Sensing complex regulatory networks by conformationally controlled hairpin ribozymes

The hairpin ribozyme catalyses RNA cleavage by a mechanism utilizing its conformational flexibility during the docking of two independently folded internal loop domains A and B. Based on this mechanism, we designed hairpin ribozyme variants that can be induced or repressed by external effector oligonucleotides influencing the docking process. We incorporated a third domain C to assimilate alternate stable RNA motifs such as a pseudo-half-knot or an internal stem-loop structure. Small sequence changes in domain C allowed targeted switching of ribozyme activity: the same effector oligonucleotide can either serve as an inducer or repressor. The ribozymes were applied to trp leader mRNA, the RNA sequence tightly bound by l-tryptophan-activated trp-RNA-binding attenuation protein (TRAP). When domain C is complementary to this mRNA, ribozyme activity can be altered by annealing trp leader mRNA, then specifically reverted by its TRAP/tryptophan-mediated sequestration. This approach allows to precisely sense the activity status of a protein controlled by its metabolite molecule.     

Base and sugar requirements for RNA cleavage of essential nucleoside residues in internal loop B of the hairpin ribozyme: implications for secondary structure.

The hairpin ribozyme is a small self-cleaving RNA that can be engineered for RNA cleavage in trans and has potential as a therapeutic agent. We have used a chemical synthesis approach to study the requirements of hairpin RNA cleavage for sugar and base moieties in residues of internal loop B, an essential region in one of the two ribozyme domains. Individual nucleosides were substituted by either a 2'-deoxy-nucleoside, an abasic residue, or a C3-spacer (propyl linker) and the abilities of the modified ribozymes to cleave an RNA substrate were studied in comparison with the wild-type ribozyme. From these results, together with previous studies, we propose a new model for the potential secondary structure of internal loop B of the hairpin ribozyme.     

Characterization in vitro and in vivo of hammerhead ribozymes directed against murine tumor necrosis factoralpha.

A hammerhead ribozyme directed against murine TNFalpha (mTNFalpha) mRNA has been constructed. In vitro studies showed that this ribozyme was released from the parent molecule by flanking cis-acting hammerhead and hairpin ribozymes. This same anti-mTNFalpha ribozyme specifically cleaved both synthetically derived substrate RNA and mTNFalpha mRNA within a pool of total cellular RNA. Endogenous delivery of this anti-mTNFalpha ribozyme via the self-cleaving cassette reduced mTNFalpha mRNA and protein levels in lipopolysaccharide (LPS)-stimulated, stably transfected murine macrophage RAW 264.7 cells. When complexed to liposomes and exogenously delivered to mouse peritoneal macrophages, the same ribozyme, with and without the cis-acting ribozymes, reduced mTNFalpha protein levels. However, an irrelevant ribozyme delivered in an identical fashion was also effective at reducing mTNFalpha protein levels. These data suggest that anti-mTNFalpha ribozymes can be constructed which efficiently cleave mTNFalpha mRNA, but irrelevant RNA/liposome complexes also effectively limit TNFalpha mRNA expression and can mimic functional ribozyme activity under in vitro conditions.     

In vitro selection of hairpin ribozymes activated with short oligonucleotides

We have carried out an in vitro selection to obtain an allosteric hairpin ribozyme, which has cleavage activity in the presence of an exogenous short oligonucleotide as a regulator. Random sequences were inserted in a region corresponding to the hairpin loop of the ribozyme. After 12 rounds of selection, DNA templates were cloned. Of a total of 34 clones, 18 contained the same sequence, and the obtained hairpin ribozymes showed the cleavage activity specifically in the presence of the regulator oligonucleotide. All of the clones contained sequences complementary to the regulator oligonucleotide. The ribozymes with high cleavage activities gained characteristic hairpin loops at the random domain, which were similar to each other. In the absence of the oligonucleotide, the loop domain within the allosteric ribozyme probably forms a slipped hairpin loop, and the complementary sequence, with the regulator oligonucleotide located at the single stranded loop, would allow easy access of the oligonucleotide. The binding of the regulator oligonucleotide triggers a structural change of the hairpin loop to form an active conformation. Furthermore, we constructed an allosteric hammerhead ribozyme by introducing the characteristic hairpin loop. The modified hammerhead ribozyme was also changed to an allosteric ribozyme, which was activated by the addition of the regulator oligonucleotide. The characteristic hairpin loop, which was proved to be regulated by an exogenous oligonucleotide in this report, may be used to control RNA functions in various fields.     

特异切割12-脂加氧酶mRNA的核酶体外活性及动力学研究

根据锤头状核酶（Ｒｉｂｏｚｙｍｅ）的作用模式,设计、合成并克隆了特异性切割１２－脂加氧酶（１２－ＬＯ）ｍＮＲＡ的核酶基因。以合成的２５个核苷酸长的１２－脂加氧酶ＲＮＡ片段为底物与转录的核酶ＲＮＡ一起保温检测其体 割活性。实验结果表明,在３７℃保温时,核酶在体外对１２－脂加氧酶具有较高的特异切割活性,其Ｋｍ值为１３００ｎｍｏｌ／Ｌ,其ｋｃａｔ值为０．０８３／ｍｉｎ,在５０℃保温时,核酶具有很高的切割     

The many faces of the hairpin ribozyme: structural and functional variants of a small catalytic RNA

The hairpin ribozyme is a small catalytic RNA that has been reengineered resulting in a number of variants with extended or even new functions. Thus, manipulation of the hairpin ribozyme structure has allowed for activity control by external effectors, namely oligonucleotides, flavine mononucleotide, and adenine. Hairpin ribozyme-derived twin ribozymes that mediate RNA fragment exchange reactions as well as self-processing hairpin ribozymes were designed. Furthermore, several hairpin ribozyme variants have been engineered for knock down of specific RNA substrates by adapting the substrate-binding domain to the specific target sequence. This review will focus on hairpin ribozymes possessing structural extensions/variations and thus functionally differing from the parent hairpin ribozyme.     

Hairpin ribozyme cleavage catalyzed by aminoglycoside antibiotics and the polyamine spermine in the absence of metal ions.

The hairpin ribozyme is a small catalytic RNA that achieves an active configuration by docking of its two helical domains in an antiparallel fashion. Both docking and subsequent cleavage are dependent on the presence of divalent metal ions, such as magnesium, but there is no evidence to date for direct participation of such ions in the chemical cleavage step. We show that aminoglycoside antibiotics inhibit cleavage of the hairpin ribozyme in the presence of metal ions with the most effective being 5-epi-sisomicin and neomycin B. In contrast, in the absence of metal ions, a number of aminoglycoside antibiotics at 10 mM concentration promote hairpin cleavage with rates only 13-20-fold lower than the magnesium-dependent reaction. We show that neomycin B competes with metal ions by ion replacement with the postively charged amino groups of the antibiotic. In addition, we show that the polyamine spermine at 10 mM promotes efficient hairpin cleavage with rates similar to the magnesium-dependent reaction. Low concentrations of either spermine or the shorter polyamine spermidine synergize with 5 mM magnesium ions to boost cleavage rates considerably. In contrast, at 500 microM magnesium ions, 4 mM spermine, but not spermidine, boosts the cleavage rate. The results have significance both in understanding the role of ions in hairpin ribozyme cleavage and in potential therapeutic applications in mammalian cells.     

Translational activity of N-methyl-D-aspartate receptor subunit NR1 mRNA in PC12 cells

PC12 cells contain NR1 mRNA but lack significant expression of NR1 protein suggesting translational or posttranslational regulation. Translational activity of NR1 mRNA in PC12 cells was examined by sucrose gradient fractionation and by heterologous luciferase NR1 gene expression studies. The cosedimentation and association of NR1 mRNA with large polyribosomes (polysomes) confirmed the translatability of NR1 message in PC12 cells. Possible initiation and/or elongation defects during the translation of NR1 mRNAs were investigated by cyclohexamide treatment. The marked decline in the number of ribosomes associated with NR1 mRNA after prolonged exposure to cyclohexamide suggested that initiation was limiting translation of NR1 mRNA in PC12 cells. Consequently, the effect of the 5' and 3' untranslated regions (UTRs) on translation was examined using fusion constructs consisting of the luciferase coding region fused to either or both the 5' UTR and 3' UTR of NR1. The transfection of PC12 cells with the luciferase NR1-UTR fusion constructs revealed that the 3' UTR of NR1 had a significant inhibitory effect on luciferase expression. In contrast, the 5' UTR of NR1 had no inhibitory effect on mRNA translation in PC12 cells. The results from this study indicate that the translation of NR1 mRNA in PC12 cells may be impeded at initiation and this inhibition may be regulated at least in part through the 3' UTR of NR1.     

T15-idiotype-negative B cells dominate the phosphocholine binding cells in the preimmune repertoire of T15i knockin mice.

T15i knockin (KI) mice express a H chain that is encoded by a rearranged T15 VDJ transgene which has been inserted into the J(H) region of chromosome 12. This T15H chain combines with a kappa22-33 L chain to produce a T15-Id+ Ab having specificity for phosphocholine (PC). Inasmuch as T15-Id+ Abs dominate the primary immune response to PC in normal mice, it was surprising to find that 80% of the PC-dextran-binding B cells in unimmunized homozygous T15i KI mice were T15-Id-. Analysis of L chains expressed in these T15-Id-, PC-specific B cells revealed that two L chains, kappa8-28 and kappa19-15, were expressed in this population. The V(kappa) region of these L chains was recombined to J(kappa)5, which is typical of L chains present in PC-specific Abs. When T15i KI mice were immunized with PC Ag, T15-Id+ B cells expanded 6-fold and differentiated into Ab-secreting cells. There was no indication that the T15-Id- B cells either proliferated or differentiated into Ab-secreting cells following immunization. Thus, T15-Id- B cells dominate the PC-binding population, but they fail to compete with T15-Id+ B cells during a functional immune response. Structural analysis of T15H:kappa8-28L and T15H:kappa19-15L Abs revealed L chain differences from the kappa22-33 L chain which could account for the lower affinity and/or avidity of these Abs for PC or PC carrier compared with the T15-Id+ T15H:kappa22-33L Ab.     

酒精促PC12细胞凋亡及对神经鞘磷脂合酶表达和活性的影响

目的 观察酒精诱导PCI2细胞凋亡及其凋亡过程中神经鞘磷脂合酶活性和mRNA表达量的变化.方法 MTr法测定酒精对PCI2细胞增殖的抑制作用.Hoeelmt33258染色荧光显微镜观察PCI2细胞凋亡形态学变化.DNA琼脂糖凝胶电泳检测细胞凋亡梯状DNA条带.RT-PCR法检测酒精对PCI2细胞SMSI和SMS2 mRNA表达的影响.薄层层析法测定SMS的活性.结果 PCI2细胞去血清培养24 h,酒精浓度在100、200、400和800 mmoL/L时,细胞存活率分别是单纯去血清的87.54%、70.73%、57.89%和51.70%,表现出较强的细胞增殖抑制作用（P〈0.05）;细胞核形态学变化显示酒精处理组凋亡细胞增多,表现染色质凝集,细胞核变小、核碎裂成碎片等典型细胞凋亡特征性变化,凋亡率随着酒精浓度的增大而升高,去血清组的酒精浓度为100、200和300 mmol/L时,细胞凋亡率呈剂量依赖关系;琼脂糖凝胶电泳可见酒精处理组有不同程度的DNA断裂,显示凋亡细胞典型的梯状DNA.RT-PCR检测酒精对PCI2细胞SMS转录水平结果显示,不同浓度酒精作用于PCI2细胞0.5 h,SMSI表达量无显著变化,当作用时间达1h和2 h,SMSl表达量显著增加,并呈剂量依赖性,而SMS2的mRNA表达则不受酒精作用的影响;薄层层析法检测细胞总SMS活性显示,不同浓度酒精作用2 h,细胞SMS活性随酒精浓度增加而升高.结论 酒精可导致PCI2细胞凋亡并与酒精浓度呈正相关.酒精致PCI2细胞凋亡过程中SMSl的mRNA表达量增高,酶活性增强,提示酒精致PCI2细胞凋亡作用与鞘磷脂循环有关.     

A cis and trans adenine-dependent hairpin ribozyme against Tpl-2 target

Ribozymes are catalytic RNAs that possess the property of cutting an RNA target via site-specific cleavage after sequence-specific recognition. Ribozymes can moreover cleave multiple substrate molecules. An increasing number of studies show that ribozymes are particularly well adapted tools against cancer, silencing or down-regulating gene expression at the RNA level. We have constructed an adenine-dependent hairpin ribozyme that cleaves the sequence at nucleotides A(225)(downward arrow)G(226) relative to the start codon of translation of the Tpl-2 kinase mRNA; this serine/threonine kinase activates the mitogen-activated protein kinase pathway implicated in cell proliferation in breast cancer. An adenine-dependent hairpin ribozyme 1 (ADHR1) was previously isolated using the Systematic Evolution of Ligands by EXponential enrichment procedure. Switch on/switch off ribozymes are particularly useful since high amounts of stable ribozyme can be produced in the absence of adenine and the ribozyme specifically cleaves its target in the presence of adenine. The ADHR1 target sequence was replaced by a sequence derived from the Tpl-2 kinase mRNA. The resulting Tpl-2 ribozyme is active in cis cleavage: kinetic studies have been performed as a function of Mg2+ concentration, adenine concentration, as well as at different pH and with various cofactors. Finally, the Tpl-2 ribozyme was shown to cleave its target in trans successfully. These findings demonstrate that a potential therapeutic ribozyme can be produced by simple sequence modification.     

Nerve growth factor inhibits PC12 cell PDE 2 phosphodiesterase activity and increases PDE 2 binding to phosphoproteins

Nerve growth factor (NGF) has been shown to increase cyclic AMP in PC12 cells and to potentiate the actions of other agents that raise cyclic AMP. In our studies, NGF causes over 50% loss of PDE 2 activity (cyclic GMP-stimulated cyclic nucleotide phosphodiesterase) in PC12 cells within 24 h. After 72 h of NGF treatment, cyclic AMP hydrolysis in PC12 extracts is no longer cyclic GMP-stimulated. NGF deprivation increases the phosphodiesterase activity of treated cells. NGF does not decrease either PDE 2 mRNA or immunoreactivity of PDE 2A2 protein. Incubation of whole cells with micromolar Na(3)VO(4) mimics NGF treatment, reducing PDE 2 activity in PC12 cells by over 50% after 24 h, suggesting a phosphoprotein-mediated regulation of PDE 2 activity. Protein kinase inhibitor effects were difficult to assess due to their direct interaction with the PDE in cell lysates. To study phosphorylation in PDE 2 regulation, PDE 2A2 was epitope-tagged, and stable clonal PC12 cell transfectants were isolated (PC12B cells). When combined with metabolically labeled (32)P-phosphoproteins in vivo or in vitro, phosphoproteins of 108, 90, 64, 43, 33 and 19 kDa coprecipitated with epitope-tagged PDE 2A2 in an NGF sensitive manner. A 23-kDa phosphoprotein containing immunoreactive phosphoserine associated with the complex in an NGF independent manner. Phosphothreonine plus phosphotyrosine immunoreactivity at 23, 24, and 64 kDa as well as the phosphotyrosine immunoreactivity at 108, 90, 64, 43, 33, and 19 kDa required NGF or orthovanadate treatment. These proteins are hypothesized to be part of an NGF-regulated complex controlling PDE 2A2 activity.     

Preparation of a cell-free translation system from PC12 cells

The postmitochondrial fraction (S10) contains the cellular components essential for translation, and a high-salt wash (HSW) of the ribosomes is enriched in eukaryotic initiation factors. This report describes the preparation of a cell-free translation system utilizing an S10 extract from PC12 cells. The products synthesized from either firefly luciferase mRNA or PC12 cell poly(A) RNAs in the PC12-S10 extract were increased by the addition of the HSW from PC12 cells. Increases in the translation of luciferase mRNA by the addition of PC12-HSW were dose-dependent and also dependent on the time of incubation. The translation of human epidermal growth factor receptor (hEGFR) mRNA could also be detected in the PC12-S10 extract translation system by immunoprecipitation.N-linked glycosylation of the translation products also was observed. The efficiency of translation was altered by the addition of Mg²⁺ or K⁺, and optimization of the concentrations of these ions was necessary for each mRNA. The translation system made from PC12 cells, then, is capable of the synthesis of proteins of relatively high molecular weight and should be useful for analyzing mechanisms of translational control during proliferation and differentiation of cells from a neuronal lineage. Special issue dedicated to Dr. Hans Thoenen.