REGULATORY B CELLS IN THE JEJUNAL PEYER’S PATCHES OF BOVINE AND SHEEP

2014 September 1900

Toll-like receptors (TLRs) recognize microbial components as danger signals and induce immune responses. TLR’s are expressed in many tissues of the host that are involved in immune responses including the intestines where they are abundantly expressed. This situation presents a challenge in the gastrointestinal tract which is constantly exposed to a wide variety of commensal organisms. Therefore, innate immune recognition in the intestine must be tightly regulated to prevent unwanted inflammation against harmless commensal micro-organisms and yet allow for the induction of protective immunity to invading pathogens. A dysregulation of this balance can result in intestinal inflammation. Peyer’s patches (PP) are the primary site for the induction of immune responses in the intestine and abundantly express TLRs. It is not known how PP regulate microbial signals from commensal bacteria and yet mount vigorous immune responses against dangerous pathogens. CpG DNA, an agonist for TLR9, can strongly activate immune cells in blood, lymph nodes and spleen. However, CpG very poorly activates immune cells from Peyer’s patches, although these cells express TLR9 [1, 2]. Understanding how TLR responses are regulated in PP cells will unveil important information on how immune responses are regulated in the intestine. Investigations from our laboratory have revealed a B cell population (CD5-CD11c-CD21+) in PP that spontaneously secrete high levels of IL-10 which in turn down regulates TLR9 induced IFN and IL-12 production. These IL-10-secreting PP B cells represent a novel subset of the recently proposed regulatory B cells (Bregs) in the intestine [1, 3]. Bregs may have a role in maintaining tolerance to commensal bacteria thereby achieving intestinal homeostasis. The overall goal of the work described in this thesis was to improve our understanding of the immunobiology of Bregs. We performed several experiments to achieve this goal. First, we studied the development of regulatory B cells in lambs of different ages. Jejunal PP were collected from 3-4 month old, neonatal and fetal lambs and the production of IL-10 (the immunoregulatory cytokine secreted by Bregs) was assayed. We found that IL-10 was secreted by CD21+ B cells from the PP in all the three age groups, confirming that Bregs develop prior to birth. We then wondered whether our CD21+ B cells might be contaminated with other cells or activated when using MACS to enrich B cells. To address this issue, we prepared very highly purified CD21+ B cell population using high speed cell sorting to negatively enrich for B cells. We also sorted DCs and assayed IL-10 production in both cell populations. Only the PP B cells spontaneously secreted IL-10. In contrast, dendritic cells, T cells, macrophages, neutrophils and NK cells did not secrete detectable IL-10. Since B cells exist as regulatory and effector populations in mice, we wondered whether an effector B cell population also existed in ovine PP that secreted the pro-inflammatory cytokines IFN-, IFN- and IL-12. Therefore, ovine PP B cells were fractionated into CD72+CD21+and CD72+CD21- subpopulations to assess their capacity to secrete pro-inflammatory cytokines. Interestingly, the CD72+CD21- B cell population secreted the cytokines IFN-, IFN- and IL-12 suggesting there was an effector population. We then surveyed for Bregs in different mucosal and peripheral tissues in sheep. We observed the Bregs frequency varied among the different lymphoid tissues. Finally, we investigated whether Bregs were present in PP of other ruminant species. We identified Bregs exist in PP of neonatal calves. In conclusion, our investigations reveal that ovine Bregs develop in utero prior to antigen exposure, and are present in a variety of mucosal and peripheral tissues. We also report the novel observation that two distinct B cell sub-populations are present in ovine jejunal PP’s: Regulatory and effector B cells.

Immune regulation

regulatory cells

Bregs

Peyer’s patches

TLR9

CpG ODN

sheep

Fonction des phagocytes de la plaque de Peyer dans la réponse immunitaire mucosale / Function of Peyer's patch phagocytes during immune mucosal response

Da Silva, Clément

10 November 2017

Nous avons mis en évidence la présence des phagocytes exprimant le lysozyme dans les Plaque de Peyer chez l’Homme et montré que, comme chez la souris, elles sont principalement localisées dans le SED et sont distinctes des cDC. Dans un deuxième temps, nous avons étudié dans les PP de souris la fonction des différentes populations de phagocytes nouvellement caractérisées. Nous avons en particulier étudié l’impact de la détection d’un acide nucléique d’origine virale par les phagocytes en utilisant un agoniste synthétique du TLR7 : le R848. Bien que TLR7 soit exprimé par les cellules dérivées de monocytes et les DC plasmacytoïdes mais pas par les cDC, nous avons mis en évidence un processus d’activation rapide des cDC impliquant le TNF. Celui-ci conduit à une migration des cDC depuis les villosités adjacentes au dôme vers les IFR et à une forte augmentation de l’expression du CMH-II, des molécules co-stimulatrices ainsi que des gènes dépendants de l’interféron. L’activation du TLR7 induit également une forte expression de la sous unité p40 de l’IL-12 par les LysoDC et certains macrophages. De manière intéressante, nous avons également observé une forte expression d’IL-12 p40 par les LysoDC et certains macrophages peu de temps après le sevrage. Cela nous a conduits à étudier le rôle de cette cytokine dans la mise en place de la réponse immunitaire mucosale. Notre étude a donc des répercussions sur la compréhension des mécanismes conduisant à la mise en place de la réponse immunitaire mucosale en réponse à l’implantation du microbiote intestinal peu de temps après la naissance. / In this study, we first showed that lysozyme expressing cells are found in human PP and share features with their mouse counterpart, such as location and origin. Then, we investigated the behaviour of mouse PP phagocytes upon TLR7 stimulation, using the small synthetic agonist, R848. In PP TLR7 is expressed by monocyte derived cells and plasmacytoid DC, but not by cDC. Nevertheless, TLR7 stimulation triggers a quick activation of cDC. This activation relies on TNF secretion and leads to a massive migration of cDC from the dome associated villi to the IFR and to an increase of MHCII, co-stimulatory molecules and interferon-stimulated gene expression. Stimulation by TLR7 also induces a massive production of IL12p40 by LysoDC and some macrophages. Interestingly, we observed a similar increase of IL-12 p40 production by LysoDC and macrophages shortly after weaning. We thus investigated the impact of Il-12 p40 secretion on the development of the mucosal immune response. Therefore, our study provides clues on the mechanisms involved in the establishment of the mucosal immune response following microbiota colonization.

Immunité mucosale

Cellules monocytiques

Plaques de Peyer

Mucosal immunity

Monocyte derived cell

Peyer’s patches

571

Barrier function of the Follicle-Associated Epithelium in Stress and Crohn's disease

Keita, Åsa

January 2007

Crohns sjukdom är en kronisk inflammatorisk tarmsjukdom av okänd orsak. Det tidigaste tecknet på Crohns sjukdom är mikroskopiska sår i det s.k. follikelassocierade epitelet (FAE) som täcker ansamlingar av immunceller i tarmen. FAE är specialiserat för att fånga innehåll från tarmen och transportera det till underliggande immunvävnad. Denna funktion är viktig för att inducera skyddande immunsvar, men den utgör också en ingångsväg för sjukdomsalstrande bakterier. Crohns sjukdom är associerat med ett kraftigt ökat immunsvar mot bakterier, och sjukdomsförloppet kan ändras av stress. Det övergripande syftet med avhandlingen var att studera effekterna av stress på FAE samt att undersöka rollen av FAE vid utvecklingen av tarminflammation, särskilt vid Crohns sjukdom. Inledningsvis studerades effekterna av psykologisk stress på FAE. Stressade råttor uppvisade ökad genomsläpplighet av bakterier efter stress, och passagen var högre i FAE än i vanligt epitel. Efterföljande experiment visade att stressförändringarna i slemhinnan regleras via kortikotropinfrisättande hormon och mastceller. Vidare visade det sig att vasoaktiv intestinal peptid kunde efterlikna stressens effekter på genomsläppligheten, och att detta kunde förhindras genom att blockera mastcellerna. Studier av tunntarmsslemhinna från patienter med icke-inflammatorisk tarmsjukdom och friska kontroller visade en högre passage av bakterier i FAE än i vanligt epitel. Hos patienter med Crohns sjukdom var bakteriepassagen genom FAE betydligt ökad jämfört med kontroller. Resultaten från detta avhandlingsarbete visar att stress kan förändra upptaget av bakterier från tarmen via FAE, med mekanismer som innefattar kortikotropinfrisättande hormon och mastceller. Detta har gett nya kunskaper kring regleringen av slemhinnebarriären. Vidare presenterar denna avhandling nya insikter i sjukdomsuppkomsten vid Crohns sjukdom genom att påvisa en tidigare okänd defekt i barriärfunktionen i FAE. / The earliest observable signs of Crohn’s disease are microscopic erosions in the follicle-associated epithelium (FAE) covering the Peyer’s patches. The FAE, which contains M cells, is specialised in sampling of luminal content and delivery to underlying immune cells. This sampling is crucial for induction of protective immune responses, but it also provides a route of entry for microorganisms into the mucosa. Crohn’s disease is associated with an increased immune response to bacteria, and the disease course can be altered by stress. The overall aim of this thesis was to study the effects of stress on the FAE and elucidate the role of FAE in the development of intestinal inflammation, specifically Crohn’s disease. Initially, rats were submitted to acute and chronic water avoidance stress to study the effects of psychological stress on the FAE. Stressed rats showed enhanced antigen and bacterial passage, and the passage was higher in FAE than in regular villus epithelium (VE). Further, stress gave rise to ultrastructural changes. Subsequent experiments revealed the stress-induced increase in permeability to be regulated by corticotropin-releasing hormone and mast cells. Furthermore, vasoactive intestinal peptide (VIP) mimicked the stress effects on permeability, and the VIP effects were inhibited by a mast cell stabiliser. Human studies of ileal mucosa from patients with non-inflammatory disease and healthy controls showed a higher antigen and bacterial passage in FAE than in VE. In patients with Crohn’s disease, the bacterial passage across the FAE was significantly increased compared to non-inflammatory and inflammatory controls (ulcerative colitis). Furthermore, there was an enhanced uptake of bacteria into dendritic cells, and augmented TNF-α release in Crohn’s disease mucosa. Taken together this thesis shows that stress can modulate the uptake of luminal antigens and bacteria via the FAE, through mechanisms involving CRH and mast cells. It further shows that human ileal FAE is functionally distinct from VE, and that Crohn’s disease patients exhibit enhanced FAE permeability compared to inflammatory and non-inflammatory controls. This thesis presents novel insights into regulation of the FAE barrier, as well as into the pathophysiology of Crohn’s disease by demonstrating a previously unrecognised defect of the FAE barrier function in ileal Crohn’s disease.

Corticotropin-releasing hormone

Crohn’s disease

51Cr- EDTA

Escherichia coli

follicle-associated epithelium

horseradish peroxidase

human

ileum

inflammatory bowel disease

intestinal mucosa

mast cell

M cell

permeability

Peyer’s patches

rat

Ussing chamber

vasoactive intestinal peptide

villus epithelium

Surgery

Kirurgi