scholarly journals Polysaccharide-Containing Macromolecules in a Kampo (Traditional Japanese Herbal) Medicine, Hochuekkito: Dual Active Ingredients for Modulation of Immune Functions on Intestinal Peyer's Patches and Epithelial cells

2011 ◽  
Vol 2011 ◽  
pp. 1-13 ◽  
Author(s):  
Hiroaki Kiyohara ◽  
Kazuki Nonaka ◽  
Michiko Sekiya ◽  
Tsukasa Matsumoto ◽  
Takayuki Nagai ◽  
...  
Keyword(s):  
Immune System ◽  
Epithelial Cells ◽  
Antibody Response ◽  
Marrow Cell ◽  
Mucosal Immune System ◽  
Upper Respiratory Tract ◽  
Peyer’S Patch ◽  
Peyer's Patch ◽  
Specific Antibody Response ◽  
Upper Respiratory

A traditional Japanese herbal (Kampo) medicine, Hochuekkito (Bu-Zhong-Yi-Qi-Tang in Chinese, TJ-41) is a well-known Kampo formula, and has been found to enhance antigen-specific antibody response in not only local mucosal immune system in upper respiratory tract, but also systemic immune system through upper respiratory mucosal immune system. Although this immunopharmacological effect has been proposed to express by modulation of intestinal immune system including Peyer's patches and intestinal epithelial cells, active ingredients are not known. TJ-41 directly affected the production of bone marrow cell-proliferative growth factors from murine Peyer's patch immunocompetent cellsin vitro. Among low molecular, intermediate size and macromolecular weight fractions prepared from TJ-41, only fraction containing macromolecular weight ingredients showed Peyer's patch-mediated bone marrow cell-proliferation enhancing activity. Anion-exchange chromatography and gel filtration gave 17 subfractions comprising polysaccharides and lignins from the macromolecular weight fraction of TJ-41, and some of the subfractions showed significant enhancing activities having different degrees. Some of the subfractions also expressed stimulating activity on G-CSF-production from colonic epithelial cells, and statistically significant positive correlation was observed among enhancing activities of the subfractions against Peyer's patch immunocompetent cells and epithelial cells. Among the fractions from TJ-41 oral administration of macromolecular weight ingredient fraction to mice succeeded to enhance antigen-specific antibody response in systemic immune system through upper respiratory mucosal immune system, but all the separated fractions failed to enhance thein vivoantibody response in upper respiratory tract.

Functions of tonsils in the mucosal immune system of the upper respiratory tract using a novel animal model, Suncus murinus

2006 ◽  
Vol 126 (11) ◽  
pp. 1164-1170 ◽  
Author(s):  
Masaki Suzumoto ◽  
Muneki Hotomi ◽  
Keiji Fujihara ◽  
Shinji Tamura ◽  
Kiyonori Kuki ◽  
...  
Keyword(s):  
Animal Model ◽  
Immune System ◽  
Respiratory Tract ◽  
Mucosal Immune System ◽  
Upper Respiratory Tract ◽  
Suncus Murinus ◽  
Upper Respiratory

scholarly journals Innate Immune Responses to Influenza Virus Infections in the Upper Respiratory Tract

Viruses ◽  
2021 ◽  
Vol 13 (10) ◽  
pp. 2090
Author(s):  
Edin J. Mifsud ◽  
Miku Kuba ◽  
Ian G. Barr
Keyword(s):  
Influenza Virus ◽  
Immune System ◽  
Epithelial Cells ◽  
Immune Responses ◽  
Respiratory Tract ◽  
Innate Immune System ◽  
Innate Immune ◽  
Upper Respiratory Tract ◽  
Adaptive Immune ◽  
Upper Respiratory

The innate immune system is the host’s first line of immune defence against any invading pathogen. To establish an infection in a human host the influenza virus must replicate in epithelial cells of the upper respiratory tract. However, there are several innate immune mechanisms in place to stop the virus from reaching epithelial cells. In addition to limiting viral replication and dissemination, the innate immune system also activates the adaptive immune system leading to viral clearance, enabling the respiratory system to return to normal homeostasis. However, an overzealous innate immune system or adaptive immune response can be associated with immunopathology and aid secondary bacterial infections of the lower respiratory tract leading to pneumonia. In this review, we discuss the mechanisms utilised by the innate immune system to limit influenza virus replication and the damage caused by influenza viruses on the respiratory tissues and how these very same protective immune responses can cause immunopathology.

scholarly journals Stimulating Effect of Japanese Herbal (Kampo) Medicine, Hochuekkito on Upper Respiratory Mucosal Immune System

2006 ◽  
Vol 3 (4) ◽  
pp. 459-467 ◽  
Author(s):  
H. Kiyohara ◽  
T. Nagai ◽  
K. Munakata ◽  
K. Nonaka ◽  
T. Hanawa ◽  
...  
Keyword(s):  
Influenza Virus ◽  
Immune System ◽  
Antibody Response ◽  
Oral Administration ◽  
Nasal Cavity ◽  
Antibody Titer ◽  
Mucosal Immune System ◽  
Kampo Medicine ◽  
Iga Antibody ◽  
Upper Respiratory

Japanese herbal (Kampo) medicine, Hochuekkito (Bu-Zhong-Yi-Qi-Tang in Chinese, TJ-41) and Juzentaihoto (Shi-Quan-Da-Bu-Tang in Chinese, TJ-48) are well-known Kampo formulas used as tonic. Although these medicines have separately been applied to the patients clinically depending on their symptoms, the differences of the pharmacological activities for these medicines have not been fully understood. TJ-48 and TJ-41 were compared for their effects on antibody response in upper respiratory mucosal immune systemin vivo. Oral administration of TJ-41 (100 mg kg-1 per day) to early aged BALB/c mice, which were nasally sensitized with influenza hemagglutinin vaccine, significantly enhanced influenza virus-specific IgA and IgG antibody titers in nasal cavity and sera, respectively. However, oral administration of TJ-48 (100 mg kg-1 per day) failed to show the enhancing activity. TJ-41 increased not only influenza virus-specific IgA antibody titer but also total IgA antibody titer in nasal cavity. The stimulating activity of TJ-41 disappeared after treatment with methotrexate. The present study strongly suggests that TJ-41 can stimulate the mucosal immune system of upper respiratory tract, and results in enhancement of antigen-specific antibody response in upper respiratory mucosal and systemic immune systems.

scholarly journals Peyer's Patch Dendritic Cells Process Viral Antigen from Apoptotic Epithelial Cells in the Intestine of Reovirus-infected Mice

2004 ◽  
Vol 200 (2) ◽  
pp. 235-245 ◽  
Author(s):  
Marina N. Fleeton ◽  
Nikhat Contractor ◽  
Francisco Leon ◽  
J. Denise Wetzel ◽  
Terence S. Dermody ◽  
...  
Keyword(s):  
T Cells ◽  
Epithelial Cells ◽  
Cd4 T Cells ◽  
Cell Protein ◽  
Peyer’S Patch ◽  
Peyer's Patch ◽  
Antigen Uptake ◽  
Cross Presentation

We explored the role of Peyer's patch (PP) dendritic cell (DC) populations in the induction of immune responses to reovirus strain type 1 Lang (T1L). Immunofluorescence staining revealed the presence of T1L structural (σ1) and nonstructural (σNS) proteins in PPs of T1L-infected mice. Cells in the follicle-associated epithelium contained both σ1 and σNS, indicating productive viral replication. In contrast, σ1, but not σNS, was detected in the subepithelial dome (SED) in association with CD11c+/CD8α−/CD11blo DCs, suggesting antigen uptake by these DCs in the absence of infection. Consistent with this possibility, PP DCs purified from infected mice contained σ1, but not σNS, and PP DCs from uninfected mice could not be productively infected in vitro. Furthermore, σ1 protein in the SED was associated with fragmented DNA by terminal deoxy-UTP nick-end labeling staining, activated caspase-3, and the epithelial cell protein cytokeratin, suggesting that DCs capture T1L antigen from infected apoptotic epithelial cells. Finally, PP DCs from infected mice activated T1L-primed CD4+ T cells in vitro. These studies show that CD8α−/CD11blo DCs in the PP SED process T1L antigen from infected apoptotic epithelial cells for presentation to CD4+ T cells, and therefore demonstrate the cross-presentation of virally infected cells by DCs in vivo during a natural viral infection.

Significance of Quantitative Salivary Cultures for Group A and Non-group A β-Hemolytic Streptococci in Patients with Pharyngitis and in Their Family Contacts

PEDIATRICS ◽  
1979 ◽  
Vol 64 (6) ◽  
pp. 904-912
Author(s):  
Edward L. Kaplan ◽  
Robert Couser ◽  
Barbara Ballard Huwe ◽  
Carolyn Mckay ◽  
Lewis W. Wannamaker
Keyword(s):  
Antibody Response ◽  
Respiratory Tract ◽  
Group A Streptococci ◽  
Upper Respiratory Tract ◽  
C Reactive Protein ◽  
Throat Culture ◽  
Reactive Protein ◽  
Group A ◽  
Bona Fide ◽  
Upper Respiratory

One hundred ninety-six individuals, 86 with clinically overt pharyngotonsillitis and 110 of their clinically negative contacts were studied to evaluate the sensitivity and the specificity of quantitative saliva cultures for group A β-hemolytic streptococci. We also compared this technique with semiquantitative throat cultures as a means of isolating group A streptococci and of differentiating the streptococcal carrier state from patients with bona fide streptococcal upper respiratory tract infection as defmed by the presence of an antibody response. The data indicate that the throat culture is a more reliable means of identifying group A β-hemolytic streptococci in the upper respiratory tract than is the saliva culture. The converse is true for non-group A β-hemolytic streptococci; the saliva culture is a much better means for isolating these organisms. In individuals positive by both techniques we found good correlation between the degree of positivity of the saliva culture and the degree of positivity of the throat culture. Furthermore, while there was a definite trend for individuals with strongly positive cultures to demonstrate more often an antibody rise in either antistreptolysin O and/or antideoxynibonuclease B—indicating bona fide infection—this relationship was not sufficiently constant to provide a clear differentiation. This study also indicates that discordance (one positive, one negative) of simultaneous duplicate semiquantitative throat cultures is much more common among individuals who do not show an antibody response ("carriers") than among those with an antibody response (bona fide infection). This study confirms our previous observations suggesting that the presence of C-reactive protein in the serum of patients with a positive culture for group A streptococci and clinical signs and symptoms of pharyngitis is often an indication of true streptococcal upper respiratory tract infection, and that even with a positive saliva culture at the initial visit, a negative C-reactive protein is only infrequently (25%) associated with an antibody response.

scholarly journals Friend or Foe: Interbacterial Competition in the Nasal Cavity

2020 ◽  
Author(s):  
Britney L. Hardy ◽  
D. Scott Merrell
Keyword(s):  
Immune System ◽  
Nasal Cavity ◽  
Human Body ◽  
Molecular Mechanisms ◽  
Upper Respiratory Tract ◽  
Competition And Cooperation ◽  
Age Dependent ◽  
Upper Respiratory ◽  
Physical And Chemical ◽  
Nasal Microbiota

Like other microbes that live on or in the human body, the bacteria that inhabit the upper respiratory tract, in particular the nasal cavity, have evolved to survive in an environment that presents a number of physical and chemical challenges; these microbes are constantly bombarded with nutritional fluctuations, changes in humidity, the presence of inhaled particulate matter (odorants, allergens), and competition with other microbes. Indeed, only a specialized set of species are able to colonize this niche and successfully contend with the host's immune system and the constant threat from competitors. To this end, bacteria that live in the nasal cavity have evolved a variety of approaches to outcompete contenders for the limited nutrients and space; broadly speaking, these strategies may be considered a type of ‘bacterial warfare’. A greater molecular understanding of bacterial warfare has the potential to reveal new approaches or molecules that can be developed as novel therapeutics. As such, there are many studies within the last decade that have sought to understand the complex polymicrobial interactions that occur in various environments. Herein, we review what is currently known about the age-dependent structure and interbacterial relationships within the nasal microbiota and summarize the molecular mechanisms that are predicted to dictate bacterial warfare in this niche. Though the currently described interactions are complex, in reality we have likely only scratched the surface in terms of a true understanding of the types of interbacterial competition and cooperation that are thought to take place in and on the human body.

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