Seo Hyun Koh scite author profile

NTHi up-regulated the expression of PAI-1 and tPA in the bullae of C57BL/6 mice, but not uPA. mRNA expression of IL-1β, TNFα, and MIP-2 was low in PAI-1 KO mice at early time points, but significantly higher at the later stage of OM. Similarly to the gene expression results, histological changes associated with OM were less at days 1 and 3 in PAI-1 KO mice. However, unlike the gradual resolution of OM pathologies in C57BL/6 mice, PAI-1 KO mice showed significant pathological changes of tympanosclerosis.

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TBX21 participates in innate immune response by regulating Toll‐like receptor 2 expression in Streptococcus pneumoniae infections

Woo

Shin

Koh

et al. 2014

Molecular Oral Microbiology

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Nasopharyngeal carriage of Streptococcus pneumoniae (pneumococcus) plays an important role in the development of invasive diseases, and is also critically involved in setting up respiratory bacterial and viral infections. We previously reported that pneumococcus, one of the commonly carried bacteria in the nasopharynx, regulates non-typeable Haemophilus influenzae-induced inflammation by upregulating the expression of Toll-like receptor 2 (TLR2). However, the underlying molecular mechanisms by which TLR2 expression is regulated during pneumococcal infections have not yet been well characterized. TBX21 is an important transcription factor of adaptive immunity, but there is an increasing body of evidence pointing to a role in regulating innate immunity. The expression of TBX21 was reported in epithelial cells, but the expression and role of TBX21 in respiratory epithelium, especially for regulating TLR2, has not yet been studied. In this study, we found that pneumococcus upregulates TBX21 expression in the respiratory epithelium. The effect of pneumococcus on TBX21 expression was dependent on its cytoplasmic toxin, pneumolysin. In addition, epithelial TBX21 expression was not regulated by the gram-negative bacterium non-typeable Haemophilus influenzae, peptidoglycan or endotoxin. Deficiency of TBX21 in mice or knocking down TBX21 in epithelial cells suppressed pneumococcus-induced TLR2 expression, but not that of TLR4 or TLR9. These results indicate that the adaptive immune regulator TBX21 participates in regulating innate immune responses, through regulation of TLR2 expression during pneumococcal infections.

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Thein vivoandin vitroRoles of Epithelial Pattern Recognition Receptors in Pneumococcal Infections

2014

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Streptococcus pneumoniae, also called pneumococcus, is a major cause of infectious disease in human. Pneumococcus resides in the nasopharynx as an upper respiratory commensal, and most of pneumococcal colonizations are asymptomatic in immunocompetent individuals. When nasopharyngeal mucosal homeostasis is disrupted, pneumococcus migrates into middle ear and lower respiratory tract and causes detrimental colonization. In this regard, the epithelial cells of middle ear and lung act as first line of defense against pneumococcus to prevent invasive pneumococcal diseases. Respiratory epithelial cells express various cell-surface and intra-cellular receptors sensing microbial pathogens and respond to sensed pathogens by triggering intra-cellular signaling pathways and inducing pathogen-specific innate immune responses. Various epithelial cell-surface and intra-cellular receptors, such as Toll-like receptors (TLRs), Nod-like receptors (NLRs), intracellular DNA sensing receptors, and scavenger receptors (SRs), participate in sensing of pneumococcus, and the activation of these receptors by pneumococcal components induces anti-pneumococcal innate immune responses including epithelial apoptosis and inflammatory cytokine/chemokine expressions. Epithelial sensing of pneumococcus is a critical step for setting an early defense against pneumococcal infection, and also is required to recruit and activate innate immune cells and trigger adaptive immunity.

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Interleukin-1β Participates in the Development of Pneumococcal Acute Lung Injury and Death by Promoting Alveolar Microvascular Leakage

et al. 2015

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Streptococcus pneumoniae (S. pneumoniae, also known as pneumococcus) infections are major causes of death worldwide. Despite the development and use of effective antibiotics, high, early mortality due to pneumococcal infections has not been decreased for the last few decades. Recent study found a deadly hemorrhagic acute lung injury (ALI) as a major cause of death at the early stage of severe pneumococcal infections. Interleukin (IL)-1β was known to play critical roles not only for the development of ALI but also resolution of it. The role of IL-1β on the pathogenesis of pneumococcal ALI, however, has not been well understood yet. This study aims to investigate the role of IL-1β on the development of pneumococcal ALI and subsequent death. IL-1β expression was upregulated in the lungs of pneumococcal ALI in wild-type (WT) mice, but not in the plasma. Despite an increased expression of pulmonary IL-1β, no inflammatory cell infiltration into airway has been observed. Upregulation of IL-1β expression was indeed dependent on pneumococcal cytoplasmic toxin pneumolysin and its cell surface receptor Toll-like receptor 4. Deficiency of IL-1R1, a cell surface receptor of IL-1β, resulted in a markedly reduced hemorrhagic pulmonary edema and early death in pneumococcal ALI. Finally, IL-1β neutralization in WT mice protects against pulmonary hemorrhagic edema and death. These data suggest that pulmonary expression of IL-1β exacerbates pneumolysin-induced ALI and death by promoting alveolar hemorrhagic edema.

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Seo Hyun Koh

Long pentraxin PTX3 mediates acute inflammatory responses against pneumococcal infection

PAI-1 inhibits development of chronic otitis media and tympanosclerosis in a mouse model of otitis media

TBX21 participates in innate immune response by regulating Toll‐like receptor 2 expression in Streptococcus pneumoniae infections

Thein vivoandin vitroRoles of Epithelial Pattern Recognition Receptors in Pneumococcal Infections

Interleukin-1β Participates in the Development of Pneumococcal Acute Lung Injury and Death by Promoting Alveolar Microvascular Leakage

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