Enhanced production of rat interleukin-8 by in vitro and in vivo infections with influenza A NWS virus

Induction of Inducible Nitric Oxide (NO) Synthase mRNA and NO Production in Macrophages Infected with Influenza A/PR/8 Virus and Stimulated with Its Ether-Split Product

We investigated the inductive activity of infective influenza A/PR/8/34 (PR8) virus and its ether-split product (ESP) on the expression of inducible nitric oxide (NO) synthase (iNOS) and NO production in RAW264.7 (RAW) cells, a murine macrophage (M psi) cell line, and thioglycolate-elicited peritoneal M psi (TPM). In both cells, PR8 virus infection induced iNOS mRNA between 4 hr and 24 hr, attaining a peak value at 12 hr. In correlation with induction of iNOS mRNA, NO amounts increased significantly from 12 to 24 hr. Moreover, this study demonstrated that ESP with the same hemagglutination titer as PR8 virus could induce iNOS mRNA and NO production, although the inductive activity of ESP was weaker than that of PR8 virus. Considering the dual role (beneficial and detrimental roles) of NO on certain inflammatory disorders and virus infections, the inductive activity of influenza virus on the iNOS-mediated NO production independent of its infectivity might contribute to a modification of influenza virus infection.

Innate immunity to influenza in chronic airways diseases

Influenza presents a unique human infectious disease that has a substantial impact on the public health, in general, and especially for those with chronic airways diseases. People with asthma and chronic obstructive pulmonary disease (COPD) are particularly vulnerable to influenza infection and experience more severe symptoms with the worsening of their pre-existing conditions. Recent advances in reverse genetics and innate immunity has revealed several influenza virulence factors and host factors involved in influenza pathogenesis and the immune responses to infection. Early innate immunity plays a critical role of limiting viral infection and spread; however, the underlying mechanisms that lead to enhanced susceptibility to influenza infection and severe symptoms in those with asthma and COPD to infection remain un-investigated. This review will explore the importance of early innate antiviral responses to influenza infection and how these responses are altered by influenza virus and in those with chronic airways diseases.

An inhibitory effect of A20 on NF-kappaB activation in airway epithelium upon influenza virus infection

Influenza is a major disease in humans. The reemergence of avian influenza A viruses has indicated that hyperinflammatory responses are closely related to the severity of disease. Influenza virus infection induces nuclear transcription factor kappaB (NF-kappaB) activation. NF-kappaB and NF-kappaB-dependent gene products promote lung inflammation and injury. Therefore, it is important to investigate the means to attenuate NF-kappaB activation. A20 is a cytoplasmic zinc finger protein that inhibits NF-kappaB activity, However, little is known about the role of A20 in influenza virus infection. Here, we have examined the role of A20 in influenza virus infection-induced NF-kappaB promoter activation in human bronchial epithelial cells. The results showed that (1) A20 protein and mRNA are inducible and expressed in the lung from mice and human bronchial epithelial cells upon influenza virus infection; (2) NF-kappaB promoter activation was induced in bronchial epithelial cells upon influenza virus infection; and (3) overexpression by transient transfection of A20 attenuated NF-kappaB promoter activation in bronchial epithelial cells. These results indicate that A20 may function as a negative regulator of NF-kappaB-mediated lung inflammation and injury upon influenza virus infection, thereby protecting the host against inflammatory response to influenza virus infection.

Macrophage-mediated inhibitory effect of Zingiber officinale Rosc, a traditional oriental herbal medicine, on the growth of influenza A/Aichi/2/68 virus

The inhibitory effect of Zingiber officinale Rosc (ZOR), an Oriental traditional herbal medicine, on the growth of influenza A/Aichi/2/68 (Aichi) virus was investigated in Madin-Darby canine kidney (MDCK) cells. Direct addition of ZOR (0.1 approximately 100 microg/ml) to the infected cells did not have any inhibitory effect. However, the ZOR-induced conditioned medium (ZOR-CM) of RAW cells, a murine macrophage (Mphi) cell line, exhibited an apparent inhibitory effect on MDCK cells without cytotoxicity. In accordance with the time-dependent inhibitory effect of ZOR-CM, it has been demonstrated that tumor necrosis factor (TNF)-alpha was gradually accumulated in ZOR-CM by the induction of TNF-alpha mRNA expression in ZOR-stimulated RAW cells. Conversely, the inhibitory effect of ZOR-CM was reduced significantly by the removal of TNF-alpha after the formation of an immune complex with anti-TNF-alpha monoclonal antibody. These data suggested that ZOR itself has no inhibitory effect on the growth of influenza virus, but could exert its effect via macrophage activation leading to production of TNF-alpha.

Effects of Immunoglobulin upon Murine Myocarditis Caused by Influenza A Virus

Influenza viruses play the largest role in the worldwide epidemiology of infectious diseases. Management of some inflammatory disease (eg, Kawasaki disease) with immunoglobulin has been demonstrated to be effective. We examined the effects of intact type and F(ab')2 type of immunoglobulin preparations upon murine influenza A virus myocarditis in mice. In vitro study showed that intact type and F(ab')2 type of immunoglobulin preparations exhibit antiviral activities against many substrains of influenza virus and other cardiotropic viruses. Dose-dependent suppression of an influenza A virus (NWS) was demonstrated by management with both intact immunoglobulin and F(ab')2 fragments of immunoglobulin. The dose inhibiting 50% of plaques was the same between intact type and F(ab')2 type (both 0.0002 mg/dl). Intact immunoglobulin, but not F(ab')2 fragments of immunoglobulin, suppressed serum macrophage inflammatory protein-2 (MIP-2) productions in influenza A virus-infected macrophages in vitro, which is a murine counterpart of interleukin-8. This suppression of MIP-2 production by intact immunoglobulin treatment was blocked by a specific Fc receptor (Fc gamma III/II receptor) antibody pretreatment. Intact immunoglobulin or F(ab')2 fragments of immunoglobulin were administered to virus-inoculated A/J mice intraperitoneally daily, starting simultaneously with virus inoculation (Experiment I) and 2 days after the virus inoculation (Experiment II), until 10 days after virus inoculation. In Experiment I, survival was higher in treated than in control mice; intact type and F(ab')2 type immunoglobulins administration completely suppressed the development of myocarditis. In Experiment II, survival rate was significantly higher and myocarditis was less severe in intact immunoglobulin-treated mice, but not in F(ab')2 fragments-treated mice compared with untreated mice. Serum neutralizing antibody titers in treated mice were significantly higher compared with untreated mice in Experiments I and II. In addition, serum MIP-2 concentrations in intact immunoglobulin-treated mice, but not in F(ab')2 fragments-treated mice, were lower compared with untreated mice in Experiment II. Immunoglobulin therapy suppresses influenza A virus myocarditis by increasing neutralizing antibody titers and the suppression of myocardial virus activities. From the standpoint of suppression of MIP-2 concentrations, intact type is superior to F(ab')2 type. Thus, immunoglobulin treatment may be promising for prevention of influenza virus myocarditis.

Respiratory virus infections in cystic fibrosis

Respiratory virus infections have pronounced and long-lasting effects on patients with cystic fibrosis (CF), resulting in significant declines in FVC, FEV(1) and Shwachman score, significantly increasing both the frequency and duration of hospitalisation. Deleterious effects on patients with CF have been reported for most viruses studied but the effects of respiratory syncytial virus and influenza appear the greatest. There is circumstantial evidence that respiratory virus infections may facilitate bacterial infections, particularly Pseudomonas aeruginosa.

Gene expression of cell surface antigens in the early phase of murine influenza pneumonia determined by a cDNA expression array technique

BACKGROUND

Influenza virus is a worldwide health problem with significant economic consequences. To study the gene expression pattern induced by influenza virus infection, it is useful to reveal the pathogenesis of influenza virus infection; but this has not been well examined, especially in vivo study.

AIMS

To assess the influence of influenza virus infection on gene expression in mice, mRNA levels in the lung and tracheal tissue 48 h after infection were investigated by cDNA array analysis.

METHODS

Four-week-old outbred, specific pathogen free strain, ICR female mice were infected by intra-nasal inoculation of a virus solution under ether anesthesia. The mice were sacrificed 48 h after infection and the tracheas and lungs were removed. To determine gene expression, the membrane-based microtechnique with an Atlas cDNA expression array (mouse 1.2 array II) was performed in accordance with the manual provided.

RESULTS AND CONCLUSIONS

We focused on the expression of 46 mRNAs for cell surface antigens. Of these 46 mRNAs that we examined, four (CD1d2 antigen, CD39 antigen-like 1, CD39 antigen-like 3, CD68 antigen) were up-regulated and one (CD36 antigen) was down-regulated. Although further studies are required, these data suggest that these molecules play an important role in influenza virus infection, especially the phase before specific immunity.

Influenza virus-induced AP-1-dependent gene expression requires activation of the JNK signaling pathway

Influenza A virus infection of cells results in the induction of a variety of antiviral cytokines, including those that are regulated by transcription factors of the activating protein-1 (AP-1) family. Here we show that influenza virus infection induces AP-1-dependent gene expression in productively infected cells but not in cells that do not support viral replication. Among the AP-1 factors identified to bind to their cognate DNA element during viral infections of Madin-Darby canine kidney and U937 cells are those that are regulated via phosphorylation by JNKs. Accordingly, we observed that induction of AP-1-dependent gene expression correlates with a strong activation of JNK in permissive cells, which appears to be caused by viral RNA accumulation during replication. Blockade of JNK signaling at several levels of the cascade by transient expression of dominant negative kinase mutants and inhibitory proteins resulted in inhibition of virus-induced JNK activation, reduced AP-1 activity, and impaired transactivation of the IFN-beta promoter. Virus yields from transfected and infected cells in which JNK signaling was inhibited were higher compared with the levels from control cells. Therefore, we conclude that virus-induced activation of JNK and AP-1 is part of the innate antiviral response of the cell.

Administration of isoferulic acid improved the survival rate of lethal influenza virus pneumonia in mice

BACKGROUND

Isoferulic acid (IFA) is a main active ingredient of the rhizoma of Cimicifuga beracleifolia, which is used frequently in Japanese traditional medicine as an anti-inflammatory drug. It has been revealed that IFA inhibits the production of macrophage inflammatory protein-2 (MIP-2), which is a murine counterpart of the chemokine family that may contribute to the pathogenesis of inflammatory diseases through the chemotactic activity for inflammatory and immune effector cells.

AIM OF THE STUDY

In this study, we investigated the therapeutic effect of IFA on the progression of lethal influenza virus pneumonia in mice by comparison with that of dexamethasone (DX), a potent inhibitor for various inflammatory cytokines including MIP-2.

METHODS

Mice were infected by intranasal inoculation of influenza virus under ether anesthesia. The IFA or DX was given by oral administration once daily for 4 days after infection. After infection, the survival rate and the change in body weight were daily monitored.

RESULTS

IFA administration markedly improved the survival rate and body weight loss of influenza virus-infected mice in a suitable dose range (0.5 mg/day). However, DX administration did not show a beneficial effect at any dose.

CONCLUSION

These data suggested that IFA is a novel tool not only for the intervention therapy, but also for the studies on the pathogenesis of influenza virus-induced pneumonia.

Enhanced production of macrophage inflammatory protein 2 (MIP-2) by in vitro and in vivo infections with encephalomyocarditis virus and modulation of myocarditis with an antibody against MIP-2

Interleukin-8 (IL-8) is a chemotactic cytokine for neutrophils and lymphocytes. Macrophage inflammatory protein 2 (MIP-2) is a murine counterpart of IL-8. The present study was performed to determine whether MIP-2 aggravates murine myocarditis. We examined (i) the MIP-2-producing activity of encephalomyocarditis (EMC) virus-infected cultured macrophages, (ii) serial plasma MIP-2 levels in EMC virus-induced mice by enzyme-linked immunosorbent assay, and (iii) the effects of antimouse MIP-2 monoclonal antibody (MAb) in vivo upon myocarditis. The production of MIP-2 increased in an infection dose- and time-dependent manner in virus-infected RAW 264. 7 macrophages. Five-week-old C(3)H/He mice were inoculated with EMC virus. Plasma MIP-2 levels were significantly elevated in mice on days 7 and 14 postinfection. Mice were injected subcutaneously with anti-MIP-2 MAb at 10 microg/day (group 2) or 100 microg/day (group 3) on days 0 to 5 and were observed until day 21. Uninfected control mice (group 1) were prepared. The survival rate was higher in the anti-MIP-2-treated group (group 3), but not in group 2, than in the control group. Histopathological analysis revealed that cellular infiltration and myocardial necrosis with macrophage and T-cell accumulation were less prominent in the anti-MIP-2 MAb-treated group, but not in group 2, compared to the level in the controls. MIP-2 is an important naturally occurring inflammatory cytokine in myocarditis, and anti-MIP-2 MAb treatment may prevent the inflammatory response.

Role of MIP-2 in coxsackievirus B3 myocarditis

Interleukin-8 (IL-8) is a chemotactic cytokine for neutrophils and lymphocytes. Macrophage inflammatory protein-2 (MIP-2) is a murine counterpart of IL-8. The present study was performed to determine the role of MIP-2 in murine myocarditis. We examined (1) the MIP-2 producing activity of Coxsackievirus B3 (CB3)-infected cultured macrophages, (2) serial plasma MIP-2 levels in CB3-induced mice by enzyme-linked immunosorbent assay (ELISA), and (3) the effects of anti-mouse MIP-2 monoclonal antibody (mAb) in vivo upon myocarditis. The production of MIP-2 increased in an infection dose- and time-dependent manner in virus-infected RAW 264.7 macrophages. Three-week-old C(3)H/He mice were inoculated with CB3. Plasma MIP-2 levels were significantly elevated in mice on days 7, 10 and 14 post-infection. Mice were injected subcutaneously with anti-MIP-2 mAb at 10 microg/day (Group 2) or 100 microg/day (Group 3) on days 0-7, and were observed until day 14. Uninfected control mice (Group 1) were injected with saline. Survival rate was higher in the anti-MIP-2-treated group (Group 3), but not in Group 2, than in the control group. Histopathological analysis revealed that cellular infiltration and myocardial necrosis with macrophage and T cell accumulation were less prominent in the anti-MIP-2 mAb-treated groups as compared to the controls. MIP-2 is an important naturally occurring inflammatory cytokine in CB3 myocarditis, and anti-MIP-2 mAb treatment may prevent the inflammatory response.

Influenza virus-induced NF-kappaB-dependent gene expression is mediated by overexpression of viral proteins and involves oxidative radicals and activation of IkappaB kinase

Influenza A viruses are capable of inducing the expression of a variety of cytokine and proapoptotic genes in infected cells. The promoter regions of most of these genes harbor binding sites for the transcription factor NF-kappaB which is an important mediator of immune and inflammatory responses. Our present study is based on an observation that influenza A virus infection of cells stimulates transcriptional activation of the HIV-1 long terminal repeat (LTR) which harbors two regulatory NF-kappaB elements, and is aimed at identifying the molecular mechanisms involved in this process. We found that the expression of influenza virus hemagglutinin (HA), matrix protein (M), and nucleoprotein (NP), as single factors is sufficient to transcriptionally activate the HIV-1 LTR. This process is mediated by oxidative radicals because treatment of cells with pyrrolidine dithiocarbamate, a scavenger of such radicals, abolished the transactivating ability. Expression of different influenza proteins induces activation of NF-kappaB-dependent gene expression but not transcriptional activation of an AP-1/Ets-dependent promoter, indicating a selectivity for NF-kappaB transactivation. Furthermore, influenza protein expression induces activation of IkappaB kinase (IKK). Accordingly coexpression of a catalytically inactive mutant of IKK abolishes influenza protein induced activation of NF-kappaB as well as HIV-1 LTR-dependent reporter gene expression, suggesting that IKK is an important intermediate within this signaling process. Taken together, our results show that various influenza virus proteins act as viral transactivators to modulate transcriptional activity of kappaB-element harboring promoters such as the HIV-LTR.

Therapeutic effect of anti-macrophage inflammatory protein 2 antibody on influenza virus-induced pneumonia in mice

We investigated the effect of anti-macrophage inflammatory protein 2 immunoglobulin G (aMIP-2 IgG) on the progression of influenza virus-induced pneumonia in mice. When mice were infected with a mouse lung-adapted strain of influenza A/PR/8/34 virus by intranasal inoculation, neutrophil counts in the bronchoalveolar lavage fluid (BALF) increased in parallel with the kinetics of MIP-2 production, which peaked 2 days after infection. After intracutaneous injection of a dose of 10 or 100 microg of aMIP-2 IgG once a day on days 0 and 1, neutrophil counts in BALF on day 2 were reduced to 49 or 37%, respectively, of the value in the control infected mice administered anti-protein A IgG. The antibody administration also improved lung pathology without affecting virus replication. Furthermore, by prolonged administration with a higher or lower dose for up to 5 days, body weight loss became slower and finally 40% of mice in both treatment groups survived potentially lethal pneumonia. These findings suggest that MIP-2-mediated neutrophil infiltration during the early phase of infection might play an important role in lung pathology. Thus, MIP-2 was considered to be a novel target for intervention therapy in potentially lethal influenza virus pneumonia in mice.

H-ras-transformed NRK-52E renal epithelial cells have altered growth, morphology, and cytoskeletal structure that correlates with renal cell carcinoma in vivo

We studied the effect of the ras oncogene on the growth kinetics, morphology, cytoskeletal structure, and tumorigenicity of the widely used NRK-52E rat kidney epithelial cell line and two H-ras oncogene-transformed cell lines, H/1.2-NRK-52E (H/1.2) and H/6.1-NRK-52E (H/6.1). Population doubling times of NRK-52E, H/1.2, and H/6.1 cells were 28, 26, and 24 h, respectively, with the transformed cells reaching higher saturation densities than the parent cells. NRK-52E cells had typical epithelial morphology with growth in colonies. H/1.2 and H/6.1 cell colonies were more closely packed, highly condensed, and had increased plasma membrane ruffling compared to parent cell colonies. NRK-52E cells showed microfilament, microtubule, and intermediate filament networks typical of epithelial cells, while H/1.2 and H/6.1 cells showed altered cytoskeleton architecture, with decreased stress fibers and increased microtubule and intermediate filament staining at the microtubule organizing center. H/1.2 and H/6.1 cells proliferated in an in vitro soft agar transformation assay, indicating anchorage-independence, and rapidly formed tumors in vivo with characteristics of renal cell carcinoma, including mixed populations of sarcomatoid, granular, and clear cells. H/6.1 cells consistently showed more extensive alterations of growth kinetics, morphology, and cytoskeleton than H/1.2 cells, and formed tumors of a more aggressive phenotype. These data suggest that analysis of renal cell characteristics in vitro may have potential in predicting tumor behavior in vivo, and significantly contribute to the utility of these cell lines as in vitro models for examining renal epithelial cell biology and the role of the ras proto-oncogene in signal transduction involving the cytoskeleton.

Concurrent production of interleukin-2, interleukin-10, and gamma interferon in the regional lymph nodes of mice with influenza pneumonia

Cytokine production has been assessed at the single-cell level (ELISPOT assay) for freshly isolated mediastinal lymph node cells from C57BL/6 mice with primary, nonfatal influenza pneumonia. The mediastinal lymph node populations were also secondarily stimulated in vitro, and culture supernatants were assayed by enzyme-linked immunosorbent assay. Both approaches showed minimal evidence of protein secretion for interleukin-4 (IL-4), IL-5, and tumor necrosis factor, while IL-2, IL-10, and gamma interferon (IFN-gamma) were prominent throughout the response. The numbers of IL-2- and IFN-gamma-producing cells were maximal at 7 days after infection, while the total counts for cells secreting IL-10 were fairly constant from day 3 to 7. The cultures that were stimulated with virus in vitro showed in inverse relationship between IL-10 and IFN-gamma production, with IL-10 peaking on day 3 and IFN-gamma peaking on day 7. Lymphocytes secreting IL-2, IL-10, and/or IFN-gamma were present in CD4+ and CD8+ populations separated by fluorescence-activated cell sorting, although the CD8+ T cells produced less cytokine and were at a relatively lower frequency. Addition of recombinant IL-10 to the virus-stimulated cultures decreased the amount of IFN-gamma that could be detected, while incorporation of a monoclonal antibody to IL-10 had the opposite effect. A neutralization experiment also indicated that IL-2 was the principal mediator of lymphocyte proliferation. These experiments thus show that the developing T-cell response in the regional lymph nodes of mice with influenza cannot be rigidly categorized on the basis of a TH1 or TH2 phenotype and suggest possible regulatory mechanisms.