Your search keyword '"Oishi K"' showing total 20 results

1. Clostridium perfringens α-Toxin Impairs Lipid Raft Integrity in Neutrophils.

Author

Takehara M, Takagishi T, Seike S, Oishi K, Fujihara Y, Miyamoto K, Kobayashi K, and Nagahama M

Subjects

Animals, Bone Marrow Cells cytology, Bone Marrow Cells metabolism, Cell Differentiation drug effects, G(M1) Ganglioside metabolism, Mice, Inbred C57BL, Neutrophils cytology, Neutrophils metabolism, beta-Cyclodextrins pharmacology, Bacterial Toxins pharmacology, Bone Marrow Cells drug effects, Calcium-Binding Proteins pharmacology, Membrane Microdomains drug effects, Neutrophils drug effects, Type C Phospholipases pharmacology

Abstract

Clostridium perfringens type A, a Gram-positive, anaerobic bacterium, causes gas gangrene. Recently, we reported that C. perfringens α-toxin blocked neutrophil differentiation in an enzyme activity-dependent manner to impair host innate immunity, which should be crucial for the pathogenesis of C. perfringens. However, the detailed mechanism remains unclear. Lipid rafts have been reported to be platforms for signaling molecules involved in the regulation of cell differentiation in many different cell types. In this study, we found that cell surface expression of a lipid raft marker, GM1 ganglioside, decreased in association with neutrophil differentiation by flow cytometry analysis and morphological observation. In vitro treatment of isolated mouse bone marrow cells with α-toxin or an α-toxin variant lacking phospholipase C and sphingomyelinase activities revealed that α-toxin increased the cell surface expression of GM1 ganglioside in an enzyme activity-dependent manner. C. perfringens infection also increased GM1 ganglioside levels in bone marrow myeloid cells. Moreover, treatment of bone marrow cells with methyl-β-cyclodextrin, a lipid raft-disrupting agent, impaired neutrophil differentiation. Together, our results suggest that the integrity of lipid rafts should be properly maintained during granulopoiesis, and α-toxin might perturb lipid raft integrity leading to the impairment of neutrophil differentiation.

Published

2016

2. Origin of Circulating Free DNA in Sepsis: Analysis of the CLP Mouse Model.

Author

Hamaguchi S, Akeda Y, Yamamoto N, Seki M, Yamamoto K, Oishi K, and Tomono K

Subjects

Animals, Disease Models, Animal, Ligation, Mice, Mice, Inbred C57BL, DNA blood, Neutrophils cytology, Sepsis blood, Sepsis genetics

Abstract

Recently, it has been reported that circulating free DNA (cf-DNA) in the blood is increased in various infectious diseases, including sepsis. Moreover, a relationship between cf-DNA and neutrophil extracellular traps (NETs) has been suggested. However, it is still unclear what the source and physiological role of cf-DNA in sepsis are. In this study, we examined the source of cf-DNA by detecting citrullinated histone H3, a characteristic feature of NET formation, in cecal ligation and puncture- (CLP-)operated mice. In addition, neutrophil depletion using anti-Ly6G antibodies was performed to assess the association between neutrophils and cf-DNA. Increased cf-DNA levels were observed only in CLP mice and not in the control groups; the qPCR findings revealed that the cf-DNA was mainly host-derived, even in bacteremic conditions. Citrullinated histone H3 was not increased in the neutrophils upon CLP, and the depletion of neutrophils showed limited effects on decreasing the amount of cf-DNA. Taken together, these results suggested that elevated cf-DNA levels during early-phase sepsis may represent a candidate biomarker for the severity of sepsis and that, contrary to previous findings, cf-DNA is not derived from neutrophils or NETs.

Published

2015

3. Presence of neutrophil extracellular traps and citrullinated histone H3 in the bloodstream of critically ill patients.

Author

Hirose T, Hamaguchi S, Matsumoto N, Irisawa T, Seki M, Tasaki O, Hosotsubo H, Yamamoto N, Yamamoto K, Akeda Y, Oishi K, Tomono K, and Shimazu T

Subjects

Aged, Bacterial Infections immunology, Citrulline metabolism, Female, Histones metabolism, Humans, Male, Middle Aged, Prospective Studies, Protein Processing, Post-Translational, Respiratory Tract Infections immunology, Trachea microbiology, Critical Illness, Extracellular Traps, Histones blood, Neutrophils immunology

Abstract

Neutrophil extracellular traps (NETs), a newly identified immune mechanism, are induced by inflammatory stimuli. Modification by citrullination of histone H3 is thought to be involved in the in vitro formation of NETs. The purposes of this study were to evaluate whether NETs and citrullinated histone H3 (Cit-H3) are present in the bloodstream of critically ill patients and to identify correlations with clinical and biological parameters. Blood samples were collected from intubated patients at the time of ICU admission from April to June 2011. To identify NETs, DNA and histone H3 were visualized simultaneously by immunofluorescence in blood smears. Cit-H3 was detected using a specific antibody. We assessed relationships of the presence of NETs and Cit-H3 with the existence of bacteria in tracheal aspirate, SIRS, diagnosis, WBC count, and concentrations of IL-8, TNF-α, cf-DNA, lactate, and HMGB1. Forty-nine patients were included. The median of age was 66.0 (IQR: 52.5-76.0) years. The diagnoses included trauma (7, 14.3%), infection (14, 28.6%), resuscitation from cardiopulmonary arrest (8, 16.3%), acute poisoning (4, 8.1%), heart disease (4, 8.1%), brain stroke (8, 16.3%), heat stroke (2, 4.1%), and others (2, 4.1%). We identified NETs in 5 patients and Cit-H3 in 11 patients. NETs and/or Cit-H3 were observed more frequently in "the presence of bacteria in tracheal aspirate" group (11/22, 50.0%) than in "the absence of bacteria in tracheal aspirate" group (4/27, 14.8%) (p<.01). Multiple logistic regression analysis showed that only the presence of bacteria in tracheal aspirate was significantly associated with the presence of NETs and/or Cit-H3. The presence of bacteria in tracheal aspirate may be one important factor associated with NET formation. NETs may play a pivotal role in the biological defense against the dissemination of pathogens from the respiratory tract to the bloodstream in potentially infected patients.

Published

2014

4. Neutrophil extracellular traps in bronchial aspirates: a quantitative analysis.

Author

Hamaguchi S, Hirose T, Matsumoto N, Akeda Y, Irisawa T, Seki M, Hosotsubo H, Yamamoto K, Tasaki O, Oishi K, Shimazu T, and Tomono K

Subjects

Acute Disease, Adult, Aged, Aged, 80 and over, Bronchi metabolism, Bronchi microbiology, Child, DNA chemistry, Disease Progression, Female, Histones chemistry, Humans, Inflammation, Male, Middle Aged, Neutrophils metabolism, Respiratory Tract Infections metabolism, Time Factors, Bronchi pathology, Extracellular Traps, Neutrophils cytology

Abstract

Neutrophil extracellular traps (NETs) are structures composed of DNA and granular proteins, which rapidly trap and kill pathogens. The formation of NETs has been detected during infection in animal experiments, but their role in humans is unclear. The purposes of this study were to quantitatively evaluate the production of NETs during acute respiratory infection and to study the relationship between the NET length and various inflammatory mediators. We examined bronchial aspirates collected from nine intubated patients in an intensive care unit. Samples were collected at the onset of acute respiratory infection (day 0) and on days 1, 3-5, and 6-8. The NET length was visualised by immunohistochemistry and quantified using computer tracing software. The NET length was measured and compared at each time point. The length differed significantly between time points (p<0.001). NETs were significantly longer on day 1 than on day 0 (p<0.001). Neutrophils released NETs abundantly in response to respiratory infection and regression analysis showed that NET length correlated with six clinical parameters (white blood cells, platelets, lactate, CXC ligand-2, interleukin-8, and procalcitonin) as the explanatory variables. NETs in bronchial aspirates may reflect disease progression of respiratory infections. Quantification of NETs in bronchial aspirates may provide a new indicator of inflammation., (©ERS 2014.)

Published

2014

5. Identification of neutrophil extracellular traps in the blood of patients with systemic inflammatory response syndrome.

Author

Hamaguchi S, Hirose T, Akeda Y, Matsumoto N, Irisawa T, Seki M, Hosotsubo H, Tasaki O, Oishi K, Shimazu T, and Tomono K

Subjects

Case-Control Studies, Demography, Female, Humans, Immunohistochemistry, Male, Middle Aged, Cell Membrane Structures metabolism, Neutrophils metabolism, Systemic Inflammatory Response Syndrome blood, Systemic Inflammatory Response Syndrome pathology

Abstract

Objective: Neutrophils are able to form 'neutrophil extracellular traps' (NETs), which they use to trap and kill pathogens such as bacteria and fungi at the foci of infection. This observational study investigated the presence of NETs in the blood from critically ill patients and healthy volunteers., Methods: Fluorescent triple-colour immunocytochemical analysis of blood smears collected from patients with systemic inflammatory response syndrome (SIRS; associated with various clinical conditions) who had been hospitalized in the intensive care unit, and healthy volunteers, was undertaken to identify NETs in the blood. Blood smears were stained for DNA, histone H1 and neutrophil elastase., Results: NETs were identified in 10 of 21 (47.6%) blood samples from the study group compared with none of the blood samples from eight healthy volunteers., Conclusion: These data suggest that fluorescent triple-colour immunocytochemical staining of NETs in the blood could be used to simplify the early identification of critically ill patients with SIRS. Larger studies are required to clarify the pathophysiological role of NETs in this specific patient population.

Published

2013

6. Phenol-soluble modulin alpha 3 enhances the human neutrophil lysis mediated by Panton-Valentine leukocidin.

Author

Hongo I, Baba T, Oishi K, Morimoto Y, Ito T, and Hiramatsu K

Subjects

Adult, Animals, Antibodies, Monoclonal immunology, Antitoxins immunology, Cell Survival, Humans, Mice, Neutralization Tests, Recombinant Proteins toxicity, Bacterial Toxins toxicity, Exotoxins toxicity, Leukocidins toxicity, Neutrophils drug effects, Staphylococcus aureus immunology

Abstract

Panton-Valentine leukocidin (PVL) has long been considered a critical toxin in severe Staphylococcus aureus infection. PVL presumably breaches the body's defense system by lysing human polymorphonuclear cells (PMNs). Recently, however, bioactive peptides--phenol-soluble modulins (PSMs)--have been proposed as the main player in the lysis of PMNs, rather than PVL. This study aimed to resolve uncertainty concerning the cause of the lysis of human PMNs by using recombinant PVL toxins and PVL-neutralizing monoclonal antibodies. The recombinant PVL toxins showed strong lytic activity against human but not murine neutrophils. Moreover, the lytic activity of culture supernatants of strains USA400 MW2 and USA300 FPR3757 were completely neutralized by anti-PVL monoclonal antibodies. In contrast, phenol-soluble modulin alpha 3--the most potent PSM peptide--failed to lyse human PMNs at the concentrations contained in the culture supernatants. Phenol-soluble modulin alpha 3 did, however, enhance PVL-mediated lysis of human PMNs.

Published

2009

7. [Macrolides and neutrophilic apoptosis clearance in chronic airway infections].

Author

Yamaryo T, Oishi K, Tsuchihashi Y, Yoshimine H, and Nagatake T

Subjects

Cells, Cultured, Chronic Disease, Humans, Phagocytosis drug effects, Apoptosis drug effects, Macrolides pharmacology, Neutrophils drug effects, Neutrophils immunology, Respiratory Tract Infections immunology

Published

2004

8. [Effect of macrolide antibiotics on phagocytic clearance of apoptotic neutrophils by alveolar macrophages].

Author

Yamamine T, Oishi K, Amano H, and Nagatake T

Subjects

Cells, Cultured, Dexamethasone pharmacology, Humans, Neutrophils physiology, Structure-Activity Relationship, Anti-Bacterial Agents pharmacology, Apoptosis, Clarithromycin pharmacology, Erythromycin pharmacology, Macrophages, Alveolar immunology, Neutrophils immunology, Phagocytosis drug effects

Published

2003

9. Fourteen-member macrolides promote the phosphatidylserine receptor-dependent phagocytosis of apoptotic neutrophils by alveolar macrophages.

Author

Yamaryo T, Oishi K, Yoshimine H, Tsuchihashi Y, Matsushima K, and Nagatake T

Subjects

Apoptosis drug effects, Cell Survival, Cells, Cultured, Humans, Interleukin-8 biosynthesis, Jumonji Domain-Containing Histone Demethylases, Macrophages, Alveolar drug effects, Macrophages, Alveolar metabolism, Neutrophils metabolism, Tumor Necrosis Factor-alpha biosynthesis, Monobactams pharmacology, Neutrophils drug effects, Phagocytosis drug effects, Receptors, Cell Surface drug effects

Abstract

An inflammation of the airway of patients with diffuse panbronchiolitis (DPB), is characterized by dense neutrophil infiltration. Resolution of the inflammation can be achieved by the removal of apoptotic neutrophils by human alveolar macrophages (AM) without liberating neutrophil proteases in the airway. To understand clinical efficacy for the treatment of DPB by 14- or 15-member macrolides, their effects on the phagocytosis of apoptotic neutrophils by AM were examined. Treatment of AM with erythromycin (ERY) or clarithromycin at clinically achievable levels significantly increased the levels of phagocytosis of apoptotic neutrophils. A serum factor was not essential for the enhancement by these 14-member macrolides. Of the antibiotics tested, these effects were specific for the 14-member macrolides and a 15-member macrolide, azithromycin, but not for the 16-member macrolides, clindamycin or beta-lactam antibiotics. The enhanced phagocytosis of apoptotic neutrophils by ERY had no effect on the levels of interleukin-8 or tumor necrosis factor alpha production by lipopolysaccharide-stimulated AM after phagocytosis of the apoptotic neutrophils. The increased phagocytosis of apoptotic neutrophils by ERY was also found to be phosphatidylserine receptor-dependent for AM. These data indicate a novel anti-inflammatory action of 14-member and 15-member macrolides, and suggest that such antibiotics achieve clinical efficacy for patients with DPB, in part, through enhancing the nonphlogistic phagocytosis of apoptotic neutrophils by AM.

Published

2003

10. Fourteen-member macrolides suppress interleukin-8 production but do not promote apoptosis of activated neutrophils.

Author

Tsuchihashi Y, Oishi K, Yoshimine H, Suzuki S, Kumatori A, Sunazuka T, Omura S, Matsushima K, and Nagatake T

Subjects

Anti-Inflammatory Agents pharmacology, Cysteine Proteinase Inhibitors pharmacology, Dexamethasone pharmacology, Humans, In Vitro Techniques, Leupeptins pharmacology, Lipopolysaccharides pharmacology, Macrolides, Neutrophil Activation, Anti-Bacterial Agents pharmacology, Apoptosis drug effects, Interleukin-8 antagonists & inhibitors, Interleukin-8 biosynthesis, Neutrophils drug effects

Abstract

A 14-member macrolide was found to inhibit interleukin-8 (IL-8) synthesis in lipopolysaccharide-stimulated neutrophils but did not accelerate apoptosis in activated neutrophils. These data suggest that 14-member macrolides achieve clinical efficacy for chronic airway diseases partly by suppressing IL-8 production by activated neutrophils, but not by enhancing apoptosis in these cells.

Published

2002

11. [Effects of macrolide antibiotics on phagocytosis of apoptosis neutrophils by monocyte-derived macrophages].

Author

Yamaryo T, Oishi K, Yoshimine H, Dobashi Y, Amano H, and Nagatake T

Subjects

Cells, Cultured, Clarithromycin pharmacology, Complement System Proteins, Erythromycin pharmacology, Humans, Monocytes, Anti-Bacterial Agents pharmacology, Apoptosis, Macrophages immunology, Neutrophils physiology, Phagocytosis drug effects

Published

2001

12. Alveolar macrophages that phagocytose apoptotic neutrophils produce hepatocyte growth factor during bacterial pneumonia in mice.

Author

Morimoto K, Amano H, Sonoda F, Baba M, Senba M, Yoshimine H, Yamamoto H, Ii T, Oishi K, and Nagatake T

Subjects

Animals, Bronchi metabolism, Bronchi microbiology, Bronchi pathology, Bronchoalveolar Lavage Fluid cytology, Cell Count, Disease Models, Animal, Hepatocyte Growth Factor genetics, Immunohistochemistry, Lung metabolism, Lung microbiology, Lung pathology, Macrophages, Alveolar cytology, Macrophages, Alveolar immunology, Male, Mice, Mice, Inbred ICR, Neutrophil Infiltration immunology, Neutrophils immunology, Peroxidase biosynthesis, Phagocytosis immunology, Pneumonia, Bacterial immunology, Pneumonia, Bacterial pathology, Pseudomonas aeruginosa pathogenicity, RNA, Messenger metabolism, Respiratory Mucosa metabolism, Respiratory Mucosa microbiology, Respiratory Mucosa pathology, Apoptosis immunology, Hepatocyte Growth Factor biosynthesis, Macrophages, Alveolar metabolism, Neutrophils pathology, Pneumonia, Bacterial metabolism

Abstract

Hepatocyte growth factor (HGF) is postulated to play an important role in the repair of pulmonary epithelium in acute lung injury. To evaluate the role of HGF in bacterial pneumonia, the kinetics of HGF production and the cellular sources of HGF have been examined in the lungs of mice that had been intratracheally challenged with Pseudomonas aeruginosa. Neutrophil accumulation in the airway occurred immediately, reached a peak at 36 h, and then progressively declined by 14 d after infection. We found a biphasic pattern of HGF messenger RNA expression and protein synthesis in the lung after bacterial infection. The first peak for HGF production was found at 6 h after infection, and the primary source of HGF was shown to be bronchial epithelial cells. Interestingly, the second peak for HGF production, which was found around 48 to 72 h after infection, was closely associated with the increase in the percentage of alveolar macrophages (AMs) that became positive for myeloperoxidase, indicating phagocytosis of apoptotic neutrophils. The cellular source of the second peak was found to be AMs. Further, murine AMs which phagocytosed apoptotic neutrophils induced higher levels of HGF production in vitro. These results strongly indicate a novel mechanism of HGF production by AMs, which are phagocytosing apoptotic neutrophils, and the pivotal role of AMs in the healing and repair of damaged pulmonary epithelium through the production of HGF.

Published

2001

13. [Effects of macrolides on neutrophil apoptosis, IL-8 production, and neutrophil clearance mechanism].

Author

Dobashi Y, Oishi K, Amano H, Yoshimine H, and Nagatake T

Subjects

Cells, Cultured, Erythromycin pharmacology, Humans, Phagocytosis drug effects, Anti-Bacterial Agents pharmacology, Apoptosis drug effects, Interleukin-8 metabolism, Macrophages immunology, Neutrophils immunology

Published

2001

14. [Tracheal neutrophils and macrolides].

Author

Oishi K

Subjects

Bronchi cytology, Humans, In Vitro Techniques, Macrolides, Anti-Bacterial Agents pharmacology, Apoptosis drug effects, Bronchi drug effects, Interleukin-8 analysis, Neutrophils drug effects

Published

2000

15. [Inhibition of neutrophil-derived IL-8 production caused by EM (erythromycin) 201 derivative: modification of the activities by the 5-position desosamine side chain].

Author

Yoshimine H, Oishi K, Nagatake T, Matsushima K, and Omura T

Subjects

Anti-Bacterial Agents pharmacology, Cells, Cultured, Clarithromycin pharmacology, Erythromycin pharmacology, Humans, Structure-Activity Relationship, Erythromycin analogs & derivatives, Interleukin-8 biosynthesis, Neutrophils immunology

Published

1998

16. Nitrite reductase from Pseudomonas aeruginosa induces inflammatory cytokines in cultured respiratory cells.

Author

Oishi K, Sar B, Wada A, Hidaka Y, Matsumoto S, Amano H, Sonoda F, Kobayashi S, Hirayama T, Nagatake T, and Matsushima K

Subjects

Bronchi cytology, Cells, Cultured, Epithelial Cells, Epithelium immunology, Humans, Interleukin-8 genetics, Macrophages, Alveolar immunology, Precipitin Tests, RNA, Messenger analysis, Recombinant Proteins pharmacology, Bronchi immunology, Interleukin-8 biosynthesis, Neutrophils immunology, Nitrite Reductases pharmacology, Pseudomonas aeruginosa enzymology

Abstract

Persistent infection with Pseudomonas aeruginosa increases interleukin-8 (IL-8) levels and causes dense neutrophil infiltrations in the airway of patients with chronic airway diseases. To investigate the role of P. aeruginosa infection in IL-8 production in the airway of these patients, we examined whether cell lysates of P. aeruginosa could cause IL-8 production from human bronchial epithelial cells. Diluted sonicated supernatants of P. aeruginosa (SSPA) with a mucoid or nonmucoid phenotype stimulated human bronchial epithelial (BET-1A) cells to produce IL-8. In this study, we have purified a 59-kDa heat-stable protein with IL-8-inducing activity from the SSPA by sequential ion-exchange chromatography. The N-terminal sequence of this purified protein completely matched a sequence at the N-terminal part of the mature protein of nitrite reductase from P. aeruginosa. In addition, immunoblotting with a polyclonal immunoglobulin G (IgG) against recombinant Pseudomonas nitrite reductase demonstrated a specific binding to the purified protein. Furthermore, the immunoprecipitates of the SSPA with a polyclonal IgG against recombinant nitrite reductase induced a twofold-higher IL-8 production in the BET-1A cell culture than did the immunoprecipitates of the SSPA with a control IgG. These lines of evidence confirmed that Pseudomonas nitrite reductase was responsible for IL-8 production in the BET-1A cells. The purified nitrite reductase induced maximal expression of IL-8 mRNA in the BET-1A cells at 1 to 3 h after stimulation, and the IL-8 mRNA expression declined by 8 h after stimulation. New protein translation was not required for nitrite reductase-mediated IL-8 mRNA expression in the BET-1A cells. Nitrite reductase stimulated the BET-1A cells, as well as human alveolar macrophages, pulmonary fibroblasts, and neutrophils, to produce IL-8. In contrast, nitrite reductase induced significant levels of tumor necrosis factor alpha and IL-1beta protein only in human alveolar macrophages. These data support the notion that nitrite reductase from P. aeruginosa induces the production of inflammatory cytokines by respiratory cells and may contribute to the pathogenesis of chronic airway diseases and persistent P. aeruginosa infection.

Published

1997

17. Inhibition of neutrophil apoptosis by antioxidants in culture medium.

Author

Oishi K and Machida K

Subjects

Catalase pharmacology, Cell Separation, Cell Survival drug effects, Cells, Cultured, Culture Media pharmacology, Humans, Neutrophils metabolism, Reactive Oxygen Species physiology, Superoxide Dismutase pharmacology, Antioxidants pharmacology, Apoptosis drug effects, Neutrophils drug effects

Abstract

Neutrophil apoptosis is an important mechanism that has implications for understanding the life span and toxic potentials of neutrophils at inflamed sights. In this study the authors examined the possibility that reactive oxygen species (ROS) released by neutrophils can regulate neutrophil survival. Cu,Zn-superoxide dismutase (Cu,Zn-SOD), Mn-SOD, and catalase in culture media were significantly effective in delaying the spontaneous apoptosis, suggesting that ROS play an important role in the resolution of inflammation by inducing neutrophil apoptosis. In this experiment, boiled Cu,Zn-SOD had no effect on inhibiting the apoptosis, but boiled Mn-SOD from Bacillus stearothermophilus was more effective in inhibiting the apoptosis than untreated Mn-SOD at the same dose. However, the boiled Mn-SOD showed only 80% of O2- inhibitable activity compared with the untreated Mn-SOD. This effect may be attributed to the partial liberation of manganese because MnCl2 inhibited the apoptosis effectively. Furthermore, Cu,Zn-SOD was effective in delaying apoptosis only when added to the culture within the first 3 h of incubation, suggesting that the isolation of neutrophils from peripheral blood enhances apoptosis of neutrophils.

Published

1997

18. Endogenous tumor necrosis factor (TNF) alpha mediates neutrophil accumulation at the mid-phase of a murine model of Pseudomonas aeruginosa pneumonia.

Author

Sonoda F, Oishi K, Iwagaki A, and Matsumoto K

Subjects

Animals, Bronchoalveolar Lavage Fluid cytology, Cell Movement drug effects, Colony Count, Microbial, Disease Models, Animal, Female, Leukocyte Count, Mice, Mice, Inbred ICR, Mitosis, Pneumonia, Bacterial microbiology, Pseudomonas Infections microbiology, Pseudomonas aeruginosa pathogenicity, Time Factors, Neutrophils physiology, Pneumonia, Bacterial immunology, Pseudomonas Infections immunology, Tumor Necrosis Factor-alpha physiology

Abstract

To determine the role of endogenous tumor necrosis factor (TNF) alpha on neutrophil influx into the lungs in acute Pseudomonas aeruginosa pneumonia, we evaluated TNF alpha activity, inflammatory cell response and neutrophil chemotactic activity in the bronchoalveolar lavage fluids (BALFs) of P. aeruginosa-infected mice. In the case of fatal pneumonia, the TNF alpha activity in the BALFs appeared within 3 hr, peaked at 6-12 hr and attenuated within 24 hr after intratracheal challenging, while no TNF alpha activity was detected in the plasma. The elevation of TNF alpha activity in the BALFs was closely associated with neutrophil accumulation. Mirroring the TNF alpha activity response and the influx of neutrophils into the murine airway, the number of neutrophils in the BALFs increased within 3 hr, peaked at 6-12 hr and remained elevated up to 24 hr after challenging. Neutralization of the TNF alpha activity in the BALFs with anti-murine TNF antiserum decreased the level of neutrophil migration by BALF 45.0-49.7% at 6 hr and 49.3-54.2% at 12 hr, while the neutralizing antiserum had no effect on the level of neutrophil migration by BALFs at 3 and 24 hr. Furthermore, the intravenous administration of anti-murine TNF antiserum 2 hr before challenging significantly inhibited neutrophil migration into the lungs of mice with sublethal pneumonia (P < 0.05; compared with mice receiving pre-immune serum). These data suggest that intra-alveolar TNF alpha plays an important role in causing lung neutrophil accumulation at the mid-phase of murine P. aeruginosa pneumonia.

Published

1997

19. Olprinone improves diaphragmatic contractility and fatigability during abdominal sepsis in a rat model.

Author

Miyakawa, H., Oishi, K., Hagiwara, S., Kira, S., Kitano, T., Iwasaka, H., and Noguchi, T.

Subjects

*DIAPHRAGM physiology, *RESPIRATORY insufficiency, *SEPSIS, *SEPTIC shock, *NEUTROPHILS, *ENZYME inhibitors, *PHOSPHODIESTERASES, *LABORATORY rats

Abstract

Respiratory failure with diaphragmatic fatigability is common in patients suffering sepsis or septic shock. However, the development and progress of diaphragmatic fatigability remains poorly understood, and no method has been established to treat fatigability. In this study, we hypothesize that neutrophil activation contributes to the development of diaphragmatic fatigability. We also sought to investigate whether a phosphodiesterase inhibitor, olprinone, improves diaphragmatic fatigability associated with abdominal sepsis and inhibits an increase in myeloperoxidase activity in diaphragmatic muscle. Male Wistar rats were randomly assigned to a sham group, coecal legation perforation group (CLP), and a phosphodiesterase inhibitor (PDE) pretreated group. At 16 h after surgical procedure, the left hemidiaphragm was removed for the measurement of diaphragmatic contractility and fatigability. In addition, for the measurement of serial changes in myeloperoxidase activity, the right hemidiaphragm was also removed at 4, 8 or 16 h after the surgical procedure in each group. In a septic model involving rats, we observed that diaphragmatic muscles were fatigable and myeloperoxidase activity increased. We also demonstrated that intraperitoneal administration of olprinone improves diaphragmatic fatigability and inhibits an increase in myeloperoxidase activity induced by abdominal sepsis. Olprinone represents a potential therapy for cases of respiratory failure with diaphragmatic fatigability resulting from inhibition of neutrophil activation. [ABSTRACT FROM AUTHOR]

Published

2004

20. Dexamethasone impairs pulmonary defence against Pseudomonas aeruginosa through suppressing iNOS gene expression and peroxynitrite production in mice.

Author

Satoh, S., Oishi, K., Iwagaki, A., Senba, M., Akaike, T, Akiyama, M., Mukaida, N., Atsushima, K. M, and Nagatake, T.

Subjects

*LUNG disease prevention, *PSEUDOMONAS aeruginosa, *NITRIC-oxide synthases, *NEUTROPHILS

Abstract

To elucidate the in vivo mechanisms involved in the impairment in pulmonary defence as the result of treatment with glucocorticoids, we established fatal pneumonia with bacteraemia in dexamethasone (DEX)-treated mice by means of an intratracheal challenge of Pseudomonas aeruginosa. An increased neutrophil influx was observed in bronchoalveolar lavage (BAL) fluids from both untreated and DEX-treated mice. The complete suppression of an inducible isoform of nitric oxide synthase (iNOS) mRNA expression and tumour necrosis factor alpha (TNF-α) production during the early phase of pneumonia, but not CXC chemokine production, were found in the case of the DEX-treated mice. An immunohistochemical study with a specific antibody also revealed negative staining for nitrotyrosine in the lung tissue of DEX-treated mice, while the formation of nitrotyrosine, which indirectly indicates the generation of peroxynitrite with a potent bactericidal activity, was detected clearly in the bronchial epithelium as well as alveolar phagocytic cells of lung tissue from untreated mice. Furthermore, an intraperitoneal administration of S-methyl-isothiourea (SMT), a potent inhibitor of NOS, significantly decreased the survival and increased bacterial density in the case of untreated mice. In contrast, no significant effects on the survival and bacterial density in the lung and blood were found as the result of treatment with SMT in DEX-treated mice. Collectively, a complete repression of iNOS gene expression and a lack of the generation of peroxynitrite as well as an inhibition of TNF-α production in the lung appeared to be responsible for the progression of the fatal pneumonia due to P. aeruginosa in DEX-treated mice. [ABSTRACT FROM AUTHOR]

Published

2001