Osamu Kajikawa scite author profile

HE ACUTE RESPIRATORY DIStress syndrome (ARDS) is a serious form of acute lung injury and has a mortality rate of at least 30%. 1,2 Although the most obvious clinical abnormalities are referable to the lung, the most common cause of death is dysfunction of other organs, termed multiple organ dysfunction syndrome (MODS). [1][2][3] Multiple organ dysfunction syndrome is often irreversible, with mortality ranging from 60% to 98%. [4][5][6] To date, there is neither an effective treatment for MODS nor an effective means for preventing its onset.Mechanical ventilation is essential for patients with ARDS. However, animal and clinical studies have shown that mechanical ventilation can worsen preexisting lung injury and produce ventilator-induced lung injury (VILI). The spectrum of VILI includes not only air leaks and increases in endothelial and epithelial permeability, but also includes increases in pulmonary and systemic inflammatory mediators. [7][8][9] The importance of VILI has recently been highlighted by clinical trials demonstrating that protective ventilatory strategies were associated with decreased serum cytokine and chemokine levels, 10,11 decreased levels of organ dysfunction, 11,12 and decreased mortality in patients with Author Affiliations are listed at the end of this article.

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Polymorphonuclear leukocytes mediate Staphylococcus aureus Panton-Valentine leukocidin-induced lung inflammation and injury

Diep

Chan

Tattevin

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

308

345

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Community-associated methicillin-resistant Staphylococcus aureus (CA-MRSA) is epidemic in the United States, even rivaling HIV/AIDS in its public health impact. The pandemic clone USA300, like other CA-MRSA strains, expresses Panton-Valentine leukocidin (PVL), a pore-forming toxin that targets polymorphonuclear leukocytes (PMNs). PVL is thought to play a key role in the pathogenesis of necrotizing pneumonia, but data from rodent infection models are inconclusive. Rodent PMNs are less susceptible than human PMNs to PVL-induced cytolysis, whereas rabbit PMNs, like those of humans, are highly susceptible to PVL-induced cytolysis. This difference in target cell susceptibility could affect results of experimental models. Therefore, we developed a rabbit model of necrotizing pneumonia to compare the virulence of a USA300 wild-type strain with that of isogenic PVL-deletion mutant and -complemented strains. PVL enhanced the capacity of USA300 to cause severe lung necrosis, pulmonary edema, alveolar hemorrhage, hemoptysis, and death, hallmark clinical features of fatal human necrotizing pneumonia. Purified PVL instilled directly into the lung caused lung inflammation and injury by recruiting and lysing PMNs, which damage the lung by releasing cytotoxic granule contents. These findings provide insights into the mechanism of PVL-induced lung injury and inflammation and demonstrate the utility of the rabbit for studying PVL-mediated pathogenesis.

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Toll-like Receptor 1 Polymorphisms Affect Innate Immune Responses and Outcomes in Sepsis

Wurfel

Gordon

Holden

et al. 2008

Am J Respir Crit Care Med

223

231

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Rationale: Polymorphisms affecting Toll-like receptor (TLR)-mediated responses could predispose to excessive inflammation during an infection and contribute to an increased risk for poor outcomes in patients with sepsis. Objectives: To identify hypermorphic polymorphisms causing elevated TLR-mediated innate immune cytokine and chemokine responses and to test whether these polymorphisms are associated with increased susceptibility to death, organ dysfunction, and infections in patients with sepsis. Methods: We screened single-nucleotide polymorphisms (SNPs) in 43 TLR-related genes to identify variants affecting TLR-mediated inflammatory responses in blood from healthy volunteers ex vivo. The SNP associated most strongly with hypermorphic responses was tested for associations with death, organ dysfunction, and type of infection in two studies: a nested case-control study in a cohort of intensive care unit patients with sepsis, and a case-control study using patients with sepsis, patients with sepsis-related acute lung injury, and healthy control subjects. Measurements and Main Results: The SNP demonstrating the most hypermorphic effect was the G allele of TLR1 27202A/G (rs5743551), which associated with elevated TLR1-mediated cytokine production (P , 2 3 10 220 ). TLR1 27202G marked a coding SNP that causes higher TLR1-induced NF-kB activation and higher cell surface TLR1 expression. In the cohort of patients with sepsis TLR1 27202G predicted worse organ dysfunction and death (odds ratio, 1.82; 95% confidence interval, 1.07-3.09). In the case-control study TLR1 27202G was associated with sepsis-related acute lung injury (odds ratio, 3.40; 95% confidence interval, 1.59-7.27). TLR1 27202G also associated with a higher prevalence of gram-positive cultures in both clinical studies. Conclusions: Hypermorphic genetic variation in TLR1 is associated with increased susceptibility to organ dysfunction, death, and grampositive infection in sepsis.

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Pathogenesis of septic shock in Pseudomonas aeruginosa pneumonia

Kurahashi

Kajikawa²,

Sawa³

et al. 1999

J. Clin. Invest.

291

227

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Osamu Kajikawa

Injurious Mechanical Ventilation and End-Organ Epithelial Cell Apoptosis and Organ Dysfunction in an Experimental Model of Acute Respiratory Distress Syndrome

Polymorphonuclear leukocytes mediate Staphylococcus aureus Panton-Valentine leukocidin-induced lung inflammation and injury

Toll-like Receptor 1 Polymorphisms Affect Innate Immune Responses and Outcomes in Sepsis

Pathogenesis of septic shock in Pseudomonas aeruginosa pneumonia

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