Influence of microbial products and inflammation on the function of mesenchymal stromal cells isolated from different sources

Raicevic, Gordana

13 December 2011

Mesenchymal stromal cells (MSC) are adherent, clonogenic, fibroblast-like cells endowing with unique multipotent differentiation potential and immunosuppressive properties. They are considered as promising candidates for regenerative medicine and immunotherapy. <p>MSC can be isolated from different tissue sources including bone marrow (BM), adipose tissue (AT) and Wharton’s Jelly (WJ). Although fulfilling the ISCT criteria required to be recognized as MSC, MSC from these different sources could disclose some differences taking into account their different anatomical origin and ontogeny as well.<p>In the present work, we investigated the influence of MSC source on their immunosuppressive as well as differentiation properties. We further extended our study to the role of the microenvironment (infection and inflammation) on these features. <p>We show that BM-MSC express Toll-like receptors (TLR) from TLR1 to TLR6. In an inflammatory environment, TLR2, 3 and 4 are significantly upregulated. By upregulating TLR3 and TLR4 transcription, inflammation increases BM-MSC responsiveness to LPS (TLR4 ligand) and poly(I:C) (TLR3 ligand) leading to a pro-inflammatory shift of their cytokine profile. The effect of TLR ligation on BM-MSC osteogenic potential is donor dependent. Inflammation as well as stimulation with LPS and poly(I:C) result in a decrease of BM-MSC immunosuppressive capabilities. <p>We further observed that BM-, AT- and WJ-MSC do not have the same pattern of TLR expression and consequently do not respond the same way to bacterial or viral infection. WJ-MSC do not express TLR4 and although TLR3 is present at the protein level it is not functional as its ligation do not trigger cytokine expression. Inflammation modulates this TLR pattern expression by upregulating TLR3 in all three MSC types and TLR4 only in BM-MSC. TLR ligation increases the production of inflammatory cytokines in BM- and AT- but not in WJ-MSC and augments anti-inflammatory cytokines in AT-MSC. Although inflammation increases in all MSC types the secretion of inflammatory cytokines, additional TLR triggering does not further affect WJ-MSC. The immunosuppressive potential of WJ-MSC on mixed leucocytes reaction (MLR) is not affected either by inflammation or by TLR triggering.<p>On the differentiation side, WJ-MSC has the lower potential to differentiate into osteoblast as compared to BM- and AT-MSC, as revealed by alkaline-phosphatase (ALP) activity and by measuring extracellular Ca2+ deposits. However, inflammation is able to strongly increase the osteogenic differentiation of WJ-MSC as calcification and ALP activity appears as early as at day 7. However this latter enzymatic activity remains much lower than that disclosed by BM-MSC. TLR3 or TLR4 triggering does not affect the osteogenesis of WJ-MSC while it increases it in AT- and also, although to lesser extent, in BM-MSC.<p><p>Our work establishes that the source from which MSC is derived is of major importance for the design of MSC based immunointervention. WJ-MSC appear to be the most attractive cell type when an immunosuppressive action is required in an inflammatory or infectious context. Although WJ-MSC are poorly osteogenic, a complete osteogenic differentiation can be obtained under inflammatory conditions. Taking into account their easy accessibility as well as their huge proliferative potential, these data open an avenue for using these cells in regenerative medicine particularly in clinical settings where chronic inflammation or infection have to be considered. <p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Médecine pathologie humaine

Connective tissue cells

Mesenchyme

Fibroblasts

Cell receptors

Cellules conjonctives

Mésenchyme

Fibroblastes

Récepteurs cellulaires

Wharton's jelly

Toll-like receptors

Study of the modulation of innate immune responses in intestinal epithelial cells by Toxoplasma gondii and its correlation with parasite virulence / Etude de la modulation des réponses immunitaires innées dans les cellules épithéliales intestinales par Toxoplasma gondii, et sa corrélation avec la virulence du parasite

Morampudi, Vijay

28 October 2010

Early innate response of intestinal epithelial cells is the first line defense against enteric pathogens. Toxoplasma gondii infections acquired naturally via the peroral route, encounter intestinal epithelial cells early post-infection. Although the population structure of T. gondii is known to be highly clonal, clinical strains of T. gondii have been classified into three genotypes based on their virulence. In this study we investigated whether human intestinal epithelial cell immune response to T. gondii is virulence dependent. We demonstrated distinct virulence of the three T. gondii genotype strains evaluated in human intestinal epithelial cells by their capacity to replicate and induce host cell cytotoxicity. The early host innate mechanisms such as activation of signaling pathways and induction of innate effectors were likewise differentially elicited by the three T. gondii strains. Low levels of TLR dependent NF-kB activation and a failure to rapidly up-regulate innate cytokine and chemokine genes was observed after virulent Type I strain infection. In contrast, early innate response to the less virulent Type II strain was rapid, efficient and led to high levels of IL-8 and IL-6 secretion, whereas response to Type III parasites was intermediate. Early expression of b-defensin 2 gene was suppressed specifically by virulent Type I strain and its activation prior to infection in intestinal epithelial cells led to decreased parasite viability. These findings provide evidence for T. gondii strain virulence dependent down-modulation of early human intestinal epithelial cell innate responses and highlight the importance of these cells in host defense against this infection. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Toxoplasma

Immune response

Intestines -- Diseases

Toxoplasma

Réaction immunitaire

Intestins -- Maladies

virulent and avirulent strains

innate immune genes

Toll-like receptors

NF-kB

defensins

Intestinal epithelial cells

Identification of a ciliary defect associated with pulmonary nontuberculous mycobacterial disease

Fowler, Cedar

January 2013

Over the past several decades, the rate of pulmonary nontuberculous my- cobacterial (PNTM) disease has been increasing. PNTM patients gener- ally consist of lean and tall women presenting with symptoms in the sixth decade of life. They have a de nitive morphophenotype, but no consistent immunological abnormalities despite extensive investigation. I hypothesized that respiratory epithelial dysfunction might play a critical role in PNTM disease predisposition because diseases with defects of mucociliary transport have high rates of PNTM disease that increase with age, suggesting a direct connection between airway epithelial function and PNTM disease. I found that PNTM patients have a distinct respiratory epithelial phenotype ex vivo and decreased nasal nitric oxide levels in vivo. The PNTM ex vivo phenotype consists of an abnormally low resting ciliary beat frequency (CBF) and abnormal CBF response to toll-like receptor (TLR) agonists. The depressed baseline CBF response in PNTM patient cells can be normalized ex vivo by augmenting the nitric oxide-cyclic guanosine monophosphate pathway without appreciable e ect on CBF in healthy controls. In healthy controls, bacterial TLR agonists increase CBF and viral TLR agonists decrease CBF. In PNTM patients these responses are impaired and are not normalized with the normalization of the resting CBF rate. Inhibitor-induced disruption of signalling pathways associated with CBF regulation demonstrated that the majority of the CBF response to TLR agonists involves the PI-3K pathway and PKC. Inhibition of the PI-3K pathway (PI-3K , Akt1, and PDK1) closely mimicked the ex vivo phenotype seen in PNTM patient respiratory epithelia. These data identify a novel aspect of PNTM disease with in vivo and ex vivo correlates that suggest that PNTM infection is associated with abnormal function at both the CBF and TLR response levels. This phenotype is novel, reproducible, and provide a foundation with which to determine the genetic basis of PNTM infection.

616.2

Quinase de adesão focal é crítica para a expressão de moléculas pró-aterogênicas em células vasculares submetidas a estresse mecânico / Focal Adhesion Kinase is critical for the expression of pro-atherogenic molecules in vascular cells subjected to mechanical stress

Fernandes, Maruska do Rocio Neufert

07 June 2011

Orientador: Wilson Nadruz Júnior / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-18T15:00:13Z (GMT). No. of bitstreams: 1 Fernandes_MaruskadoRocioNeufert_D.pdf: 2265410 bytes, checksum: 8aea5cb9fd86986cff8999d0e81b40fc (MD5) Previous issue date: 2011 / Resumo: O aumento do estresse circunferencial ou mecânico é um dos principais estímulos responsáveis pela aterogênese induzida por hipertensão arterial, além de ser um determinante para a localização das placas ateroscleróticas na árvore arterial. Neste contexto, moléculas mecano-sensíveis ou responsivas ao estresse mecânico podem exercer um papel fundamental no desenvolvimento do fenótipo pró-aterogênico em células vasculares. A quinase de adesão focal (FAK) tem sido considerada uma proteína central na mecanotransdução em diversos tipos celulares, por seu papel potencial na ativação de vias de sinalização envolvidas no crescimento celular, anti-apoptose e inflamação. Neste trabalho, nós inicialmente caracterizamos a ativação da FAK em linhagem de célula endotelial de aorta de coelho (RAEC) submetida a estiramento mecânico pulsátil e, em seguida, investigamos a influência da inibição desta proteína, por meio de oligodeoxinucletídeo-antisense e pelo inibidor farmacológico PP2, sobre a expressão de moléculas pró-aterogênicas e a adesividade leucocitária neste modelo experimental. Nossos resultados mostraram que a FAK é ativada precocemente por estiramento mecânico e é fundamental para a expressão de TLR2, TLR4, VCAM-1 e E-selectina induzida por sobrecarga mecânica em células endoteliais. A inibição da FAK endotelial com PP2 e oligodeoxinucletídeo-antisense bloqueou a adesão de células monocitóides THP1 às células endoteliais induzida por estiramento in vitro. O próximo passo foi avaliar o impacto da FAK sobre expressão de moléculas pró-aterogênicas induzida por sobrecarga hemodinâmica in vivo, utilizando o modelo de coarctação da aorta em ratos Wistar. Os resultados dos estudos in vivo demonstraram que a FAK é ativada nas primeiras horas após instituição da sobrecarga pressora em segmentos de aorta. Após 7 dias de coarctação, os segmentos aórticos proximais à estenose apresentaram aumento na expressão de TLR2, TLR4, VCAM-1, E-selectina, metaloproteinases de matriz 2 e 9, além de maior adesividade às células THP1. Estes fenômenos foram inibidos por meio de tratamento prévio dos animais com small interference RNA direcionado especificamente contra a FAK. Em conjunto, estes dados indicam que a FAK exerce um papel fundamental na resposta pró-aterogênica de células vasculares ao estresse mecânico in vitro e in vivo / Abstract: The increase in circumferential or mechanical stress is a major stimulus by which hypertension stimulates atherogenesis and a main determinant for the location of atherosclerotic plaques in the arterial tree. Mechano-sensitive molecules can play a key role in the development of pro-atherogenic vascular cell phenotype. Focal Adhesion Kinase (FAK) has been considered a central protein in mechanotransduction, because of its potential role in the activation of cell signaling pathways involved in cell growth, anti-apoptosis, and inflammation. In this work, we initially evaluated the activation of FAK in rabbit aortic endothelial cell (RAEC) lineage subjected to cyclic mechanical stretch and then investigated the impact of FAK inhibition, by transfection with specific oligodeoxynucleotide antisense and pre-treatment with the pharmacological inhibitor PP2, on the expression of pro-atherogenic molecules and leukocyte adhesion in this experimental model. Our results showed that FAK was rapidly activated by mechanical stretch and was critical to stretch-induced expression of TLR2, TLR4, VCAM and E-selectin in endothelial cells. FAK endothelial inhibition also blocked the adhesion of THP1 monocytoid cells to endothelial cells induced by stretch in vitro. The next step was to investigate the role of FAK in load-induced expression of pro-atherogenic molecules in vivo, by subjecting Wistar rats to aortic constriction. The results of in vivo assays revealed an early activation of FAK in aortic segments subjected to pressure overload. After 7 days of aortic constriction, vascular segments subjected to high pressure exhibited increased expression of TLR2, TLR4, VCAM-1, E-selectin, matrix metalloproteinases 2 e 9, and higher adhesion to THP-1 monocytoid cells. These events were inhibited by pre-treatment of rats with small interference RNA designed to silence FAK expression. In general these findings indicate that FAK is critical do stretch-induced expression of pro-atherogenic molecules in vascular cells in vitro and in vivo / Doutorado / Ciencias Basicas / Doutor em Clínica Médica

Aterosclerose

Moléculas de adesão celular

Receptores Toll-like

Integrinas

Atherosclerosis

Cell Adhesion Molecules

Focal Adhesion Kinase 1

Toll-Like Receptors

Integrins

Pistes pour une meilleure compréhension et de nouvelles modalités de traitement de la toxoplasmose / Insights towards a better understanding and novel treatment modalities of Toxoplasmosis

Hamie, Maguy

22 November 2019

Toxoplasma gondii est un parasite répandu, ayant un impact médical et vétérinaire. Chez les hôtes intermédiaires, les tachyzoïtes et les bradyzoïtes sont responsables de la toxoplasmose aiguë (TA) et chronique (TC), respectivement. Sous la réponse immunitaire, la TA évolue en TC, se manifestant par des kystes latents dans le cerveau et les muscles squelettiques. De plus, une forte corrélation existe entre la TC et plusieurs neuropathologies et cancers. Chez les patients immunodéprimés, la TC peut être réactivée et conduire à une maladie potentiellement fatale. Les traitements actuels ciblent principalement les TA, et présentent plusieurs effets secondaires. Nous nous sommes concentrés sur la TC et la compréhension de ses mécanismes moléculaires. Nous avons d’abord étudié l’efficacité de l’imiquimod contre la TA et la TC. Au cours de la TA, l'imiquimod a entraîné le recrutement de cellules T dans le péritoine et la rate de souris traitées et a considérablement diminué le nombre de kystes cérébraux lors de l'établissement de la TC. Remarquablement, le gavage de souris avec les kystes cérébraux restants chez des souris traitées à l'imiquimod n'a pas pu induire de TC. Après l'établissement de la TC, nous avons démontré que l'imiquimod réduisait considérablement le nombre de kystes cérébraux chez les souris chroniquement infectées et augmentait les récepteurs Toll-Like 11 et 12, qui se lient à une protéine du tachyzoïte, la profiline. Parallèlement, l’expression de TLR-7 augmentait, probablement par son agoniste, l'imiquimod. L'imiquimod induit une interconversion, comme l'indiquent la diminution du taux de protéine P21 et l'augmentation du taux de protéine P30, exprimées exclusivement et respectivement chez les bradyzoïtes et les tachyzoïtes. Les voies en aval de TLR-11/12 ont été activées via la voie MyD88 de signalisation, entraînant une induction ultérieure de la réponse immunitaire. In vitro, l'imiquimod n’affecte pas la souche Toxoplasma dépourvue de profiline, suggérant un rôle via le complexe Profilin/TLR-11/12. Enfin, le traitement par l'imiquimod a régulé positivement les transcrits des ligands 9 (CXCL9) et 10 (CXCL10), connus pour induire le recrutement de lymphocytes T dans des foyers réactivés du Toxoplasme afin d'éliminer l'infection.Ensuite, nous nous sommes concentrés sur les mécanismes moléculaires impliqués dans la TA et particulièrement dans la TC. Nous avons caractérisé P18, un membre de la superfamille SRS. Lorsque nous avons supprimé P18, la virulence était atténuée au cours de la TA, dû à un échappement plus rapide des tachyzoïtes du péritoine de souris, parallèle à un recrutement significatif de cellules dendritiques. De manière concomitante, moins de tachyzoïtes étaient détectés dans la rate, tandis que plus de parasites ont atteint le cerveau de souris infectées. L’élimination de P18 a augmenté le nombre de kystes de bradyzoïtes in vitro et dans le cerveau de souris infectées. Une expression induite de cytokines, notamment CXCL9 et 10, a également été observée. L’immunosuppression de souris KO P18 infectées a retardé la réactivation. L’infection orale de souris immunodéficientes ayant des macrophages fonctionnels a montré un prolongement de survie, contrairement aux souris n’ayant pas de macrophage, soulignant un rôle de l'IFN-g dans l’interconversion. Collectivement, ces données confirment le rôle de P18 dans la modulation de la réponse immunitaire, facilitant le passage des tachyzoïtes dans le cerveau et favorisant la formation de kystes. P18 joue également un rôle central dans la réactivation et la dissémination de parasites de manière dépendante de l'IFN-g. Dans l'ensemble, nous avons montré le potentiel thérapeutique prometteur de l'imiquimod contre la toxoplasmose et caractérisé le rôle de P18 dans l'immunomodulation afin de contrôler la dissémination et l'interconversion. Notre étude ouvre la voie à de nouvelles approches thérapeutiques contre la toxoplasmose, sa persistance et sa réactivation. / Toxoplasma gondii is a prevalent parasite of medical and veterinary impact. In intermediate hosts, tachyzoïtes and bradyzoïtes are responsible for acute and chronic toxoplasmosis (AT and CT), respectively. In immunocompetent patients, AT evolves, due to the host immunity, into a persistent CT, which manifests as latent tissue cysts in the brain and skeletal muscles. CT correlates with several neuro-pathologies and cancers. In immunocompromised patients, CT may reactivate and poses a life threatening condition. Current treatments primarily target AT, are limited to general anti-parasitic/anti-bacterial drugs, and associate with several limitations. Here, we focused on targeting CT and understanding its molecular mechanisms. First, we explored the efficacy of Imiquimod against AT and CT. During AT, Imiquimod led to recruitment of T cells to peritoneum and spleen of treated mice and significantly decreased the number of brain cysts upon establishment of CT. Remarkably, gavage of mice with the remaining brain cysts from Imiquimod treated mice, failed to induce CT. Post-establishment of CT, we demonstrated that Imiquimod sharply reduced the number of brain cysts in chronically infected mice, and significantly increased Toll-Like Receptors 11 and 12. These TLRs are usually expressed by dendritic cells and monocytes, and bind a tachyzoïte actin-binding protein, profilin. Concomitantly, TLR-7 was upregulated, likely by its agonist Imiquimod. Imiquimod induced interconversion as documented by the decreased protein levels of P21, and increased protein levels of P30, exclusively expressed in bradyzoïtes and tachyzoïtes respectively. Pathways downstream from TLR-11/12 were activated, through MyD88 dependent TLR signaling, which resulted in subsequent immune response induction. In vitro, Toxoplasma strain lacking profilin, does not respond to Imiquimod, suggesting a role through Profilin/TLR-11/12. Finally, Imiquimod treatment upregulated the transcript expression levels of Chemokine (C-X-C motif) ligand 9 (CXCL9) and 10 (CXCL10), known to induce T cell recruitment to reactivated Toxoplasma foci to clear the infection.Then, we focused on molecular mechanisms involved in AT and notably CT. We characterized P18, a Surface-Antigen 1 (SAG-1) Related Sequence (SRS) superfamily member. When we deleted P18, the virulence was attenuated during AT. Indeed, P18 depletion led to a faster clearance of the parasites from the peritoneum of mice, paralleled by a substantial recruitment of dendritic cells, presumably a vehicle for tachyzoïte dissemination. Concomitantly, a lower number of tachyzoïtes was detected in the spleens while a higher number of parasites reached the brains of infected mice. P18 depletion increased the number of bradyzoïte cysts, in vitro and in the brains of infected mice. An induced expression of cytokines/chemokines, including CXCL9 and 10 was also observed. Immunosuppression of infected mice with KO P18, delayed reactivation. Oral infection of Severe Combined Immunodeficiency (SCID) (with IFN-g secreting macrophages), and NOD/Shi-scid/IL-2Rgnull (NSG) mice (lacking IFN-g), showed a significant prolonged survival in infected SCID but not NSG mice. This underlines a role for IFN-g in the conversion from bradyzoïtes to tachyzoïtes. Collectively, these data support a role of P18 in orchestrating the immune response, which ultimately facilitates tachyzoïte trafficking to the brain and favors cyst formation. P18 plays also a central role in parasite reactivation and dissemination in an IFN-g dependent fashion.Altogether, we showed the promising therapeutic potential of Imiquimod against toxoplasmosis and characterized P18 role in immunomodulation to control dissemination and interconversion. Our study paves the path towards new therapeutic approaches against toxoplasmosis. It tackled key questions pertaining to establishment, maintenance and reactivation of CT and should result in a comprehensive solution to this endemic disease.

Toxoplasmose chronique

Récepteurs Toll-Like 11. 12. 7

Interféron-Γ

Réactivation

Imiquimod

P18

Chronic toxoplasmosis

Toll-Like receptors 11. 12. 7

Interferon-Γ

Reactivation

Imiquimod

P18

Polymorfismus heterodimerů TLR2/TLR1 a TLR2/TLR6 u inbredních linií myši domácí odvozených z přirozených populací / Polymorphism of TLR2/TLR1 and TLR2/TLR6 heterodimers in wild-derived house mouse inbred strains

Bainová, Zuzana

January 2013

Contrary to the classical mouse inbred strains with unnatural genetic variability, wild-derived strains offer a more suitable model for evolutionary immunology. Toll-like receptors (TLRs) belong to initial detectors of invading pathogens. Although TLRs recognise conserved structures they were shown to be polymorphic. This polymorphism is associated with various diseases. In my thesis, I describe variability of Tlr1, 2 and 6 in 24 inbred strains derived from two subspecies of house mouse (Mus m. musculus and M. m. domesticus). These Tlrs exhibit different levels in variability among the strains. In Tlr1 the polymorphic sites are spread along the whole exodomain. Tlr6 is quite conserved (a lower amount of substitutions located far from the binding region and with minor modifications in the amino acid residue properties). Tlr2, on the contrary, contains some substitutions with substantial alternations of residue properties that are located within or nearby the binding region and the subspecies differ at these sites. All alleles of M. m. domesticus and M. m. musculus, except for Tlr1 PWD, Tlr2 STAIL, are phylogenetically separated. The strains and the subspecies vary in the production of IL-1β, IL-12 a NO after stimulation by TLR1, 2 and 6 ligands. This trend is, however, presumably influenced by the effect of...

Interakce myšího polyomaviru s Toll-like receptory / Interactions of mouse polyomavirus with Toll-like receptors

Pokorná, Karolína

January 2017

Toll-like receptors (TLRs) are important receptor family of innate immunity. They enable fast recognition of infection through so called pathogen associated molecular patterns (PAMPs). In this thesis, we studied interaction of mouse polyomavirus (MPyV) with TLRs of mouse embryonic fibroblasts (MEF cells). We observed that inhibition of TLR4 signaling abolished response of MEF cells to MPyV. This suggested that TLR4 plays a role in MEF cells recognition of MPyV. To detect response of MEF cell to MPyV, we measured IL-6 production by ELISA. Next, we investigated effect of TLR4 signalization on MPyV infection. Inhibition of TLR4 signaling with CLI-095 inhibitor did not affect number of infected cells. Presence of TLR4 antagonist, LPS-RS, led to significant decrease in quantity of infected cells 20 hours post infection. Decrease in number of infected cells was also observed in presence of LPS. Viral infection was also inhibited by TLR9 antagonist ODN 2088. We also investigated role of MAP kinases in MPyV infection. We tested, whether inhibition of selected MAP kinases would affect number of infected cells. Inhibition of kinase p38 did not affect infection. On the other hand, inhibition of MEK kinase or JNK resulted in decrease of number of cells infected by MPyV.

AIRE-exprimující buňky v imunitní toleranci ve zdraví a nemoci / AIRE-expressing cells in immune tolerance in health and disease

Vobořil, Matouš

January 2020

The process of self-nonself discrimination by the immune system is a fundamental attribute of healthy organisms. Since T-cell receptors (TCRs) are generated by the random process of somatic recombination without regard to its targets, the newly developed T-cell clones could recognize either self or nonself antigens. The mechanisms of central tolerance robustly limit the self-reactive repertoire within the T-cell population via deletion of clones that express self-reactive TCRs or their deviation into the regulatory T-cells (Tregs). These processes occur mainly in the thymic medulla where the TCR reactivity to self-antigens is tested by various types of antigen-presenting cells, mainly medullary thymic epithelial cells (mTECs), dendritic cells (DCs), and B-cells. The cooperation between these cell-types has been shown to be essential for the establishment of thymic tolerance. A key molecule regulating the production of self-antigens is the autoimmune regulator (AIRE), which is thought to be expressed primarily by mTECs and its mutations are associated with the development of severe autoimmune disorders. In this context, the presented thesis describes the novel regulatory pathways important for the development of a functional and "harmless" repertoire of T-cells and for enforcement of tolerance....

TLR Activation Prevents Hematopoietic Chimerism Induced by Costimulation Blockade: A Dissertation

Miller, David M.

20 May 2008

Costimulation blockade based on a donor-specific transfusion and anti-CD154 mAb is effective for establishing mixed allogeneic hematopoietic chimerism and inducing transplantation tolerance. Despite its potential, recent evidence suggests that the efficacy of costimulation blockade can be reduced by environmental perturbations such as infection or inflammation that activate toll-like receptors (TLR). TLR agonists prevent costimulation blockade-induced prolongation of solid organ allografts, but their effect on the establishment of hematopoietic chimerism has not been reported. In this dissertation, we hypothesized that TLR activation during costimulation blockade would prevent the establishment of mixed hematopoietic chimerism and shorten skin allograft survival. To test this hypothesis, costimulation blockade-treated mice were co-injected with TLR2 (Pam3Cys), TLR3 (poly I:C), or TLR4 (LPS) agonists and transplanted with allogeneic bone marrow and skin grafts. Supporting our hypothesis, we observed that TLR agonists administered at the time of costimulation blockade prevented the establishment of mixed hematopoietic chimerism and shortened skin allograft survival. To investigate underlying cellular and molecular mechanisms, we first determined that LPS administration during costimulation blockade did not increase production of alloantibodies or activate natural killer cells. Similarly, costimulation blockade-treated mice depleted of CD4+ or CD8+ cells did not become chimeric when co-injected with LPS. In contrast, mice depleted of both CD4+ and CD8+cell subsets were resistant to the effects of LPS. We next observed that alloreactive T cells were activated by TLR agonists in mice treated with costimulation blockade, and this activation correlated with LPS-induced maturation of donor and host alloantigen-presenting cells. In contrast, TLR4-deficient mice treated with costimulation blockade and LPS did not upregulate costimulatory molecules on their APCs, and mixed chimerism and permanent skin allograft survival were readily achieved. We further observed that injection of recombinant IFN-β recapitulated the detrimental effects of LPS, and that LPS-injected mice deficient in the type I IFN receptor were partially protected. Importantly, alloantigen-presenting cells did not upregulate costimulatory molecules in response to LPS, and mixed chimerism and permanent skin allograft survival were readily established in type I IFN receptor and MyD88 double deficient mice treated with costimulation blockade. We conclude that the TLR4 agonist LPS prevents the establishment of mixed hematopoietic chimerism and shortens skin allograft survival in mice treated with costimulation blockade by inducing the production of type 1 IFN and MyD88-dependent factors that upregulate costimulatory molecules on APCs, leading to the generation of activated alloreactive T cells.

Bone Marrow Transplantation

Hematopoiesis

Immune Tolerance

Skin Transplantation

Transplantation Chimera

Transplantation Immunology

Toll-Like Receptors

Animal Experimentation and Research

Cells

Genetic Phenomena

Hemic and Immune Systems

Surgical Procedures, Operative

Therapeutics

Régulation de l’expression et de la sécrétion du Peptide YY par des produits du microbiote intestinal dans des cellules entéroendocrines humaines de type L / Deciphering the effects of microbial products on Peptide YY expression and secretion in human enteroendocrine L-cells

Larraufie, Pierre

04 September 2015

L’intestin est un organe majeur de l’organisme de par ses fonctions et sa localisation, établissant une barrière active avec un environnement complexe composé du microbiote intestinal, des aliments digérés et d’éléments sécrétés par l’hôte. Outre ses fonctions digestives, absorptives et immuno-modulatrices, l’intestin est également un important organe endocrinien, sécrétant une vingtaine d’hormones régulant des fonctions physiologiques telles que la prise alimentaire, le métabolisme énergétique ou la digestion et le transit intestinal. Ces hormones sont produites par une famille de cellules épithéliales, les cellules entéroendocrines, et sécrétées en réponse à l’activation de récepteurs reconnaissant des éléments du contenu intestinal. En particulier, les cellules entéroendocrines de type L sécrètent GLP-1 et Peptide YY (PYY), impliqués respectivement dans le contrôle de la sécrétion d’insuline et dans la régulation de la prise alimentaire ainsi que le contôle du transit intestinal. Elles sont majoritairement localisées dans l’iléon et le côlon, là où le microbiote intestinal est le plus dense. Le microbiote intestinal permet notamment la fermentation des fibres en acides gras à chaîne courte (AGCC), la production de vitamines, la maturation du système immunitaire de l’hôte et joue lui-même un rôle de barrière contre les pathogènes. Un dialogue entre le microbiote intestinal et l’hôte est nécessaire dans le maintien de l’homéostasie intestinale, nécessitant la reconnaissance par l’hôte de produits bactériens. En particulier, les récepteurs Toll-Like (TLR) permettent la reconnaissance de motifs moléculaires microbiens conservés et sont impliqués dans l’immunité innée de l’hôte. Certains produits bactériens ont également un rôle physiologique tels que les AGCC qui sont une source d’énergie importante pour les colonocytes, en plus d’activer des voies de signalisation. Il a été montré que des régimes riches en fibres, et donc permettant une production accrue d’AGCC, ou plus directement l’administration d’AGCC dans le colon, induit chez l’Homme ou la souris une augmentation des concentrations plasmatiques de PYY, par des mécanismes encore peu compris. En utilisant des lignées cellulaires humaines modèles de cellules entéroendocrines, nous avons caractérisé les effets des AGCC et des motifs bactériens reconnus par les TLR sur l’expression et la sécrétion de PYY et les réponses calciques dans ces cellules. Nous avons pu démontrer que les TLR sont exprimés de manière fonctionnelle, à l’exception de TLR4 et TLR8 dans ces cellules, et que le butyrate augmente leur expression et leur activité. De plus, la stimulation des TLR augmente l’expression de Pyy d’un rapport de 2, mais a peu d’effet sur la sécrétion dans ces cellules. Les AGCC ont des effets divers sur l’expression et la sécrétion de PYY. Alors que le butyrate et le propionate augmentent très fortement l’expression de Pyy, par des rapports respectivement de 120 et 40, par un mécanisme d’inhibition des déacétylases d’histone et de lysine, l’acétate augmente l’expression de Pyy plus modestement par l’activation des récepteurs aux AGCC FFAR2 et FFAR3. L’activation de FFAR2 par les AGCC induit une forte réponse calcique oscillatoire induisant la sécrétion de PYY alors que l’activation de FFAR3 et de GPR109a par le butyrate diminue la concentration calcique cellulaire et réduit les réponses sécrétoires. Ainsi, les AGCC augmentent la production de PYY et régulent sa sécrétion, mais avec et par des effets différents. Ces travaux ont permis de montrer le rôle des cellules entéroendocrines humaines de type L dans la reconnaissance de produits bactériens par l’expression de TLR et par leurs réponses aux AGCCs modulant l’expression et de la sécrétion de PYY. De plus, ces résultats ont déterminés en partie les mécanismes impliqués dans la réponse bénéfique de l’hôte à la consommation de fibres et l’augmentation de la production d’AGCC. / The human gut exerts major functions, mainly due to its localization and by forming an active barrier between a complex environment made of the gut microbiota, digested food products and secreted elements by the host. The main functions of the gut are digestion and absorption of nutrients and it is the first pool of immune cells and a barrier against pathogens, but the gut is also a main endocrine organ secreting more than twenty different hormones. These hormones regulate a wide range physiological functions including food intake, energy metabolism or digestion. Enteroendocrine cells, a sparse family of intestinal epithelial cells, produce and secrete these hormones in response to the activation of a variety of receptors that sense luminal content. Among them, L-cells secrete GLP-1 and Peptide YY (PYY) that are implicated in the regulation of insulin secretion, food intake and intestinal motility. They are mainly found in the distal ileum and in the colon where the microbiota is the densest. Gut microbiota ferments fibers into short chain fatty acids (SCFAs), produces vitamins, participates in regulation of host immune system and is a barrier against pathogens. The cross talk between microbiota and intestinal epithelium is important to maintain the local homeostasis, and is mediated by host receptors recognizing microbial products. Among them, Toll-like receptors (TLRs) recognize conserved microbial associate molecular patterns (MAMPs) and participate to the host innate immunity. Some microbial products also have important functions for the host such has SCFAs that are an important energy substrate for colonocytes and can also activate different signaling pathways. It was shown that fiber-rich diets, increasing production of SCFAs, as well as direct administration of SCFAs in the colon in humans or mice increased PYY plasma levels through mechanisms still undeciphered. Taking advantage of human cell lines as L-cell models, we assessed the different effects of SCFAs and TLR stimulation on PYY expression and secretion and calcium signaling in these cells. We showed that TLRs are functionally expressed in these cells at the exception of TLR4 and TLR8, and that butyrate, one of the three main SCFAs produced by the microbiota increases cell sensitivity to TLR stimulation by increasing their expression. Moreover, TLR stimulation increases Pyy expression by a fold of two but has little effect on secretion. SCFAs differently regulate Pyy expression. Propionate and butyrate highly increase Pyy expression by a fold of 40 and 120 respectively, and their effects are mainly mediated by inhibition of lysine/histone deacetylases whereas acetate increases expression of Pyy by a fold of 1.8 through stimulation of FFAR2 and FFAR3. SCFAs also induce a strong FFAR2-dependent oscillatory response monitoring PYY secretion whereas butyrate via FFAR3 and GPR109a decreases cytosolic calcium concentration and consequently reduces secretory responses. Thus, SCFAs differently increase PYY production and secretion depending of their chain length. Altogether, these results highlight the role human L-cells in microbiota-host crosstalk by sensing microbial products through expression of TLRs and their responses to SCFAs modulating PYY production and secretion. Furthermore, we deciphered some of the mechanisms implicated in beneficial host response to enriched fiber diets and increased production of SCFAs.

Peptide YY

Cellules entéroendocrines

Microbiote intestinal

Acides gras à chaîne courte

Récepteur de type Toll

Peptide YY

Enteroendocrine cells

Gut microbiota

Short chain fatty acids

Toll-like receptors

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