Preconditioning with cortical spreading depression does not upregulate Cu/Zn-SOD or Mn-SOD in the cerebral cortex of rats

Previous studies have demonstrated that preconditioning the brain with cortical spreading depression (CSD) induces tolerance to a subsequent episode of ischemia. In other models of preconditioning, induction of ischemic tolerance has been associated with increased expression of the antioxidant enzyme, superoxide dismutase (SOD). The objective of the present study was to determine whether CSD upregulates Cu/Zn-SOD or Mn-SOD. CSD was induced in one hemisphere by applying 2 M KCl to the frontal cortex in Wistar rats. After 2 or 24 h of recovery, Cu/Zn-SOD and Mn-SOD mRNA levels were determined in both hemispheres using Northern blot analysis. In separate rats, Cu/Zn-SOD and Mn-SOD protein levels were determined 24 and 72 h after CSD using Western blot analysis. In addition, total SOD, Cu/Zn-SOD and Mn-SOD enzymatic activities were measured 24 and 72 h after CSD using spectrophotometric and zymographic assays. At the times investigated, no significant differences in mRNA or protein levels for Cu/Zn-SOD or Mn-SOD were observed between the ipsilateral and contralateral cortex. Further, there were no significant differences in Cu/Zn-SOD or Mn-SOD enzymatic activities between the two hemispheres at 24 or 72 h after CSD. In addition, CSD did not alter the activities of Cu/Zn-SOD or Mn-SOD in either hemisphere, relative to those in unoperated animals. Taken together, these results fail to support the hypothesis that CSD-induced tolerance is mediated through the upregulation of Cu/Zn-SOD or Mn-SOD.

Dose-dependent induction of mRNAs encoding brain-derived neurotrophic factor and heat-shock protein-72 after cortical spreading depression in the rat

Previous studies have demonstrated that cortical spreading depression (CSD) increases the expression of putative neuroprotective proteins. The objective of the present study was to elucidate the relationship between the number of episodes of CSD and steady-state levels of mRNAs encoding brain-derived neurotrophic factor (BDNF), heat-shock protein-72 (hsp72) and c-fos. Wistar rats were administered one, five, or twenty-five episodes of CSD evoked by application of 2 M KCl to the frontal cortex of one hemisphere. Animals were permitted to recover for 30 min, 2 h or 24 h prior to sacrifice. Total RNA was isolated from the parietal cortex of each hemisphere and analyzed using Northern blots. At 30 min recovery, levels of BDNF mRNA were not significantly elevated after 1 episode of CSD, but were increased 4-fold after five episodes of CSD and 11-fold after twenty-five episodes of CSD, relative to levels in the contralateral hemisphere. At 2 h recovery, BDNF mRNA levels increased 2-, 3- and 9-fold, respectively. At 24 h, BDNF mRNA had returned to control levels in all groups. Thus, CSD increased levels of BDNF mRNA in a dose-dependent fashion at the early recovery times. Hsp72 mRNA was below the level of detection after 1 and 5 episodes of CSD. However, after twenty-five episodes of CSD, hsp72 mRNA levels were increased in the ipsilateral hemisphere at 30 min and 2 h recovery. Unlike levels of BDNF and hsp72 mRNA, levels of c-fos mRNA were increased nearly to the same extent at 30 min and 2 h after one, five or twenty-five episodes of CSD before returning to control by 24 h recovery. These results demonstrate that CSD triggers a dose-dependent increase in the expression of genes encoding neuroprotective proteins, which may mediate tolerance to ischemia induced by CSD.

In vivo protein expression from mRNA delivered into adult rat brain

The expression of proteins after local mRNA delivery has a great potential for analysis of protein function in vivo. To explore the feasibility of such a technique within the central nervous system (CNS), we delivered luciferase-encoding mRNA into the rat brain. The tissue distribution and stability of injected mRNA were analyzed using in situ detection and Northern hybridization, while luciferase expression was measured by enzymatic assay. Following intracerebral injection of lipofectin-complexed mRNA, expression of luciferase was detectable as early as 1 h, was maximal at 2-3 h, but was below the level of detection by 24 h. The extent of luciferase expression correlated with the amount of mRNA delivered. Luciferase expression was higher when lipofectin-complexed rather than naked mRNA was injected. In addition, the luciferase expression increased significantly by adding a 50 nt-long poly(A) tail to the 3'-end of the mRNA. Delivering mRNA to the cerebral cortex or hippocampus resulted in measurable luciferase activity at the injection sites but not in adjacent areas. Accordingly, the luciferase mRNA was also localized to the injection site, and the amount of intact transcript was significantly higher at 3 h compared to 24 h after injection. These results demonstrate that in vivo mRNA delivery is a feasible technique for immediate, transient overexpression of desired proteins in the CNS and, therefore, can serve as a model system to study the neurobiological effects of specific proteins.

HIV gag mRNA transfection of dendritic cells (DC) delivers encoded antigen to MHC class I and II molecules, causes DC maturation, and induces a potent human in vitro primary immune response

Dendritic cells (DC) are the major APCs involved in naive T cell activation making them prime targets of vaccine research. We observed that mRNA was efficiently transfected, resulting in superior translation in DC compared with other professional APCs. A single stimulation of T cells by HIV gag-encoded mRNA-transfected DC in vitro resulted in primary CD4(+) and CD8(+) T cell immune responses at frequencies of Ag-specific cells (5-12.5%) similar to primary immune responses observed in vivo in murine models. Additionally, mRNA transfection also delivered a maturation signal to DC. Our results demonstrated that mRNA-mediated delivery of encoded Ag to DC induced potent primary T cell responses in vitro. mRNA transfection of DC, which mediated efficient delivery of antigenic peptides to MHC class I and II molecules, as well as delivering a maturation signal to DC, has the potential to be a potent and effective anti-HIV T cell-activating vaccine.

Overexpression of urokinase receptor in mammalian cells following administration of the in vitro transcribed encoding mRNA

The ability to overexpress physiologically important proteins in cultured mammalian cells after delivering the encoding mRNAs could have important applications for analyzing their in vivo functions. To explore the potential of this approach, urokinase-type plasminogen activator receptor (uPAR), a membrane protein extensively modified post-translationally, was selected. The uPAR-encoding mRNAs, containing different 5' and 3' untranslated regions (UTR) were tested in cultured human osteosarcoma (HOS) cells following a cationic lipid-mediated delivery. The most effective structure was the capped and polyadenylated transcript containing Xenopus beta-globin 5' and 3' UTRs. Delivering this mRNA to HOS cells resulted in a significant increase of uPAR expression in 89% of the cells, measured by flow cytometry. Using a radioligand binding assay, the increase in functional uPAR levels was found to be up eight- to 11-fold between 8 and 48 h and up three-fold at 72 h after delivery. A similar increase in uPAR levels was achievable in a number of mammalian cell lines. Surprisingly, poly(A)-tailed mRNA leading to a uPAR production highest in magnitude and duration did not demonstrate increased intracellular stability compared with other tested mRNAs. Thus, the exceptional translational performance is not likely the result of an increased mRNA half-life. These results demonstrate that, after delivery of selected mRNAs into mammalian cells, immediate and significant overexpression of a post-translationally modified protein is achievable.

Effect of cortical spreading depression on the levels of mRNA coding for putative neuroprotective proteins in rat brain

Previous studies have demonstrated that cortical spreading depression (CSD) induces neuronal tolerance to a subsequent episode of ischemia. The objective of the present investigation was to determine whether CSD alters levels of mRNA coding for putative neuroprotective proteins. Unilateral CSD was evoked in male Wistar rats by applying 2 mol/L KCl over the frontal cortex for 2 hours. After recovery for 0, 2, or 24 hours, levels of several mRNA coding for neuroprotective proteins were measured bilaterally in parietal cortex using Northern blot analysis. Levels of c-fos mRNA and brain-derived neurotrophic factor (BDNF) mRNA were markedly elevated at 0 and 2 hours, but not 24 hours after CSD. Tissue plasminogen activator (tPA) mRNA levels were also significantly increased at 0 and 2 hours, but not 24 hours after CSD. Levels of the 72-kDa heat-shock protein (hsp72) mRNA were not significantly increased by CSD, except for a small elevation (20%) at 2 hours recovery. Levels of the 73-kDa heat-shock cognate (hsc73) mRNA were slightly, but significantly, increased at 2 and 24 hours of recovery. Finally, levels of mRNA for protease nexin-1 and glutamine synthetase were not significantly altered by CSD at any time studied. The current results support the hypothesis that neuronal tolerance to ischemia after CSD may be mediated by increased expression of FOS, BDNF, or tPA, but not by increased expression of hsp72, hsc73, nexin-1, or glutamine synthetase.

Phosphate-enhanced transfection of cationic lipid-complexed mRNA and plasmid DNA

Cationic lipid-mediated gene transfer has been shown to be a competent albeit inefficient mechanism of promoting cellular gene transfer. One way to improve the efficacy of cationic lipid-mediated transgene expression is to optimize conditions for complex formation between the lipids and nucleic acids. In this report we describe the beneficial effects of using phosphate buffer to precondition lipofectin (a 1:1 (w/w) mixture of N-[1-(2,3-dioleyloxy)propyl]-n,n, n-trimethylammonium chloride (DOTMA), and dioleoyl phosphatidylethanolamine (DOPE)) prior to complexing with plasmid DNA or mRNA. Under such optimized conditions we studied the kinetics of DNA- and RNA-mediated transgene expression in a human osteosarcoma cell line (HOS). Preincubation of lipofectin in phosphate buffer resulted in up to 26- and 56-fold increases in luciferase expression from plasmid DNA and mRNA, respectively. Addition of chloroquine (50 microM), which enhanced plasmid-mediated gene delivery 3-fold, was synergistic with phosphate resulting in an additional 46-fold increase in luciferase expression. The preincubation with phosphate shortened both the time required for cellular uptake and the time to achieve maximal transgene expression. Optimal transfection was achieved in the presence of 30-80 mM phosphate, at pH 5.6-6.8 under which the phosphate anion is divalent. The effect of phosphate anion was specific in that monovalent Cl- and acetate anions were not stimulatory. These results demonstrate that divalent phosphate anion plays a stimulatory role during complex formation and transfection when cationic lipids come in contact with negatively charged nucleic acids and cell membranes. These findings delineate specific conditions which dramatically enhance transfection efficiency for both DNA and mRNA, and provide an effective procedure for gene transfection studies.

Sequence analysis of the 5.34-kb 5' flanking region of the human rhodopsin-encoding gene

In order to define elements which may be involved in regulating human rhodopsin expression, we have isolated and sequenced a clone containing 5.34 kb of the 5'-upstream region of the human rhodopsin-encoding gene. The 5.34-kb human segment contains multiple potential transcription factor-binding sites and a subfamily of Alu repeats. The same subfamily of Alu repeats is found 5.8 kb upstream from the human red/green visual pigment-encoding gene.

Stimulatory effect of unsaturated fatty acids on the level of plasminogen activator inhibitor-1 mRNA in cultured human endothelial cells

To determine whether unsaturated fatty acids induce changes in the mRNA level of plasminogen activator inhibitor type-1 (PAI-1), Northern analyses were performed on human umbilical vein endothelial cells (HUVEC) and vascular smooth muscle cells that were treated with two common fatty acids. Supplementation of cultured HUVEC with docosahexanoic acid (DHA) or with dihomogamma linolenic acid (DGLA), resulted in a concentration dependent, specific increase of the PAI-1 transcript levels, which was detectable within 2 h. DHA and DGLA treatment of smooth muscle cells did not result in changes in the PAI-1 mRNA levels. Homology search of the upstream regulatory region of the PAI-1 gene sequences identified a consensus nucleotide sequence for a fatty acid-responsive element. Our results indicate that unsaturated fatty acids selectively increase PAI-1 mRNA levels in endothelial cells, the primary source of circulating PAI-1 in vivo.

Lipofectin-aided cell delivery of ribozyme targeted to human urokinase receptor mRNA

A 37-mer hammerhead ribozyme has been designed to efficiently cleave the 1.4 kb mRNA of the urokinase plasminogen activator receptor (uPAR). Under in vitro conditions, the chemically synthesized ribozyme cleaved uPAR mRNA and inhibited its translation in a concentration-dependent fashion. The ribozymes were 5'-[35S]thiophosphorylated and used as a model to analyze conditions for RNA delivery in a cultured human osteosarcoma cell system. Ribozymes degraded immediately in cell-conditioned medium but ribozymes complexed with lipofectin were protected from RNases for up to 22 h. Lipofectin rapidly transported ribozyme into the cell, where it accumulated almost exclusively in the cytoplasm. Thus, lipofectin dramatically enhances stability and cytoplasmic delivery of ribozymes, potentially enabling targeting of mRNA in vivo.

Rapid method for screening and cloning cDNAs generated in differential mRNA display: application of northern blot for affinity capturing of cDNAs

Images

Overexpression of urokinase receptor increases matrix invasion without altering cell migration in a human osteosarcoma cell line

Proteolysis triggered by receptor-bound urokinase-type plasminogen activator (uPA) involves a cascade of species-specific molecular interactions. To study the role of the uPA receptor (uPAR) in such interactions, a human osteosarcoma cell line (HOS), which normally expresses low levels of uPAR, was transfected with human uPAR complementary DNA. One of several stably transformed clonal cells lines, designated 2A2, was characterized and compared to the parental HOS, revealing the following: (a) stable incorporation of uPAR complementary DNA into the genome demonstrated by Southern blot analysis; (b) a 10-fold increase in steady state mRNA levels of uPAR assessed by Northern blot analysis; (c) a 2-fold increase in the surface expression of glycosylphosphatidylinositol anchored uPAR protein determined by enzyme-linked immunosorbent assay and by the specific binding of radiolabeled single chain uPA; (d) a 2-fold increase in internalization and degradation of radiolabeled uPA/PAI-1 complexes; and (e) a 2-fold increase in receptor-bound uPA-mediated plasmin generation measured by the cleavage of a chromogenic substrate and degradation of 125I-labeled laminin. The involvement of uPAR in cellular processes was determined by comparing 2A2 and HOS cells in in vitro migration and invasion assays. The migration of 2A2 cells were slower on fibronectin-coated surfaces in a linear under-agarose assay, but both cell lines migrated at the same rate on uncoated polycarbonate filters in Boyden chamber assays. In the invasion experiments, 4 times more 2A2 than HOS cells penetrated through the barrier of reconstituted basement membrane Matrigel. These data suggest that uPAR does not potentiate random cell migration but facilitates matrix degradation and subsequent cell invasion.

Characterization of urokinase receptor expression by human placental trophoblasts

The processes of implantation and placentation are both dependent on the invasion and remodeling of the uterine endometrium and vasculature by trophoblasts. Because the secretion and autocrine binding of urokinase (uPA) appears to be a common mechanism used by cells to facilitate plasmin-dependent tissue invasion, we measured the production of uPA and expression of uPA receptors by trophoblasts. Prourokinase bound specifically, reversibly, and with high affinity to cultured trophoblasts, via the uPA epidermal growth factor-like domain. Trophoblasts derived from two first-trimester placentae bound more prourokinase than cells isolated from term placentae. Furthermore, in vitro differentiation of cultured cytotrophoblasts into syncytiotrophoblasts was associated with diminished expression of urokinase receptors and a parallel decrease in the cellular content of uPA receptor mRNA. Trophoblasts also secreted prourokinase and plasminogen activator inhibitors types 1 and 2 (PAI-1 and PAI-2). Although prourokinase was secreted in amounts sufficient to endogenously saturate trophoblast uPA receptors, trophoblasts secreted greater amounts of PAI-1 and PAI-2 than uPA, and no net plasminogen activator activity was detected in trophoblast conditioned medium. In contrast, plasminogen added directly to cultured trophoblasts was readily converted to plasmin. Although the invasion and remodeling of uterine tissues by trophoblasts is a complex process dependent on several proteases of varying specificity, our findings suggest that the expression and modulation of urokinase receptors on the trophoblast cell surface may play an important role in this process.

Characterization of human endothelial cell urokinase-type plasminogen activator receptor protein and messenger RNA

Human umbilical vein endothelial cells in culture (HUVEC) express receptors for urokinase-type plasminogen activators (u-PA). The immunochemical nature of this receptor and its relationship to u-PA receptors expressed by other cell types is unknown. Cross-linking active site-blocked u-PA to HUVEC lead to an increase in its apparent molecular mass by approximately 40 Kd. The predominant u-PA binding protein isolated from whole cell detergent extracts migrated with a molecular mass of approximately 36 Kd using affinity chromatography. In contrast, when only cell surface proteins were radiolabeled before extraction, the predominant labeled u-PA binding protein isolated migrated with a molecular mass of approximately 46 Kd. Several pieces of evidence suggested that the difference in molecular mass between these two u-PA binding proteins resulted from glycosylation of a single receptor protein. First, a polyclonal antibody against u-PA receptor isolated from phorbol myristate acetate (PMA) stimulated U-937 cells reacted with both the 36- and 46-Kd proteins on Western blotting. Second, the size of the unmodified receptor was estimated by amplifying a full-length cDNA for u-PA receptor from an endothelial cell cDNA library using the polymerase chain reaction (PCR) and oligonucleotide primers corresponding to the DNA sequence of the receptor cloned from transformed human fibroblasts (Roldan et al, EMBO J 9:467, 1990). The size of the cDNA (approximately 1,054 base pairs, bp) and the presence of a single 1.4-kilobase (Kb) mRNA transcript on Northern blot analysis predict an unglycosylated receptor protein of approximately 35 Kd. Third, synthesis of 35S-labeled 46-Kd cell surface receptor protein was inhibited when the cells were grown in the presence of tunicamycin, while the synthesis of the 36-Kd species was unaffected. Moreover, the apparent molecular mass of purified surface-labeled receptor (approximately 46 Kd) was reduced by N-glycanase. These studies suggest that the u-PA receptor on the surface of HUVEC is a glycoprotein derived from a protein of approximately 35 Kd which is similar immunologically to u-PA receptors on other cell types.

Interaction of single-chain urokinase-type plasminogen activator with human endothelial cells

The interaction of urokinase-type plasminogen activators with receptors on the surface of endothelial cells may play an important role in the regulation of fibrinolysis and cell migration. Therefore, we investigated whether human umbilical vein endothelial cells (HUVEC) express receptors for single-chain urokinase (scu-PA) on the cell surface and examined the effect of such binding on plasminogen activator activity. Binding of 125I-labeled scu-PA to HUVEC, performed at 4 degrees C, was saturable, reversible, and specific (k+1 4 +/- 1 X 10(6) min-1 M-1, k-1 6.2 +/- 1.4 X 10(-3) min-1, Kd 2.8 +/- 0.1 nM; Bmax 2.2 +/- 0.1 X 10(5) sites/cell; mean +/- S.E.). Binding of radiolabeled scu-PA was inhibited by both natural and recombinant wild-type scu-PA, high molecular weight two-chain u-PA (tcu-PA), catalytic site-inactivated tcu-PA, an amino-terminal fragment of u-PA (amino acids 1-143), and a smaller peptide (amino acids 4-42) corresponding primarily to the epidermal growth factor-like domain. Binding was not inhibited by low molecular weight urokinase or by a recombinant scu-PA missing amino acids 9-45. Cell-bound scu-PA migrated at its native molecular mass on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In the presence of plasminogen, scu-PA bound to endothelial cells generated greater plasmin activity than did scu-PA in the absence of cells. In contrast, when tcu-PA was added directly to HUVEC, sodium dodecyl sulfate-stable complexes formed with cell or matrix-associated plasminogen activator inhibitors with a loss of plasminogen activator activity. These studies suggest that endothelial cells in culture express high affinity binding sites for the epidermal growth factor domain of scu-PA. Interaction of scu-PA with these receptors may permit plasminogen activator activity to be expressed at discrete sites on the endothelial cell membrane.

2- and 8-azido photoaffinity probes. 1. Enzymatic synthesis, characterization, and biological properties of 2- and 8-azido photoprobes of 2-5A and photolabeling of 2-5A binding proteins

The 2- and 8-azido trimer 5'-triphosphate photoprobes of 2-5A have been enzymatically synthesized from [gamma-32P]2-azidoATP and [alpha-32P]8-azidoATP by 2-5A synthetase from rabbit reticulocyte lysates. Identification and structural determination of the 2- and 8-azido adenylate trimer 5'-triphosphates were accomplished by enzymatic hydrolyses with T2 RNase, snake venom phosphodiesterase, and bacterial alkaline phosphatase. Hydrolysis products were identified by HPLC and PEI-cellulose TLC analyses. The 8-azido photoprobe of 2-5A displaces p3A4[32P]pCp from RNase L with affinity equivalent to p3A3 (IC50 = 2 X 10(-9) M in radiobinding assays). The 8-azido photoprobe also activates RNase L to hydrolyze poly(U) [32P]pCp 50% at 7 X 10(-9) M in core-cellulose assays. The 2- and 8-azido photoprobes and authentic p3A3 activate RNase L to cleave 28S and 18S rRNA to specific cleavage products at 10(-9) M in rRNA cleavage assays. The nucleotide binding site(s) of RNase L and/or other 2-5A binding proteins in extracts of interferon-treated L929 cells were investigated by photoaffinity labeling. Dramatically different photolabeling patterns were observed with the 2- and 8-azido photoprobes. The [gamma-32P]2-azido adenylate trimer 5'-triphosphate photolabels only one polypeptide with a molecular weight of 185,000 as determined by SDS gel electrophoresis, whereas the [alpha-32P]8-azido adenylate trimer 5'-triphosphate covalently photolabels six polypeptides with molecular weights of 46,000, 63,000, 80,000, 89,000, 109,000, and 158,000. Evidence that the photolabeling by 2- and 8-azido 2-5A photoprobes was highly specific for the p3A3 allosteric binding site was obtained as follows.(ABSTRACT TRUNCATED AT 250 WORDS)

Decreased Epstein-Barr virus-induced transformation, and elevated 2-5A synthetase and RNase L activity in peripheral blood mononuclear cells from patients treated with recombinant interferon alfa 2b

Patients with cutaneous T-cell lymphoma (CTCL) were treated with recombinant alfa 2b interferon (rIFN alfa 2b) by intramuscular injection. Therapy-induced changes in Epstein-Barr virus (EBV) induced transformation of patient peripheral blood lymphocytes, 2',5' oligoadenylate (2-5A) synthetase levels and RNase L activation in peripheral blood mononuclear cells were monitored. Inhibition of EBV-induced transformation and elevation of 2-5A synthetase levels correlated with increased activation of RNase L, which provides evidence that intramuscular administration of rIFN alfa 2b induces a sustained anti-EBV state in CTCL patient peripheral blood mononuclear cells which can be detected in vitro.

Phosphorothioate analogues of 2',5'-oligoadenylate. Activation of 2',5'-oligoadenylate-dependent endoribonuclease by 2',5'-phosphorothioate cores and 5'-monophosphates

The preceding paper in this issue described the synthesis and structural elucidation of the phosphorothioate analogues of 2',5'-oligoadenylate (2-5A) dimer and trimer cores [Karikó, K., Sobol, R. W., Jr., Suhadolnik, L., Li, S. W., Reichenbach, N. L., Suhadolnik, R. J., Charubala, R., & Pfleiderer, W. (1987) Biochemistry (preceding paper in this issue)]. In this report, the binding and activation processes of 2-5A-dependent endoribonuclease (RNase L) have been examined by using four diastereomeric 2',5'-phosphorothioate trimer core analogues and their 5'-monophosphates. These 2',5'-phosphorothioates have revealed a distinct separation of the structural parameters that govern binding vs activation of RNase L. Radiobinding assays have demonstrated that extensive stereochemical modification of the internucleotide linkages of 2-5A is possible without adversely affecting its ability to bind to RNase L. However, a marked difference was observed in the activation of RNase L by the stereochemically modified 2-5A molecules as determined in core--cellulose and rRNA cleavage assays. Three of the four 2',5'-phosphorothioate trimer cores (with RpRp,SpRp, and RpSp internucleotide linkages) are the first 2-5A core molecules able to activate RNase L. For example, the RpRp, SpRp, and RpSp diastereoisomers activate RNase L to hydrolyze poly(U)-3'-[32P]pCp 65%, 20%, and 15%, respectively, at 5 X 10(-5) M. The SpSp diastereomer cannot activate RNase L. The order of RNase L activation was the same for the core analogues and their 5'-monophosphates (RpRp greater than SpRp greater than RpSp).(ABSTRACT TRUNCATED AT 250 WORDS)

Phosphorothioate analogues of 2',5'-oligoadenylate. Enzymatically synthesized 2',5'-phosphorothioate dimer and trimer: unequivocal structural assignment and activation of 2',5'-oligoadenylate-dependent endoribonuclease

In continued studies to elucidate the requirements for binding to and activation of the 2',5'-oligoadenylate-dependent endoribonuclease (RNase L), chirality has been introduced into the 2',5'-oligoadenylate (2-5A, p3An) molecule to give the Rp configuration in the 2',5'-internucleotide backbone and the Sp configuration in the alpha-phosphorus of the pyrophosphoryl moiety of the 5'-terminus. This was accomplished by the enzymatic conversion of (Sp)-ATP alpha S to the 2',5'-phosphorothioate dimer and trimer by the 2-5A synthetase from lysed rabbit reticulocytes. The most striking finding reported here is the ability of the 2',5'-phosphorothioate dimer 5'-triphosphate (i.e., p3A2 alpha S) to bind to and activate RNase L. p3A2 alpha S displaces the p3A4[32P]pCp probe from RNase L with an IC50 of 5 X 10(-7) M, compared to an IC50 of 5 X 10(-9) M for authentic p3A3. Further, p3A2 alpha S activates RNase L to hydrolyze poly(U)-3'-[32P]pCp (20% at 2 X 10(-7) M), whereas authentic p3A2 is unable to activate the enzyme. Similarly, the enzymatically synthesized p3A2 alpha S at 10(-6) M activated RNase L to degrade 18S and 28S rRNA, whereas authentic p3A2 was devoid of activity. p3A3 alpha S was as active as authentic p3A3 in the core--cellulose and rRNA cleavage assays. The absolute structural and configurational assignment of the enzymatically synthesized p3A2 alpha S and p3A3 alpha S was accomplished by high-performance liquid chromatography, charge separation, enzymatic hydrolyses, and comparison to fully characterized chemically synthesized (Rp)- and (Sp)-2', 5'-phosphorothioate dimer and trimer cores.(ABSTRACT TRUNCATED AT 250 WORDS)

Phosphorothioate analogues of 2',5'-oligoadenylate. Enzymatic synthesis, properties, and biological activities of 2',5'-phosphorothioates from adenosine 5'-O-(2-thiotriphosphate) and adenosine 5'-O-(3-thiotriphosphate)

The chiral and achiral phosphorothioate analogues of 2',5'-oligoadenylates (2-5A) have been enzymatically synthesized from the Sp and Rp isomers of adenosine 5'-O-(2-thiotriphosphate) [(Sp)-ATP beta S and (Rp)-ATP beta S, respectively] and adenosine 5'-O-(3-thiotriphosphate) (ATP gamma S) by 2-5A synthetase from L929 cells and lysed rabbit reticulocytes. These 2',5'-phosphorothioate analogues were separated, purified, and structurally characterized. While ATP gamma S and (Sp)-ATP beta S were as efficient substrates for the 2-5A synthetase as was ATP, (Rp)-ATP beta S was more than 50-fold less efficient a substrate. The beta- and gamma-phosphorothioates were more resistant to enzymatic hydrolysis than was authentic 2-5A. Compared to 2-5A, there were marked differences in the biological activities of the 2',5'-phosphorothioates as determined by (i) binding to 2-5A-dependent endoribonuclease (RNase L), (ii) activation of RNase L to hydrolyze RNA, and (iii) inhibition of protein synthesis in intact L929 cells. These studies extend previous reports on the elucidation of the stereochemical requirements of 2-5A synthetase and RNase L [Karikó, K., Sobol, R. W., Jr., Suhadolnik, L., Li, S. W., Reichenbach, N. L., Suhadolnik, R. J., Charubala, R., & Pfleiderer, W. (1987) Biochemistry (first of three papers in this issue); Karikó, K., Li, S. W., Sobol, R. W., Jr., Suhadolnik, R. J., Charubala, R., & Pfleiderer, W. (1987) Biochemistry (second of three papers in this issue)] with the phosphorothioate analogues of 2-5A.(ABSTRACT TRUNCATED AT 250 WORDS)

n-Decyl-NHpppA2'p5'A2'p5'A A phosphatase-resistant, active pppA2'p5'A2'p5'A analog

n-Decyl-NHpppA2'p5'A2'p5'A, a gamma-substituted, phosphatase-resistant pppA2'p5'A2'p5'A analog, gives similar rRNA degradation pattern in interferon-treated HeLa cell extracts--even at a concentration of 10(-9)M--as the natural compound does.