Effect Of Double-stranded RNA Research Articles

Initiation of a ZAKα-dependent ribotoxic stress response by the innate immunity endoribonuclease RNase L

RNase L is an endoribonuclease of higher vertebrates that functions in antiviral innate immunity. Interferons induce oligoadenylate synthetase enzymes that sense double-stranded RNA of viral origin leading to the synthesis of 2',5'-oligoadenylate (2-5A) activators of RNase L. However, it is unknown precisely how RNase L remodels the host cell transcriptome. To isolate effects of RNase L from other effects of double-stranded RNA or virus, 2-5A is directly introduced into cells. Here, we report that RNase L activation by 2-5A causes a ribotoxic stress response involving the MAP kinase kinase kinase (MAP3K) ZAKα, MAP2Ks, and the stress-activated protein kinases JNK and p38α. RNase L activation profoundly alters the transcriptome by widespread depletion of mRNAs associated with different cellular functions but also by JNK/p38α-stimulated induction of inflammatory genes. These results show that the 2-5A/RNase L system triggers a protein kinase cascade leading to proinflammatory signaling and apoptosis.

Characteristic of the active substance of the Saccharomyces cerevisiae preparation having radioprotective properties

В работе охарактеризованы некоторые биологические особенности радиопротекторного действия препарата двуцепочечной РНК. Обнаружено, что препарат дрожжевой РНК обладает пролонгированным радиопротекторным действием при облучении животных летальной дозой в 9.4 Гр. При облучении через 1 ч и на 4-е сутки после введения 7 мг препарата РНК выживает 100 % животных на 70-е сутки наблюдения, при облучении на 8-е и 12-е сутки – 60 % животных. Были оценены временные параметры процесса репарации двуцепочечных разрывов, индуцированных γ-лучами. Выявлено, что введение препарата РНК в момент максимального количества двуцепо- чечных разрывов, через 1 ч после облучения, снижает эффективность радиопротекторного действия по сравнению с введением за 1 ч до облучения и через 4 ч после облучения. Проведено сравнение эффективности радиозащит- ного действия штатного радиопротектора Б-190 и препарата РНК в одном эксперименте. Установлено, что препарат суммарной РНК не уступает по эффективности препарату Б-190. Выживаемость на 40-е сутки после облучения для группы мышей, получавших препарат РНК, составила 78 %, для Б-190 – 67 % животных. В ходе аналитических иссле- дований препарата суммарной РНК дрожжей обнаружилось, что препарат представляет собой смесь одноцепочеч- ной и двуцепочечной РНК. Радиопротекторными свойствами обладает только двуцепочечная РНК. При введении 160 мкг препарата двуцепочечной РНК выживает 100 % подопытных животных после абсолютно летальной дозы гамма-радиации 9.4 Гр. Установлено, что радиозащитный эффект двуцепочечной РНК зависит не от последователь- ности, а от ее двуцепочечной формы, причем для осуществления радиопротекторного действия двуцепочечная РНК должна иметь «открытые» концы молекулы. Предполагается, что радиозащитное действие препарата двуцепочеч- ной РНК связано с участием молекул РНК в корректном восстановлении поврежденного облучением хроматина в стволовых клетках крови. Сохранившие жизнеспособность стволовые гемопоэтические клетки мигрируют на пери- ферию и достигают селезенки, где активно пролиферируют. Вновь образовавшаяся клеточная популяция восстанав- ливает кроветворную и иммунную системы, что определяет выживание летально облученных животных.

Characterization of biological peculiarities of the radioprotective activity of double-stranded RNA isolated from Saccharomyces сerevisiae

The purpose of the article Protection from ionizing radiation is the most important component in the curing malignant neoplasms, servicing atomic reactors, and resolving the situations associated with uncontrolled radioactive pollutions. In this regard, discovering new effective radioprotectors as well as novel principles of protecting living organisms from high-dose radiation is the most important factor, determining the new approaches in medical and technical usage of radiation. Materials and methods Experimental animals were irradiated on the γ-emitter (Cs137) with a dose of 9.4 Gy. Radioprotective properties of several agents (total RNA, single-stranded RNA, double-stranded RNA and B-190) were estimated by the survival/death rates of experimental animals within 30–90 d. Pathomorphological examination of internal organs end electron microscope assay was done on days 9–12 after irradiation. Cloning and other molecular procedures were performed accordingly to commonly accepted protocols. For assessment of the internalization of labeled nucleic acid, bone marrow cells were incubated with double-stranded RNA labeled with 6-FAM fluorescent dye. Cells with internalized double-stranded RNA were assayed using Axio Imager M1 microscope. In the other experiment, bone marrow cells after incubation with double-stranded RNA were stained with Cy5-labeled anti-CD34 antibodies and assayed using Axioskop 2 microscope. Results In this study, several biological features of the radioprotective action of double-stranded RNA are characterized. It was shown that 160 µg of the double-stranded RNA per mouse protect experimental animals from the absolutely lethal dose of γ-radiation of 9.4 Gy. In different experiments, 80–100% of irradiated animals survive and live until their natural death. Radioprotective properties of double-stranded RNA were found to be independent on its sequence, but strictly dependent on its double-stranded form. Moreover, double-stranded RNA must have ‘open’ ends of the molecule to exert its radioprotective activity. Conclusions Experiments indicate that radioprotective effect of double-stranded RNA is tightly bound to its internalization into hematopoietic stem cells, which further repopulate the spleen parenchyma of irradiated mice. Actively proliferating progenitors form the splenic colonies, which further serve as the basis for restoration of hematopoiesis and immune function and determine the survival of animals received the lethal dose of radiation.

Oxygen-glucose deprivation inducing B1 RNA inhibits neuronal cells metabolic activity by NLRP3 and associated proinflammatory cytokines production

Cerebral ischemia occurs when blood flow to part of the brain is obstructed, which can result in oxygen and glucose deprivation (OGD) and neuronal damage. However, the mechanisms remain poorly understood. The present study investigated the production and effects of double-stranded RNA (dsRNA) induced by OGD in neuronal cells. By confocal microscopy, dsRNA containing B1 and B2 RNA, was found accumulating in HT22 cells under OGD treatment. The sequence of B1 RNA was identified and transfected into HT22 cells. Interestingly, B1 RNA induced transcription and expression of NLRP3, interleukin (IL)-1β, and tumor necrosis factor (TNF)-α, which was similar to the effects of OGD treatment. Moreover, HT22 cell growth inhibition and proinflammatory cytokines production induced by OGD and B1 RNA treatment were down-regulated by NLRP3 knock-down. These findings suggest that B1 RNA induced by OGD forms as dsRNA and inhibits neuronal cell metabolic activity by regulating the NLRP3 and associated proinflammatory cytokines production.

DIFFERENCES BETWEEN LIPOPOLYSACCHARIDE AND DOUBLE-STRANDED RNA IN INNATE IMMUNE RESPONSES OF BV2 MICROGLIAL CELLS

Microglial cells are thought to be major inflammatory cells in the central nervous system; however, sufficient information about the effects of double-stranded RNA (dsRNA) in microglial cells is lacking. The present study compared the innate immune responses of the murine microglial cell line BV2 to dsRNA and lipopolysaccharide (LPS). It showed that the effect of dsRNA was similar to that of LPS treatment. The dsRNA induced several pro-inflammatory factors such as TNF-α, IL-6, IL-1β, and IL-1Ra. Furthermore, the expression level of COX-2 was increased after treatment with dsRNA. However, the induction level of IL-1β by dsRNA was less than those of the other cytokines that were measured. These results suggest that, although both dsRNA and LPS trigger pro-inflammatory responses, the intracellular signaling pathway and inflammation pattern of dsRNA and LPS may be different. Therefore, dsRNA produced during viral infection could precipitate neurological abnormalities through chronic inflammation.

Synergistic Effect of Double-Stranded RNA and TGF-α on MUC5AC production in Human Bronchial Epithelial Cells

Synergistic Effect of Double-Stranded RNA and TGF-α on MUC5AC production in Human Bronchial Epithelial Cells

Effect of Double-Stranded RNA on the Expression of Epithelial Neutrophil Activating Peptide-78/CXCL-5 in Human Endothelial Cells

Epithelial neutophil activating peptide-78 (ENA-78)/CXCL-5 is a member of CXC chemokines. ENA-78 was originally described as a factor produced by epithelial cells only. But other types of cells including vascular endothelial cells also produce it. ENA-78 production by endothelial cells may be important for the regulation of neutrophil activation in inflammatory reactions. Polyinosinic-polycytidylic acid (poly IC) is a synthetic double-stranded RNA, which mimics the viral infection when applied to cells and affects the expression of various genes related to inflammatory reactions. In the present study, we examined the effect of poly IC on the expression of ENA-78 in human umbilical vein endothelial cells (HUVEC). HUVEC in culture were treated with poly IC and the expression of ENA-78 mRNA and protein were analyzed by reverse-transcription polymerase chain reaction and enzyme-linked immunosorbent assay. Poly IC induced ENA-78 expression in time- and concentration-dependent manners. Th2-type cytokine IL-4 partially inhibited the induction of ENA-78 by poly IC. 2-Aminopurine, an inhibitor of dsRNA-dependent kinase, suppressed the induction of ENA-78 by poly IC. ENA-78 may be involved in the inflammatory reactions elicited by viral infection in endothelial cells.

Effects of double-stranded RNA in Metarhizium anisopliae var. acridum and Paecilomyces fumosoroseus on protease activities, conidia production, and virulence.

Isogenic strains (with and without dsRNA) of the entomogenous fungi Metarhizium anisopliae var. acridum and Paecilomyces fumosoroseus were investigated for correlation between the presence of dsRNA and the production of cuticle-degrading proteases that play an important role in host parasitism, total secreted protein, and conidia production. Similar levels of cuticle-degrading subtilisin-like (Pr1) protease were observed for isogenic strains of M. anisopliae var. acridum after growth in medium supplemented with the cuticle of the grasshopper Rhammatocerus schistocercoides. Similarly, no statistical differences were observed for protease production, detected using the chromogenic substrate azocasein. For P. fumosoroseus isogenic strains, no significant differences in protease activity were observed after growth in the presence of either Euschistus heros or Nezara viridula (Hemiptera: Pentatomidae) cuticle. Similarly, no statistical differences were observed in virulence against E. heros. A comparison of mean conidia production showed a significantly higher production in the dsRNA-free isogenic strains of M. anisopliae var. acridum. Although, for most of the fungal phenotypes analysed, no overt effects were associated with the presence of these dsRNA infections, the reduction in conidia production by the isogenic strains of M. anisopliae var. acridum with dsRNA suggested that it may not be entirely accurate to describe these infections as latent.

Effect of double-stranded RNA and interferon on the antiviral activity of Atlantic salmon cells against infectious salmon anemia virus and infectious pancreatic necrosis virus

Type I interferons (IFN) establish an antiviral state in vertebrate cells by inducing expression of Mx and other antiviral proteins. We have studied the effect of Atlantic salmon interferon-like activity (AS-IFN) and poly I:C on the Mx protein expression and antiviral activity against infectious salmon anaemia virus (ISAV) and infectious pancreatic necrosis virus (IPNV) in the Atlantic salmon cell lines SHK-1 and TO. The double-stranded RNA poly I:C is an inducer of type I IFN in vertebrates. A cell cytotoxicity assay and measurements of virus yield were used to measure protection of cells against virus infection. Maximal induction of Mx protein in TO and SHK-1 cells occurred 48h after poly I:C stimulation and 24h after AS-IFN stimulation. TO cells pretreated with AS-IFN or poly I:C were protected from infection with IPNV 24 to 96h after stimulation. Poly I:C or AS-IFN induced a minor protection against ISAV infection in SHK-1 cells, but no protection was induced against ISAV in TO cells. Western blot analysis showed that ISAV induced expression of Mx protein in TO and SHK-1 cells whereas IPNV did not induce Mx protein expression. These results suggest that ISAV and IPNV have very different sensitivities to IFN-induced antiviral activity and have developed different strategies to avoid the IFN-system of Atlantic salmon. Moreover, Atlantic salmon Mx protein appears not to inhibit replication of ISAV.

Double-stranded RNA-induced Inducible Nitric-oxide Synthase Expression and Interleukin-1 Release by Murine Macrophages Requires NF-κB Activation

The effects of double-stranded RNA (synthetic polyinosinic-polycytidylic acid; poly(I-C)) on macrophage expression of inducible nitric-oxide synthase (iNOS), production of nitric oxide, and release of interleukin-1 (IL-1) were investigated. Individually, poly(I-C), interferon-gamma (IFN-gamma), and lipopolysaccharide (LPS) stimulate nitrite production and iNOS expression by RAW 264.7 cells. In combination, the effects of poly(I-C) + IFN-gamma are additive, while poly(I-C) does not further potentiate LPS-induced nitrite production. These results suggest that poly(I-C) and LPS may stimulate iNOS expression by similar signaling pathways, which may be independent of pathways activated by IFN-gamma. LPS-induced iNOS expression is associated with the activation of NF-kappaB. We show that inhibition of NF-kappaB by pyrrolidinedithiocarbamate prevents poly(I-C) + IFN-gamma-, poly(I-C) + LPS-, and LPS-induced iNOS expression, nitrite production and IkappaB degradation by RAW 264.7 cells. The effects of poly(I-C) on iNOS expression appear to be cell-type specific. Poly(I-C), alone or in combination with IFN-gamma, does not stimulate, nor does poly(I-C) potentiate, IL-1-induced nitrite production by rat insulinoma RINm5F cells. In addition, we show that the combination of poly(I-C) + IFN-gamma stimulates iNOS expression, nitrite production, IkappaB degradation, and the release of IL-1 by primary mouse macrophages, and these effects are prevented by pyrrolidinedithiocarbamate. These findings indicate that double-stranded RNA, in the presence of IFN-gamma, is a potent activator of macrophages, stimulating iNOS expression, nitrite production, and IL-1 release by a mechanism which requires the activation of NF-kappaB.

Effect of double-stranded RNA and type I interferons on cytomegalovirus reproduction in human fibroblasts

Effect of double-stranded RNA and type I interferons on cytomegalovirus reproduction in human fibroblasts

Double-stranded RNA and bacterial lipopolysaccharide enhance sensitivit to TNF-α -mediated cell death

The effect of double-stranded RNA (dsRNA) and bacterial lipopolysaccharide on the sensitivity to tumor necrosis factor (TNF)-alpha-mediated cell death was studied in an in vitro system. Since secretion of TNF-alpha is a part of the early host response to viral and bacterial infection, we examined whether mimicking the infection with viral and bacterial products could affect the response of cells to TNF-alpha. Incubation of WEHI 164 fibrosarcoma cells with dsRNA or lipopolysaccharide (LPS) significantly increased their sensitivity to TNF-alpha-mediated lysis and to TNF-secreting inflammatory T cell-mediated lysis. Thus, these products could induce increased sensitivity to TNF-alpha in cells in an inflammatory focus, possibly contributing to selective elimination of infected but not healthy cells by this non-specific cytokine. Additionally, our data show that both dsRNA and LPS, as well as TNF-alpha itself, rapidly induce nuclear factor-kappa B (NF-kappa B), a DNA-binding protein implicated in regulation of gene expression. We suggest that NF-kappa B could regulate genes crucial for the induction of cell death by TNF-alpha.

Mechanism of interferon action. Effect of double-stranded RNA and the 5'-O-monophosphate form of 2',5'-oligoadenylate on the inhibition of reovirus mRNA translation in vitro.

The effect of reovirus double-stranded RNA (dsRNA) and 5'-O-monophosphate form of 2',5'-oligoadenylate (pA(2'p5'A)2) on the translation and degradation of reovirus messenger RNA and on protein phosphorylation was examined in extracts prepared from interferon-treated mouse L fibroblasts. The following results were obtained. 1) The enhanced degradation of reovirus [3H]mRNA observed in the presence of either dsRNA or the 5'-O-triphosphate form of 2',5'-oligoadenylate (pppA(2'p5'A)3) was completely blocked by pA(2'p5'A)2. 2) The dsRNA-dependent phosphorylation of protein P1 and the alpha subunit of eukaryotic initiation factor (eIF-2) depended in a similar manner upon the concentration of dsRNA and was optimal at low dsRNA concentrations (0.1 to 1 microgram/ml). However, high concentrations of dsRNA (greater than 100 micrograms/ml) drastically reduced the phosphorylation of both P1 and eIF-2 alpha. Neither P1 nor eIF-2 alpha phosphorylation was affected by either pA(2'p5'A)2 or pppA(2'p5'A)3. 3) The translation of reovirus mRNA in vitro was inhibited by the addition of either low concentrations of dsRNA or pppA(2'p5'A)3. Whereas pA(2'p5'A)2 completely reversed the pppA(2'p5'A)3-mediated inhibition of translation, the inhibition mediated by low concentrations of dsRNA was only partially reversed by pA(2'p5'A)2. Under conditions where the pppA-(2'p5'A)3mediated degradation of reovirus mRNA was blocked, the translation of reovirus mRNA was still inhibited by low but not by high concentrations of dsRNA in a manner that correlated with the activation of P1 and eIF-2 alpha phosphorylation. These results suggest that the pppA(2'p5'A)n-dependent ribonuclease is not required and that protein phosphorylation may indeed be sufficient for the dsRNA-dependent inhibition of reovirus mRNA translation in cell-free systems derived from interferon-treated mouse fibroblasts.

Regulation of the antiviral and anticellular activities of interferon by exogenous double-stranded RNA.

The effects of double-stranded RNA (dsRNA) on interferon (IFN)-induced antiviral and anticellular activities was investigated by introducing poly(I)-poly(C) into mouse L-cells. Coprecipitation of dsRNA with calcium phosphate enabled its efficient penetration into cells in culture. Rate of cellular protein synthesis was inhibited by dsRNA only in cultures pretreated with IFN. Moreover, the anticellular effect of IFN, as measured by the inhibition of cell DNA synthesis, was also enhanced by dsRNA. The kinetics of dsRNA-mediated inhibition of protein synthesis were relatively slow as compared with the inhibitory effect of 2'-5' oligoadenylic acid (2'5'A), which was also introduced into cells by the calcium phosphate coprecipitation technique. To analyze the effects of dsRNA on the antiviral state induced by IFN, vesicular stomatitis virus (VSV) and encephalomyocarditis virus (EMC), replications were followed by measuring viral-specific RNA synthesis in the cell. Introduction of dsRNA after the infection had no effect on VSV and EMC replication in control cells, and it enhanced, to a small extent, the antiviral state of cells pretreated with IFN. In contrast, introduction of 2'5'A into virus-infected cells inhibited VSV and EMC replications regardless of IFN pretreatment. This work demonstrated that the role of dsRNA in regulating the antiviral and anticellular activities of IFN could be studied by introducing exogenous dsRNA into cells in culture by the calcium phosphate coprecipitation technique.

Effect of double stranded RNA on protein synthesis in an [formula omitted][formula omitted] wheat germ embryo system

Incorporation of amino acids into proteins in a cell-free system derived from rabbit reticulocytes was inhibited by either natural (reovirus) or synthetic (poly I:poly C) double-stranded RNAs. The optimal concentration for this inhibition was approximately 0.1 μg/ml. No inhibition was observed following treatment of a cell-free protein synthesizing system derived from wheat germ embryos with double-stranded RNAs at concentrations up to 10 μg/ml. Wheat germ extracts were examined for the presence of a nucleolytic activity capable of digesting double-stranded RNA. No such activity could be detected. A possible explanation for the difference in effect of double-stranded RNA on the two systems is discussed.

Effect of double-stranded viral RNA on mammalian cells in culture.

During bovine enterovirus infection of Ehrlich ascites tumor cells, large amounts of double-stranded RNA accumulate. Addition of this double-stranded RNA to uninfected cells leads to rapid cell death. This is not a result of infectious virus production. Neither single-stranded RNA nor heat-denatured double-stranded RNA has this effect. Similar experiments with synthetic double-stranded polymers, poly(I).poly(C) and poly(A).poly(U), show that they are only slightly toxic at the concentrations used. The effect of the double-stranded RNA is nonspecific for cells of different origins. The implications of this finding in relation to the cytopathic effects of picornavirus and to cancer chemotherapy are discussed.