Microbial Conditioning of the Mucosal Immune System Silbart Lecture – 2/19/14.
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Transcript of Microbial Conditioning of the Mucosal Immune System Silbart Lecture – 2/19/14.
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Microbial Conditioning of the Mucosal Immune System
Silbart Lecture – 2/19/14
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Nature Reviews ImmunologyNagler-Anderson Vol 1: 59-67 (2003)
Pathogens/toxins oftenenter our bodies acrossmucosal surfaces
Surface Areas: Skin – 2 m2 Lung – 140 m2 G.I. – 200 m2
Thus, a very largecommitment of lymphocytesis needed to protect these surfaces
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Innate and antibody-mediated mucosal host defense mechanisms. Shown are soluble antimicrobial proteins lactoperoxidase, lactoferrin, and lysozyme, and the peptide defensins. Human neutrophil peptide (HNP) and Paneth cells in crypt regions produce -defensins, whereas epithelial cells secrete -defensins.
© 2003 by LIPPINCOTT WILLIAMS & WILKINSFundamental Immunology
Anti-microbial peptides (AMPs)
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Tight junctionsmaintain mucosalintegrity
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Fundamentals of Mucosal Immunology
Presence of foreign antigens at a mucosal surface is generally not sufficient to elicit a mucosal immune response - in fact, in the absence of “signal 1 - danger” Ag is often toleragenic (e.g. non-replicating protein antigens).
Regulation of mucosal immune responses is distinct from systemic “humoral” immunity
Stimulation at one mucosal surface often results in mucosal immunity at many, if not all mucosae - “CMIS”
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The “Common Mucosal Immune System”
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“D-MALT”
“O-MALT”
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Cross section of a Peyer’sPatch; epithelial cells (blue)T cells (red) B cells (green)
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Separate Inductive and Effector Sites
Antigen uptake occurs at the “follicle associated epithelium” (FAE), a lymphoepithelial structure that has few if any goblet cells (thereby less mucus) and specialized epithelial cells known as “M” cells.
M cells sample the intestinal surface and lumen through phagocytosis, then pass antigens into a sub-epithelial pocket without processing.
Note: Many pathogens exploit Peyer’s patches - e.g. Salmonella sp.
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Fagarasan and Honjo; Nature Reviews Immunology: 3: 63-72 (2003)
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Nature Reviews ImmunologyNagler-Anderson Vol 1: 59-67 (2003)
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Nature Reviews ImmunologyNagler-Anderson Vol 1: 59-67 (2003)
Entry of GFP-labeled Salmonellatyphimurium throughthe FAE, and uptakeby CD11c+ DCs
(DC’s – red, bacteriagreen)
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The Germinal Center Microenvironment
In the dome region of a Peyer’s patch, the T helper cell population is heavily biased toward a Th2 response.
This leads to B cell isotype switching from sIgM+/sIgD+ to sIgA, heavily influenced by TGF-beta and IL-5.
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Fagarasan and Honjo; Nature Reviews Immunology: 3: 63-72 (2003)
Activation inducedcytidine deaminase
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Reciprocaldown-regulation
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Lymphocyte traffickingAntigen-specific, IgA-committed lymphoblasts emigrate from the FAE, lodge transiently in the mesenteric lymph nodes, where antigen re-exposure and secondary rounds of proliferation/differentiation can occur.
These cells rejoin circulation via the thoracic duct, then home to effector tissues, generally the lamina propria of the intestine or lung, or a variety of glandular tissues.
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Kunkel and ButcherNature Reviews Immunology3: 822-829 (2003)
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Brandtzaeg et al. ImmunologyToday: 20:267-277 (1999)
Selectins and integrinsbind to tissue specificcellular addressins (likezip codes).
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Differential lymphocyt
e trafficking
Brandtzaeg et al. ImmunologyToday: 20:267-277 (1999)
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Kunkel and Butcher; Nature Reviews Immunology3: 822-829 (2003)
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Secretory IgA ProductionOnce the IgA-committed lymphoblasts extravasate into the lamina propria, they will proliferate in the presence of antigen, then terminally differentiate into an S-IgA secreting plasma cell.
S-IgA dimers, joined by a “J” chain, bind to the polymeric immunoglobulin receptor (pIgR), and S-IgA is expelled into the lumen with the secretory component attached.
Note: S-IgA is substantially more proteolytically stable than IgG
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© 2003 by LIPPINCOTT WILLIAMS & WILKINSFundamental Immunology
Trans-epithelialtransport of dimeric IgA
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Molecular dimensions, proteolytic fragments, and domain structure of the human dimeric secretory immunoglobulin A1 molecule.
© 2003 by LIPPINCOTT WILLIAMS & WILKINSFundamental Immunology
Secretory component derived from pIgR (22% sugar)
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The Nasal Associated Lymphoid Tissues (NALT)
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Recognition of commensals and pathogens - TLRs
Basolateral expression
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Defects in NOD2 arefound in 30% of Crohn’sdisease patients
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ToleranceMediated by encounter with antigen while T cells are immature, usually within the thymic epitheliumSecondary mechanisms for peripheral tolerance through anergy or apoptosis.“high-zone” tolerance occurs following activation induce apoptosis.Tolerance is a dynamic process, and depends on dose, timing, route of infection and localization of antigen.
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Th0
www.scielo.br/scielo.php?pid=S0100-879X200900...
Also Tr1 and Th3
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Artis, 20081014
Artis, 2008
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Artis, 2008
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Artis, 2008
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Commensals required for proper development as neonates
Premature birthC-sectionsAntibiotic useC. diff necrotizingenterocolitis (NEC)[colonization resistance]
Bifidobacter andLactobacillus lovebreastmilk oligo-saccharides
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Intestinal dysbiosis, pre-biotics and probiotics
Prebiotics are non-digestible carbohydrates, such as oligosaccharides and fructo-oligosaccharides. They remain in the digestive tract where they stimulate the growth of beneficial bacteria.
http://nutrition.about.com/od/therapeuticnutrition1/p/pro_prebiotics.htm
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