RNA质粒,电泳检测发现,TBL可以将质粒DNA由超螺旋型切割为缺刻型。将psiCHECKTM-2-F28RNA转染HCT116细胞,发现海肾/萤火虫荧光比值也明显降低,表明构建的质粒可以用于检测核糖体失活蛋白对细胞的毒性作用。当将psiCHECKTM-2-F28RNA中的GAGA序列中腺嘌呤分别突变后进行同样实验,确定该质粒中的GAGA为核糖体失活蛋白的识别位点。进一步构建包含GAGA特征序列的Wnt1-3′UTR区的质粒psiCHECKTM-2-Wnt1-3′UTR,实验也发现,在胞外和胞内TBL与psiCHECKTM-2-Wnt1-3′UTR都具有相互作用,表明细胞内具有GAGA序列的mRNA也可能成为核糖体失活蛋白的靶点。选用几种食源性作物中提取的蛋白质,分别与psiCHECKTM-2-F28RNA作用,进行体外检测,结果显示,该质粒能快速地筛选来源于不同生物的核糖体失活蛋白。这些结果表明,本实验构建的psiCHECKTM-2-F28RNA质粒,可用于核糖体失活蛋白的快速筛选和酶活性鉴定。     

Biological and antipathogenic activities of ribosome-inactivating proteins from Phytolacca dioica L.

BackgroundThe species from the genus Phytolacca constitute one of the best sources of ribosome-inactivating proteins (RIPs) that have been used both in the therapy against virus and tumors and in the construction of transgenic plants resistant to virus, bacteria, fungi and insects. Here we investigate new activities of three representative RIPs from Phytolacca dioica (dioicin 2, PD-S2 and PD-L4).ResultsThe three RIPs displayed, in addition to already reported activities, rRNA N-glycosylase activities against plant, bacterial and fungal ribosomes. Additionally dioicin 2 and PD-L4 displayed endonuclease activity on a supercoiled plasmid DNA, and dioicin 2 and PD-S2 arrested the growth of the fungus Penicillium digitatum. Furthermore, dioicin 2 induced caspase activation and apoptosis in cell cultures.ConclusionsThe different activities of the RIPs from Phytolacca dioica may explain the antipathogenic properties attributed to these RIPs in plants and their antiviral and antitumoral effects. In spite of the similarity in their rRNA N-glycosylase and DNA polynucleotide:adenosine glycosylase activities, they differed in their activities against viral RNA, plasmid DNA, fungi and animal cultured cells. This suggests that the presence of isoforms might optimize the response of the plant against several types of pathogens.General significanceRIPs from Phytolacca can induce plant resistance or tumor cell death not only by means of ribosome inactivation but also by the activities found in this report. Furthermore, the induction of cell death by different mechanisms turns these RIPs into more useful tools for cancer treatment rendering the selection of RIP-resistant mutants impossible.     

超螺旋DNA的碱变构研究

对超螺旋ＤＮＡ（ＤＮＡⅠ）的碱处理产物进行了琼脂糖凝胶电泳,氯化铯－溴化乙锭密度梯度超离心分析,紫外吸收光谱分析和电镜观察。实验结果表明超螺旋ＤＮＡ在碱性环境中的结构改变发生在很窄的ｐＨ范围内（ｐＨ１２．８８─１３．００）．超过ｐＨ临界点的超螺旋ＤＮＡ碱变构产物紫外吸收高于同浓度天然ＤＮＡ紫外吸收的２９％。变构产物在ＣｓＣｌ－ＥＢ密度梯度超离心中的高密度区形成稳定的区带．用透射电镜的观察表明碱变构的超螺旋ｐＢＲ３２２ＤＮＡ具有高电子密度并呈中空颗粒状,以上事实表明,ＤＮＡ在高ｐＨ下可产生一种结构有序的相对稳定的产物．这些结果意味着在碱处理过程中,超螺旋ＤＮＡ在构象上发生了改变,使其分子由扭曲线形变成球形颗粒状。根据实验事实本文对超螺旋ＤＮＡ的碱变构产物（ＤＮＡⅣ）提出一个新的结构模型──压缩模型。这个模型能更合理地解释一些实验现象。     

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.     

One-way PCR-based mapping of a replication initiation point (RIP)

The lamin B2 locus is the only mammalian origin whose replication initiation points (RIPs) have been mapped. Although this paper was published 8 years ago, no further mammalian RIP-mapping studies have been reported, largely due to technical difficulties of ligation-mediated (LM)-PCR used by the authors. Here, we report the development of a simple, one-way PCR-based protocol that allows one to accurately determine RIPs at mammalian origins. The procedure can be completed within 48 h from the time of cell lysis in the agarose gel. Nascent DNA is then isolated from the same gel after DNA is separated by alkaline gel electrophoresis. Subsequently, RIPs are determined by one-way PCR-based primer extension using labeled primers. Using this protocol, we have successfully mapped RIPs in the human DBF4 locus. As one-way PCR is routinely used by many scientists, this protocol will provide a powerful new tool for studying DNA replication in many organisms including mammalian cells.     

Ribosome inactivating proteins from plants inhibiting viruses

Many plants contain ribosome inactivating proteins (RIPs) with N-glycosidase activity, which depurinate large ribosomal RNA and arrest protein synthesis. RIPs so far tested inhibit replication of mRNA as well as DNA viruses and these proteins, isolated from plants, are found to be effective against a broad range of viruses such as human immunodeficiency virus (HIV), hepatitis B virus (HBV) and herpes simplex virus (HSV). Most of the research work related to RIPs has been focused on antiviral activity against HIV; however, the exact mechanism of antiviral activity is still not clear. The mechanism of antiviral activity was thought to follow inactivation of the host cell ribosome, leading to inhibition of viral protein translation and host cell death. Enzymatic activity of RIPs is not limited to depurination of the large rRNA, in addition they can depurinate viral DNA as well as RNA. Recently, Phase I/II clinical trials have demonstrated the potential use of RIPs for treating patients with HIV disease. The aim of this review is to focus on various RIPs from plants associated with anti-HIV activity.     

Cleavage of supercoiled circular double-stranded DNA induced by a eukaryotic cambialistic superoxide dismutase from Cinnamomum camphora

Superoxide dismutase (SOD, EC 1.15.1.1) that protectsorganisms from O2?– toxicity is a family of transitionmetal-containing enzyme existing in all oxygen-consu-ming living beings [1,2]. SOD catalyzes the dismutationof the toxic superoxide anion O2?– int…     

Preferential binding of E.coli histone-like protein HU alpha to negatively supercoiled DNA.

Binding specificity of histone-like HU alpha protein to supercoiled DNA was examined by gel retardation assay and chemical probing with OsO4. The latter method was proved to be a unique means for detecting torsional tension restrained in supercoiled plasmid in the presence of HU alpha. It was shown that HU alpha protein has preferential affinity to negatively supercoiled DNA relative to relaxed, nicked and linearized DNAs. There were two modes for binding of HU alpha to the supercoiled DNA: one was the binding associated with topological changes in DNA and the other was relatively strong binding, probably specific to certain particular structures of DNA. It was suggested that HU in vivo interacts preferentially with the regions deformed under torsional stress or with the metabolically active regions along DNA.     

Synthesis and DNA-cleaving activity of a series of substituted arenediazonium ions

We investigated the reactions of substituted aryl radicals and aryl cations derived from arenediazonium ions and their ability to cause cleavage of supercoiled DNA and their tendency toward free radical or cation formation in the presence and absent of copper (I) chloride. It was found that the substituted arenediazonium salts can cleave supercoiled DNA to the open circular form II DNA and linear form III DNA. Results methodical studies indicate that both carbon-centered radicals and aryl cations participate in the cleavage pathways.     

Unlinking of supercoiled DNA catenanes by type IIA topoisomerases

It was found recently that DNA catenanes, formed during replication of circular plasmids, become positively (+) supercoiled, and the unlinking of such catenanes by type IIA topoisomerases proceeds much more efficiently than the unlinking of negatively (−) supercoiled catenanes. In an attempt to explain this striking finding we studied, by computer simulation, conformational properties of supercoiled DNA catenanes. Although the simulation showed that conformational properties of (+) and (−) supercoiled replication catenanes are very different, these properties per se do not give any advantage to (+) supercoiled over (−) supercoiled DNA catenanes for unlinking. An advantage became evident, however, when we took into account the established features of the enzymatic reaction catalyzed by the topoisomerases. The enzymes create a sharp DNA bend in the first bound DNA segment and allow for the transport of the second segment only from inside the bend to its outside. We showed that in (−) supercoiled DNA catenanes this protein-bound bent segment becomes nearly inaccessible for segments of the other linked DNA molecule, inhibiting the unlinking.     

Direct observation of positive supercoils introduced by reverse gyrase through atomic force microscopy

Reverse gyrase is a hyperthermophilic enzyme that can introduce positive supercoiling in substrate DNA. It is showed in our studies that positive DNA supercoils were induced in both pBR322 vector and an artificially synthesized mini-plasmid DNA by reverse gyrase. The left-handed structures adopted by positively supercoiled DNA molecules could be identified from their right-handed topoisomers through atomic force microscopic examination. Additional structural comparisons revealed that positively supercoiled DNA molecule AFM images exhibited increased contour lengths. Moreover, enzymatic assays showed that the positively supercoiled DNA could not be cleaved by T7 endonuclease. Together, this suggests that the overwound structure of positive supercoils could prevent genomic duplex DNA from randomly forming single-stranded DNA regions and intra-stranded secondary structures.     

Variety of molecular conformation of plasmid pUC18 DNA and solenoidally supercoiled DNA

The plasmid pUC18 DNA isolated from Escherichia coli HB101 were analyzed by two-dimensional agarose gel electrophoresis and hybridization. The results show that the DNA sample can be separated into six groups of different structural components. The plectonemically and solenoidally supercoiled pUC18 DNA coexist in it. These two different conformations of supercoiled DNA are interchangeable with the circumstances (ionic strength and type, etc.). The amount of solenoidally supercoiled pUC18 DNA in the samples can be changed by treatment of DNA topoisome rases. Under an electron microscope, the solenoidal supercoiling DNA has a round shape with an average diameter of 45 nm. The facts suggest that solenoidaUy supercoiled DNA be a structural entity independent of histones. The polymorphism of DNA structure may be important to packing of DNA in vivo.     

Characterization of a potent catenation activity of HeLa cell nuclei

Using an assay which measures catenation of a supercoiled DNA template, we have characterized and quantitated a potent activity identified in crude fractions of HeLa cell nuclei. Catenation requires Mg-ATP and a DNA-condensing agent, polyvinyl alcohol. A filter-binding or agarose gel assay can be used to quantitate activity. In this reaction, DNA topoisomerase I relaxes the input supercoiled DNA to provide DNA topoisomerase II, a strongly favored template for catenation. DNA topoisomerase II preferentially catenates relaxed DNA over supercoiled DNA by a factor of 100. One molecule of DNA topoisomerase II is able to catenate about 20 circles of relaxed DNA/min at 30 degrees C but only 0.16 circle of supercoiled DNA/min at 30 degrees C. The purified HeLa topoisomerase I can also catenate DNA under these assay conditions, yet in an ATP-independent fashion. It is much less efficient than topoisomerase II; one molecule of topoisomerase I catenates only about 3.8 X 10(-3) molecules of supercoiled DNA/min at 30 degrees C with a DNA template containing 5% nicked circles. This remarkable difference between the two enzymes allows quantitation of DNA topoisomerase II activity seen in the presence of excess topoisomerase I. Unlike Escherichia coli topoisomerase I (omega), catenation by the HeLa topoisomerase I is not stimulated by gapped circles.     

Effect of novobiocin on degradation and repair of the superhelical structure of nuclear DNA from rat thymocyte fractions

A study was made of the action of novobiocin on degradation and repair events in supercoiled nuclear DNA from three thymocyte fractions obtained by ficoll-paque gradient sedimentation. When added before gamma-irradiation novobiocin (1.9 mg/ml) exerted a radioprotective effect during the "second wave" of supercoiled DNA degradation. It is suggested that this effect may be due to the inhibition of DNA topoisomerase II.     

Properties of a DNA repair endonuclease from mouse plasmacytoma cells

The properties of a DNA-repair endonuclease isolated from mouse plasmacytoma cells have been further studied. It acted on ultraviolet-light-irradiated supercoiled DNA, and the requirement for a supercoiled substrate was absolute at ultraviolet light doses below 1.5 kJ m-2. At higher doses relaxed DNA could also serve as a substrate, but the activity on this DNA was due mostly to hydrolysis of ultraviolet-light-induced apurinic/apyrimidinic (AP) sites by the AP-endonuclease activity associated with the enzyme. The latter enzyme activity did not require a supercoiled form of the DNA. The enzyme also introduced nicks in unirradiated d(A-T)n. The nicked ultraviolet-light-irradiated DNA served as a substrate for DNA polymerase I, showing that the nicks contained free 3'-OH ends. Treatment of the nicked ultraviolet-light-irradiated DNA with bacterial alkaline phosphatase followed by T4 polynucleotide kinase, resulted in the phosphorylation of the 5' ends of the nicks, indicating that the nicks possessed a 5'-phosphate group; 5'- and 3'-mononucleotide analyses of the labelled DNA suggested that the enzyme introduced breaks primarily between G and T residues. The enzyme did not act on any specific region on the supercoiled DNA molecule; it produced random nicks in ultraviolet-light-modified phi X 174 replicative form I DNA. Antibodies raised against ultraviolet-light-irradiated DNA inhibited the activity. DNA adducts such as N-acetoxy-2-acetylaminofluorene and psoralen were not recognized by the enzyme. It is suggested that the enzyme has a specificity directed toward helical distortions.     

Visualization of alkali-denatured supercoiled plasmid DNA by atomic force microscopy

To study the alkali denaturation of supercoiled DNA, plasmid pBR322 was treated with gradient concentrations of NaOH solution. The results of gel electrophoresis showed that the alkali denaturation of the supercoiled DNA occurred in a narrow range of pH value (12.88-12.90). The alkali-denatured supercoiled DNA ran, as a sharp band, faster than the supercoiled DNA. The supercoiled plasmid DNA of pBR322, pACYC184 and pJGX15A were denatured by NaOH, and then visualized by atomic force microscopy. Compared with the supercoiled DNA, the atomic force microscopy images of the alkali-denatured supercoiled DNA showed rough surface with many kinks, bulges on double strands with inhomogeneous diameters. The apparent contour lengths of the denatured DNA were shortened by 16%, 16% and 50% for pBR322, pACYC184 and pJGX15A, respectively. All evidence suggested that the alkali-denatured supercoiled DNA had a stable conformation with unregistered, topologically constrained double strands and intrastrand secondary structure.