Investigation of the cell biology of human regulatory T cells in the context of transplantation

Milward, Kate

January 2016

Regulatory T cells (Tregs), lymphocytes that suppress immunological reactions, are of great interest for our comprehension of basic immunology and as a therapeutic agent to treat immune-mediated pathologies. Understanding the physiology of these cells will help to inform clinical strategies targeting Tregs. In order to study the homing of human Tregs, we utilised genetic engineering to drive expression of fluorescent protein in human Tregs, permitting in vivo cell tracking. We optimised a protocol for lentivirus-mediated transduction of human Tregs during in vitro expansion, to generate high yields of stably-engineered cells. After infusing labelled cells into a humanised mouse model of skin allotransplantation, we detected human Tregs within a human skin graft by PCR and visualised Tregs moving in the graft, in a live mouse, by two-photon microscopy. Through reverse genetic analyses, we explored molecular mechanisms that allow Tregs to respond adaptively to environmental cues. Neuropilin-1 (NRP1), a transmembrane co-receptor, has been implicated in the function of mouse Tregs. Tregs transduced with shRNA to knock down NRP1 were severely impaired in their capacity to suppress cell proliferation in vitro and to prolong allograft survival in a humanised mouse model. qRT-PCR analysis revealed that transcription the gene encoding the anti-inflammatory cytokine IL-10, and the autophagy-associated genes BECN1, COPS4 and MAP1LC3B, was significantly diminished in NRP1-deficient Tregs. We concluded that in human Tregs, NRP1 is necessary for suppressive function, most likely via regulation of NRP1-dependent regulation of cytokine production and metabolism. Having identified a molecular target via which Treg function might be potentiated, we explored methods to target such molecules for cell therapy applications. Tregs engineered to over-express IL-10, but not NRP1, exerted significantly enhanced suppression of cell proliferation in vitro. Thus, relatively straightforward genetic engineering, compatible with generation of therapeutic cell yields, could be exploited to improve the efficacy of Treg cellular therapy.

617

Regulator T cells in murine AIDS

Paun, Andrea

January 2005

[Truncated abstract] In the last ten years regulator T (Tr) cells have re-emerged as an integral part of the immune system. Research in this field has rapidly demonstrated the role of these cells in the maintenance of immune homeostasis and their involvement in disease. Tr cells are generated in the thymus as a normal part of the developing immune system. Furthermore, antigen-specific Tr cells are induced in the periphery by a mechanism which is yet to be completely elucidated, but is likely to involve dendritic cells. Tr cells play an important role in autoimmune disease, transplantation tolerance, cancer. Most recently Tr cell involvement has been demonstrated in a growing number of infectious diseases. Tr cell induction was reported in Friend Virus infection at the commencement of this study, and subsequent to publication of our findings have also been identified in FIV and HIV. Murine AIDS (MAIDS) is a fatal chronic retroviral infection induced in susceptible strains of mice by infection with BM5d, a replication defective virus, in a viral mixture which is designated LP-BM5. The manipulation of Tr cells detailed in this thesis and the related publication represent the first reported therapy utilising targeted removal of Tr cells. Chapter 1 summarises the literature relevant to this study up to November 2004. Chapter 2 details the materials and methodologies used in this work. Chapter 3 investigates whether Tr cells are involved in the development of murine AIDS, particularly in the early stages of infection. The data presented in this chapter provides evidence of a population of CD4+ Tr cells which express CD25 on their cell surface and secrete TGF-β, some IL-10 and low levels of IL-4 are induced following infection with LP-BM5. These cells were found to arise by day 12 post infection (pi) by flow cytometry and immunosuppressive cytokine expression was found to peak at day 16 pi indicating a role in the early stages of disease progression. Chapter 4 investigates the effect of therapeutically targeting these induced Tr cells using the antimitotic agent Vinblastine during their induction period. The efficacy of treatment was found to be time dependent and was shown to abrogate disease progression maximally when given at day 14 pi. Treatment with anti-CD4 monoclonal antibody was also found to be efficacious at day 14 pi and confirmed the identity of the Tr cells as being CD4+ T cells. Adoptive transfer studies demonstrated that the return of these cells to a successfully treated host results in renewed MAIDS progression, confirming their role in disease progression

T cells -- Effect of drugs on

Vinblastine

Antimitotic agents

AIDS (Disease) -- Pathology

AIDS (Disease) -- Immunotherapy

AIDS (Disease) -- Animal models

Regulator T cells

Murine AIDS

Immunoregulation

Análise de marcadores celulares e moleculares de imunorregulação em biópsias de aloenxerto renal / Analysis of immunoregulation cellular and molecular markers in renal allograft biopsies

Carina Nilsen Moreno

20 June 2013

O transplante renal é atualmente o tratamento de escolha para pacientes com doença renal crônica em estágio 5, devido aos seus melhores resultados na morbimortalidade e melhor qualidade de vida dos pacientes, quando comparado com o tratamento dialítico. No entanto, apesar desses resultados positivos, a sobrevida dos enxertos renais em longo prazo não se modificou. As principais causas de falências tardias do transplante renal são as alterações crônicas do enxerto, caracterizadas por componentes de rejeição crônica e efeitos nefrotóxicos relacionados aos inibidores da calcineurina. O desenvolvimento de estratégias visando modular o sistema imunológico, interferindo no balanço entre mecanismos efetores e reguladores, capazes de induzir a aceitação do órgão (tolerância) seria a melhor alternativa para este cenário. No entanto, os mecanismos imunológicos envolvidos no processo da imunorregulação são pouco compreendidos, o que dificulta a identificação de casos tolerantes e a definição de estratégias para a sua modulação. Dentre as possíveis moléculas envolvidas no processo de imunomodulação, destacam-se a Forkhead Box P3 (FOXp3), marcador de células reguladoras e a enzima indoleamina 2,3 dioxigenase (IDO), reconhecida recentemente como tendo função central na tolerância materno-fetal. No presente estudo, foram utilizadas técnicas de imunohistoquímica para identificar linfócitos T efetores (CD3+), FOXp3 e IDO em biópsias de aloenxerto renal e correlacionar sua expressão com a evolução clínica do enxerto 12 meses após a biópsia. A relação entre células reguladoras e efetoras foi avaliada pelas relações FOXp3/CD3 e IDO/CD3. Devido à limitação do reconhecimento e do diagnóstico de casos de tolerância, só foi possível analisar a expressão destes marcadores em 1 único caso de paciente tolerante. Por outro lado, o estudo do perfil da expressão destes marcadores em outras situações clínicas deve contribuir para a melhor compreensão dos mecanismos envolvidos. Neste contexto, no presente estudo foram analisadas 63 biópsias de enxerto renal em diferentes situações clínicas: enxerto Sem Rejeição (SemRA; n=13), Rejeição Aguda (RA; n=21) e lesões crônicas (LC; n=29) além de 1 caso de paciente com diagnóstico clínico de tolerância operacional (Tolerante; n=1). Este paciente evoluiu com disfunção do enxerto, reiniciou terapia dialítica com a descontinuação do tratamento imunossupressor e após 2 anos em programa de hemodiálise, recuperou a função do enxerto, sendo, então, submetido a biópsia do enxerto renal. As biópsias incluídas foram subdivididas de acordo com a Classificação de Banff-09. As rejeições agudas mediadas por linfócitos T foram classificadas em RA-Banff I (n=15) e RA-Banff II (n=6). Os casos com Lesões Crônicas também foram subdivididos de acordo com a Classificação de Banff-09 em Fibrose intersticial/Atrofia tubular (FIAT; n=15) e Rejeição Crônica Ativa (RCA; n=14). RESULTADOS: analisado isoladamente, o caso Tolerante apresentou um número expressivo de células CD3+ (814 cel/mm2) e FOXp3+ (100,9 cel/mm2), assim como elevada relação FOXp3/CD3 (12,4x102).No entanto, apresentou uma baixa expressão de IDO (0,41% área marcada).Nos casos do grupo RA o número de células CD3+. foi significativamente maior que em LC e SemRA (973±127 cel/mm2; 242±43 cel/mm2 e 0,7 ± 0,4 cel/mm2, respectivamente; p<0,001 vs LC e p<0,0001 vs SemRA). Células CD3+ foram detectadas em todos os compartimentos estudados: interstício, túbulos, vasos, e glomérulos no grupo RA e no grupo LC. Comparando os grupos, houve predomínio de células CD3+ no interstício (p<0,0001) do grupo RA. Na subanálise segundo a Classificação de Banff-09, não houve diferença entres os subgrupos de RA na análise de células CD3+ por compartimentos. Por outro lado, na análise do grupo LC, no subgrupo RCA foram detectadas significativamente mais células CD3+ que em FIAT no interstício (322±66 cel/mm2 vs 145±32 cel/mm2; p<0,05) e nos túbulos (30,7±10 cel/mm2 vs 6±2 cel/mm2; p<0,05). O número de células FOXp3+ foi significativamente maior nos casos do grupo RA (43±10 cel/mm2) comparado com LC e SemRA (20±4 cel/mm2 e 0,1±0,1 cel/mm2, respectivamente; p<0,05 vs LC e p<0,0001 vs SemRA). Na distribuição por compartimentos, tanto em RA quanto em LC houve a predominância de células FOXp3+ no interstício, porém não houve diferença estatística entre os 2 grupos. Na análise de células FOXp3+ por compartimentos do grupo LC segundo a Classificação de Banff-09, não houve diferença entres os subgrupos. A relação FOXp3/CD3 foi significativamente maior no grupo LC que no RA (17±5 vs 5±1; p<0,05). Na análise do grupo LC, a relação FOXp3/CD3 foi significativamente maior em FIAT que em RCA (25±8 vs 8±2; p<0,05). A análise da expressão de IDO não revelou diferença na comparação dos grupos SemRA, RA e LC. Não houve diferença também na expressão de IDO, tanto entre os grupos Banff I e Banff II, quanto entre os grupos FIAT e RCA. A relação IDO/CD3, foi significativamente maior no grupo LC do que no grupo RA (18±6 vs 3±1; p<0,05). Apesar da presença de células FOXp3+ ter sido maior nos casos com diagnóstico de rejeição aguda como descrito na literatura, não houve correlação da sua expressão com uma maior função do enxerto na análise de 12 meses após a biópsia, nem com a sobrevida do enxerto em 12 meses. Nos casos com diagnóstico de lesões crônicas, a maior relação FOXp3/CD3 se correlacionou negativamente com a função do enxerto 12 meses após a biópsia. A expressão de IDO também não se correlacionou com uma melhor função, nem com a sobrevida do enxerto na análise em 12 meses após a biópsia. A análise dos resultados apresentados sugere o envolvimento dos marcadores estudados na resposta inflamatória ocasionada pelo aloreconhecimento, uma vez que estão presentes em cenários imunológicos distintos, aparentemente, mediando o dano tecidual no microambiente do aloenxerto. No entanto, não há dados o suficiente para apontar para um papel das células FOXp3+ e da IDO no desenvolvimento de tolerância ao aloenxerto no presente estudo. Concluindo, ainda não está claro o quanto a presença de Tregs e IDO limitam os processos de rejeição/cronificação ou participam desses processos, sendo sua presença ainda controversa / Currently, kidney transplantation is choice therapy for patients with chronic kidney disease in stage 5, due to their good results in morbidity and improved quality of life compared with dialysis treatment. However, despite these positive results, renal grafts survival in the long term has not changed. The major cause of failures in long-term in kidney transplant are chronic graft changes, characterized by chronic rejection and components related to the nephrotoxic effects of calcineurin inhibitors. The development of strategies to modulate the immune system interfering with the balance between regulatory and effector mechanisms, capable of inducing organ acceptance (tolerance), would be the excellent alternative in this scenario. However, the immunological mechanisms involved in the immunoregulation are poorly understood, hindering to identify cases tolerant as well as developing strategies for their modulation. Within the possible molecules involved in immunomodulation, stand out the Forkhead Box P3 (FOXp3), a marker of regulatory cells, and the enzyme indoleamine 2,3 dioxygenase (IDO), recently recognized by their role in maternal-fetal tolerance. In this present study, we used immunohistochemical techniques to identify T lymphocytes (CD3+), FOXp3 and IDO in renal allograft biopsies and to correlate its expression with graft function 12 months after the biopsy procedure. The relationship between regulatory and effector cells was analysed by FOXp3/CD3 and IDO/CD3 ratios. Due to limited recognition and diagnosis of tolerance cases, only was possible to analyze the expression of these markers in one single case of tolerant patient. On the other hand, the study of the expression of these markers in other clinical situations, should contribute to a better understanding of the mechanisms involved. In this context, the present study analyzed 63 renal allograft biopsies in different clinical situations: no graft rejection (NR, n = 13), acute rejection (AR, n = 21) and chronic injury (CI, n = 29). In addition, one patient with clinical operational tolerance diagnosis (tolerant, n = 1) was analyzed. This patient developed graft dysfunction, restarted dialysis discontinuation of immunosuppressive treatment. After 2 years on dialysis therapy, recovered graft function and then was submitted to renal allograft biopsy. The biopsies included in this study were subdivided according to the Banff-09 classification. The acute rejection mediated by T lymphocytes was classified in Banff I (n = 15) and Banff II (n = 6). Cases that showed chronic injury were also subdivided according to the Banff-09 classification in Interstitial Fibrosis/Tubular Atrophy (IFTA, n = 15) and Chronic Rejection (CR, n = 14). Results: Analyzed separately, the tolerant case showed an expressive number of CD3+ cells (814 cells/mm2) and FOXp3+ cells (100.9 cells/mm2). Also, expressive FOXp3/CD3+ ratio (12,4x102) and low IDO expression (0.41% area).In AR group the number of CD3+ cells was significantly higher compared with CI and NR groups (973 ± 127 cells/mm2; 242 ± 43 cells/mm2 and 0.7 ± 0.4, cells/mm2, respectively; p<0.001 vs CI and p <0.0001 vs NR). In AR and CI groups CD3+ cells were detected in all compartments studied: interstitium, tubules, vessels and glomeruli. Comparing the groups, there was a predominance of CD3+ cells in the interstitium (p<0.0001) of AR group. No difference was observed between Banff I and Banff II subgroups analysis of CD3+ in the compartments. On the other hand, in the CR subgroup analysis was detected in significantly higher of CD3+ cells in the interstitium compared with IFTA (322 ± 66 cells/mm2 vs. 145 ± 32 cells/mm2, p<0.05) and in tubules (30,7±10 cells/mm2 vs. 6±2 cells/mm2, respectively; p<0.05). The number of FOXp3+ cells was significantly higher in the AR group (43±10 cells/mm2) compared with CI and NR (20±4 cells/mm2 and 0.1±0.1 cells/mm2, respectively; p<0,05 vs CI and p<0,0001 vs NR). The distribution of compartments, both AR and in CI predominated FOXp3+ cells in the interstitium, but there was no statistical difference between the 2 groups. In the FOXp3+ cells analysis, CI do not showed difference between subgroups in the compartments. The relationship FOXp3/CD3 was significantly higher in AR group compared in the CI group (17 ± 5 vs. 5 ± 1; p<0.05). In the CI group analysis, FOXp3/CD3 ratio was significantly higher in IFTA compared with CR (25±8 vs 8±2; p<0.05). IDO expression analysis shows no difference when compared NR, AR and CI groups. No difference in IDO expression analysis in Banff I compared with Banff II, and IFTA compared with CR was observed. The relationship of IDO/CD3, was significantly higher in the CI group when compared with AR group (18±6 vs 3±1, p<0.05). Despite the presence of FOXp3+ cells was higher in cases with a diagnosis of acute rejection as described in the literature, there was no correlation of its expression with improved graft function in the 12 months analysis after the biopsy procedure, as well as with graft survival in 12 months. In cases with a diagnosis of chronic injuries, FOXp3/CD3 ratio was negatively correlated with graft function 12 months after the biopsy procedure. The analysis of these results led us to speculate about the involvement of these markers in the inflammatory response, mediating the tissue damage in the microenvironment of the graft, once it is immunological distinct scenarios, however, in this study, there is no enough data to point to a role in development of tolerance. In conclusion, it is unclear how the presence of Tregs and IDO limit the allograft rejection/chronicity or participate in this process, and their presence is still controversial

FOXp3

IDO

Imunorregulação

linfócitos T efetores

LinfócitosT reguladores

Tolerância imunológica

Transplante renal

FOXp3

IDO

Immunoregulation

Kidney transplantation

T lymphocytes effectors

T lymphocytes regulators

tolerance

Mechanismy imunomodulačního působení kmenových buněk a jejich využití k léčbě onemocnění oka / Immunomodulatory mechanisms of stem cells and their use for therapy of ocular disorders

Heřmánková, Barbora

January 2018

Stem cell-based therapy represents a perspective approach for the treatment of many so far incurable diseases. Mesenchymal stem cells (MSC) are currently the most studied stem cells. They are able to differentiate into different cell types, to produce growth and trophic factors and can suppress the functions of cells of the immune system. During the study of the immunomodulatory properties of MSC, we focused on their effect on B cells. The mechanism of impact of interferon-γ (IFN-γ) on MSC and their effect on the production of interleukin 10 (IL-10) by B cells was analysed. We have demonstrated that MSC-treated with IFN-γ inhibit production of IL-10 by activated B cells via the cyclooxygenase-2 involving pathway. Due to their regenerative and immunomodulatory properties, MSC can be for treatment of many diseases. In this study we focused on the disease and damage of the eye. The limbal stem cells (LSC) are used for the treatment of damaged ocular surface, however their isolation is difficult and they can not be used in all cases of damage. Appropriate candidates in these cases are MSC. Therefore we have decided to compare the therapeutic potential of LSC and MSC isolated from bone marrow or adipose tissue. The study have shown that MSC isolated from bone marrow have a similar regenerative effect on...

The role of HLA-G in bone marrow transplantation / Ο ρόλος του μορίου HLA-G στη μεταμόσχευση μυελού των οστών

Λαζανά, Ιωάννα

17 July 2014

The human leukocyte antigen-G (HLA-G has been considered to be an important tolerogeneic molecule playing an essential role in maternal-fetal tolerance, which constitutes the perfect example of successful physiological immunotolerance of semi-allografts. In this context, we investigated the putative role of this molecule in the allogeneic hematopoietic cell transplantation setting. The percentage of HLA-G+ cells in peripheral blood of healthy donors and allo-transplanted patients was evaluated by flow cytometry. Their immunoregulatory and immunotolerogeneic properties were investigated in in vitro immunostimulatory and immunosuppression assays. Immunohistochemical analysis for HLA-G expression was performed in skin biopsies from allo-transplanted patients and correlated with the occurrence of graft-versus-host disease. We identified a CD14+ HLA-Gpos population with an HLA-DRlow phenotype and decreased in vitro immunostimulatory capacity circulating in peripheral blood of healthy individuals. Naturally occurring CD14+HLA-Gpos cells suppressed T cell responses and acted immunotolerogenic on T cells by rendering them hyporesponsive and immunosuppressive in vitro. After allogeneic hematopoietic cell transplantation, HLA-Gpos cells increase in blood. Interestingly, besides an increase of CD14+HLA-Gpos cells there was also a pronounced expansion of CD3+HLA-Gpos cells. Of note, CD3+HLA-Gpos and CD14+HLA-Gpos cells from transplanted patients were suppressive in in vitro lymphoproliferation assays. Furthermore, we found an upregulation of HLA-G expression in skin specimens from transplanted patients which correlated with graft-versus-host disease. Inflammatory cells infiltrating the dermis of transplanted patients were also HLA-Gpos. Here, we report the presence of naturally occurring HLA-Gpos monocytic cells with in vitro suppressive properties. HLA-G epressing regulatory blood cells were found in increased numbers after allogeneic transplantation. Epithelial cells in skin affected by graft-versus-host disease revealed elevated HLA-G expression. / Το ανθρώπινο λεμφοκυτταρικό αντιγόνο -G (HLA-G) θεωρείται ένα σημαντικό ανοσορρυθμιστικό μόριο, το οποίο κατέχει έναν πολύ σημαντικό ρόλο στην προαγωγή εμβρυο-μητρικής αντοχής, η οποία αποτελεί το ιδανικό παράδειγμα επιτυχούς φυσιολογικής ανοσοαντοχής του ημι-αλλομοσχεύματος. Στο πλαίσιο αυτό, στοχεύσαμε στη διερεύνηση του πιθανού ρόλου του μορίου HLA-G στην αλλογενή μεταμόσχευση αρχέγονων αιμοποιητικών κυττάρων (άλλο-ΜΑΚ). Το ποσοστό των HLA-G+ κυττάρων στο περιφερικό αίμα των υγιών ενηλίκων και των μεταμοσχευμένων ασθενών ελέγθηκε με κυτταρομετρία ροής. Ο ανοσορρυθμιστικός τους ρόλος και οι ανοσοκατασταλτικές τους ικανότητες ελέγθηκαν σε in vitro ανοσοδιεγερτικές και ανοσοκατασταλτικές δοκιμασίες. Ανοσοιστοχημική ανάλυση της έκφρασης του HLA-G πραγματοποιήθηκε σε δερματικές βιοψίες από άλλο-μεταμοσχευμένους ασθενείς και συσχετίστηκε με την εμφάνιση της νόσου του μοσχεύματος έναντι του ξενιστή(GvHD). Ένας CD14+HLA-Gθετ πληθυσμός με HLA-DRlow φαινότυπο και μειωμένη in vitro ανοσοδιεγερτική ικανότητα ανιχνεύτηκε στο περιφερικό αίμα των υγιών ενηλίκων. Τα φυσικώς εμφανιζόμενα CD14+HLA-Gθετ κύτταρα κατέστειλαν τον Τ λεμφοκυτταρικό πολλαπλασιασμό και είχαν ανοσοκατασταλτική επίδραση στα Τ κύτταρα, μετατρέποντάς τα σε υπο-απαντητικά και ανοσοκατασταλτικά κύτταρα in vitro. Μετά την αλλογενή μεταμόσχευση, τα HLA-Gθετ κύτταρα αυξάνουν στο αίμα. Είναι ενδιαφέρον το γεγονός ότι πέραν της αύξησης των CD14+HLA-Gθετ κυττάρων παρατηρήθηκε επίσης μια ιδιαίτερη αύξηση των CD3+HLA-Gθετ κυττάρων στο αίμα. Αξίζει να σημειωθεί ότι τα CD14+HLA-Gθετ και CD3+HLA-Gθετ κύτταρα των άλλο-μεταμοσχευμένων ασθενών ήταν ικανά να καταστέλλουν τον Τ κυτταρικό πολλαπλασιασμό in vitro. Επιπλέον ανιχνεύθηκε μια αύξηση της έκφρασης του HLA-G στις δερματικές βιοψίες των μεταμοσχευμένων ασθενών, η οποία συσχετίζονταν με τη νόσο GvHD. Τα φλεγμονώδη κύτταρα που είχαν διεισδύσει στο δέρμα των ασθενών ήταν επίσης HLA-G θετικά. Στη συγκεκριμένη εργασία αναφέρουμε την παρουσία φυσικώς εμφανιζόμενων HLA-Gθετ μονοκυττάρων με in vitro ανοσοκατασταλτικές ικανότητες. HLA-G εκφραζόμενα ρυθμιστικά κύτταρα ανιχνεύονται στο αίμα μετά τη μεταμόσχευση σε αυξημένους αριθμούς. Τα επιθηλιακά κύτταρα του δέρματος που είναι προσβεβλημένο από τη νόσο GvHD εμφανίζουν αυξημένη έκφραση του HLA-G.

HLA-G

Monocytes

GvHD

Bone marrow transplantation

Immunoregulation

Immunosuppression

T regulatory cells

Skin

617.441 059 2

Μονοκύτταρα

Ανοσορρύθμιση

Ανοσοκαταστολή

Τ ρυθμιστικά κύτταρα

Δέρμα

Function of the immunoregulatory CD4-CD8- T cells in the context of autoimmune diabetes

Hillhouse, Erin

02 1900

La tolérance immunitaire dépend de la distinction entre le soi et le non soi par le système immunitaire. Un bris dans la tolérance immunitaire mène à l'auto-immunité, qui peut provoquer la destruction des organes, des glandes, des articulations ou du système nerveux central. Le diabète auto-immun, également connu sous le nom diabète juvénile et diabète de type 1, résulte d'une attaque auto-immune sur les cellules β pancréatiques sécrétrices d’insuline, localisées au niveau des îlots de Langerhans du pancréas. Bien que le diabète auto-immun soit traitable par une combinaison d’injections quotidiennes d’insuline d’origine exogène, de régime et d'exercices, beaucoup de complications chroniques peuvent se manifester chez les patients, y compris, mais non limitées à, la cécité, les maladies cardiovasculaires, l’insuffisance rénale et l'amputation. En raison des nombreuses complications liées au diabète auto-immun à long terme, la recherche continue afin de mieux comprendre tous les facteurs impliqués dans la progression de la maladie dans le but de développer de nouvelles thérapies qui empêcheront, renverseront et/ou traiteront cette maladie. Un rôle primordial dans la génération et l'entretien de la tolérance immunitaire a été attribué au nombre et à la fonction des sous-populations de cellules régulatrices. Une de ces populations est constituée de cellules T CD4-CD8- (double négatives, DN), qui ont été étudiées chez la souris et l'humain pour leur contribution à la tolérance périphérique, à la prévention des maladies et pour leur potentiel associé à la thérapie cellulaire. En effet, les cellules de T DN sont d'intérêt thérapeutique parce qu'elles montrent un potentiel immunorégulateur antigène-spécifique dans divers cadres expérimentaux, y compris la prévention du diabète auto-immun. D’ailleurs, en utilisant un système transgénique, nous avons démontré que les souris prédisposées au diabète auto-immun présentent peu de cellules T DN, et que ce phénotype contribue à la susceptibilité au diabète auto-immun. En outre, un transfert des cellules T DN est suffisant pour empêcher la progression vers le diabète chez les souris prédisposées au diabète auto-immun. Ces résultats suggèrent que les cellules T DN puissent présenter un intérêt thérapeutique pour les patients diabétiques. Cependant, nous devons d'abord valider ces résultats en utilisant un modèle non-transgénique, qui est plus physiologiquement comparable à l'humain. L'objectif principal de cette thèse est de définir la fonction immunorégulatrice des cellules T DN, ainsi que le potentiel thérapeutique de celles-ci dans la prévention du diabète auto-immun chez un modèle non-transgénique. Dans cette thèse, on démontre que les souris résistantes au diabète auto-immun présentent une proportion et nombre absolu plus élevés de cellules T DN non-transgéniques, lorsque comparées aux souris susceptibles. Cela confirme une association entre le faible nombre de cellules T DN et la susceptibilité à la maladie. On observe que les cellules T DN éliminent les cellules B activées in vitro par une voie dépendante de la voie perforine et granzyme, où la fonction des cellules T DN est équivalente entre les souris résistantes et prédisposées au diabète auto-immun. Ces résultats confirment que l'association au diabète auto-immun est due à une insuffisance en terme du nombre de cellules T DN, plutôt qu’à une déficience fonctionnelle. On démontre que les cellules T DN non-transgéniques éliminent des cellules B chargées avec des antigènes d'îlots, mais pas des cellules B chargées avec un antigène non reconnu, in vitro. Par ailleurs, on établit que le transfert des cellules T DN activées peut empêcher le développement du diabète auto-immun dans un modèle de souris non-transgénique. De plus, nous observons que les cellules T DN migrent aux îlots pancréatiques, et subissent une activation et une prolifération préférentielles au niveau des ganglions pancréatiques. D'ailleurs, le transfert des cellules T DN entraîne une diminution d'auto-anticorps spécifiques de l'insuline et de cellules B de centres germinatifs directement dans les îlots, ce qui corrèle avec les résultats décrits ci-dessus. Les résultats présentés dans cette thèse permettent de démontrer la fonction des cellules T DN in vitro et in vivo, ainsi que leur potentiel lié à la thérapie cellulaire pour le diabète auto-immun. / Immune tolerance is dependent on the immune system discriminating between self and non-self. A break in immune tolerance results in autoimmunity, which can lead to the destruction of healthy organs, glands, joints or the central nervous system. Any disease that results from such an aberrant immune response is termed an autoimmune disease. Autoimmune diabetes, which is also referred to as juvenile diabetes and type 1 diabetes, results from an autoimmune attack on the insulin-producing β cells located within the islets of Langerhans of the pancreas. Although autoimmune diabetes is treatable through a combination of insulin therapy, diet and exercise, many chronic complications may arise in patients, including, but not limited to, blindness, cardiovascular disease, kidney failure and amputation. Due to the many complications associated with long-term autoimmune diabetes, research continues to better understand all the factors implicated in disease progression in order to develop new therapies that will prevent, reverse and/or cure this disease. A prominent role in the generation and maintenance of immune tolerance has been attributed to the number and function of regulatory cell subsets. One of these regulatory cell populations, namely CD4-CD8- (double negative, DN) T cells, have been studied in both mice and humans for their contribution to peripheral tolerance, disease prevention and their potential for use in cellular therapy. DN T cells are of particular therapeutic interest because they exhibit an antigen-specific immunoregulatory potential in various experimental settings, including the prevention of autoimmune diabetes. Indeed, using a transgenic system, we have shown that autoimmune diabetes-prone mice carry fewer DN T cells and that this phenotype contributes to autoimmune diabetes susceptibility, where a single transfer of DN T cells is sufficient to prevent diabetes progression in otherwise autoimmune diabetes-prone mice. These results suggest that DN T cells may be of therapeutic interest for diabetic patients. However, we must first validate these results using a non-transgenic setting, which is more physiologically relevant to humans. The main objective of this thesis is to determine the immunoregulatory function of the DN T cells as well as the therapeutic potential of these cells in the prevention of autoimmune diabetes in the non-transgenic setting. Here, we show that diabetes-resistant mice present with a higher proportion and cell number of DN T cells than diabetes-susceptible mice in the non-transgenic setting, which associates a deficiency in DN T cell number with disease susceptibility. We determine that DN T cells eliminate activated B cells in vitro via a perforin/granzyme-dependent pathway, where the function of DN T cells is equal between the diabetes-resistant and -susceptible mice, demonstrating that the association to autoimmune diabetes is due to a deficiency in DN T cell number rather than function. Interestingly, we show that non-transgenic DN T cells eliminate B cells loaded with islet antigen, but not B cells loaded with an irrelevant antigen, in vitro. Importantly, we establish that the transfer of activated DN T cells could prevent autoimmune diabetes development in the non-transgenic setting. Interestingly, we reveal that DN T cells migrate to the pancreatic islets and undergo preferential activation and proliferation within the pancreatic lymph nodes. Moreover, the transfer of DN T cells results in a decrease in both germinal center B cells directly within the pancreatic islets as well serum insulin autoantibody levels, which correlates with the aforementioned findings. Altogether, the results presented in this thesis have allowed us to enhance our understanding of the function of DN T cells both in vitro and in vivo as well as demonstrate the therapeutic potential for DN T cells as a novel cellular therapeutic for autoimmune diabetes.

Diabète auto-immun

Immunorégulation

Cellules T double négatives

Souris transgénique

Souris non-transgénique

Antigène-spécifique

Autoimmune diabetes

Immunoregulation

Double negative T cells

Transgenic mouse

Non-transgenic mouse

Antigen-specific

Rôle de la molécule CD47 sur le lymphocyte T dans la régulation de la réponse immunitaire

Bouguermouh, Salim

07 1900

L’importance respective des lymphocytes T régulateurs naturels générés dans le thymus ou induits en périphérie dans la régulation immunitaire et la résolution de l’inflammation est désormais bien établie. Nous avons contribué à mettre en évidence une nouvelle voie d’induction de lymphocytes T régulateurs périphériques à partir de cellules T humaines CD4+CD25- naïves et mémoires. Nous avons montré que l’engagement de la molécule ubiquitaire transmembranaire CD47 sur la cellule T par un anticorps monoclonal ou par le peptide 4N1K (peptide dérivé du domaine carboxy-terminal de la thrombospondine-1 et spécifique du site de liaison à CD47) induisait des lymphocytes T CD4+ régulateurs exerçant une fonction suppressive sur les lymphocytes T effecteurs. Les propriétés suppressives induites par la thrombospondine-1 confortent les fonctions anti-inflammatoires de cette protéine de la matrice extracellulaire. L’inhibition exercée par les lymphocytes T régulateurs induits dépend du contact intercellulaire entre les cellules T régulatrices et leurs cibles, et est indépendante du TGF-. Nos résultats démontrent également le rôle de CD47 sur le lymphocyte T CD4+ dans la réponse immunitaire spécifique de l’antigène in vivo. En effet, les souris BALB/c déficientes pour CD47 présentent un biais de la sécrétion d’anticorps et de cytokines de type Th1, alors que les souris BALB/c sont décrites comme exprimant un profil de production de cytokines de type Th2. Nos travaux mettent en évidence le rôle de CD47 dans l’inhibition du développement d’une réponse cellulaire et humorale de type Th1 in vivo, confirmant de précédentes études in vitro réalisées avec des cellules T CD4+ humaines. Nous présentons également le rôle inhibiteur de l’engagement de CD28 in vitro sur la différenciation en cellules Th17 des lymphocytes T CD4+ naïfs isolés de souris BALB/c. Le mécanisme proposé est dépendant de la production de l’IL-2 et de l’IFN- et indépendant de la présence de lymphocytes T régulateurs. Notre étude du rôle de deux molécules transmembranaires CD47 et CD28 exprimées sur la cellule T CD4+, contribue à une meilleure connaissance des mécanismes impliqués dans la tolérance immunologique, la résolution de l’inflammation et la différenciation des cellules T "helper" CD4+. / Nowadays, the importance of natural regulatory T cells and adaptive regulatory T lymphocytes in immune regulation and resolution of inflammation are well established. We report a previously unknown pathway to generate adaptive regulatory T cells in the periphery from naive and memory human CD4+CD25- T cells. We show that the stimulation of the broadly expressed transmembrane proteins CD47 on T cells by a monoclonal antibody or by the 4NK1 peptide (carboxy-terminal peptide of thrombospondin-1 (TSP) specific of the binding site of CD47) induced regulatory T cells that exerted an inhibitory function on effector T cells. Our study on the suppressive proprieties of the TSP corroborates with reported anti-inflammatory activities of this extracellular matrix protein. The suppressive function of TSP induced regulatory T cells was contact-dependent and TGF--independent. Our data further demonstrate the role of CD47 expression on T cells in the antigenic-specific immune response in vivo. We report that the CD47-deficient BALB/c mice displayed a Th1-biased antibody and cytokine responses, instead of the Th2 cytokine profile observed in unmanipulated BALB/c mice. Our study outlines the role of CD47 as a self-control mechanism to negatively regulate type 1 cellular and humoral immune responses and most importantly confirm in vivo previous in vitro studies with human CD4+ T cells. We also report that soluble anti-CD28 monoclonal antibody suppressed in vitro differentiation of naïve CD4+ T cells isolated from BALB/c mice into IL-17-producing cells by mechanism that are IL-2 and IFN-γ-dependent but independent of the presence of regulatory T cells. Our studies highlight the suppressive function of two transmembrane molecules CD47 and CD28 expressed by CD4+ T cells in vitro and in vivo in human and mice. They thus may contribute to a better understanding of the mechanisms involved in the induction of immune tolerance, the resolution of inflammation and the differentiation of the T helper cells.

CD47

CD47

Thrombospondines

Thrombospondins

Cellules T régulatrices

Regulatory T cells

CD28

CD28

Inflammation

Inflammation

Lymphocyte T

T cell

CD4

CD4

Th17

Th17

Interleukine-17

Interleukin-17

Immunorégulation

Immunoregulation

Function of the immunoregulatory CD4-CD8- T cells in the context of autoimmune diabetes

Hillhouse, Erin

02 1900

La tolérance immunitaire dépend de la distinction entre le soi et le non soi par le système immunitaire. Un bris dans la tolérance immunitaire mène à l'auto-immunité, qui peut provoquer la destruction des organes, des glandes, des articulations ou du système nerveux central. Le diabète auto-immun, également connu sous le nom diabète juvénile et diabète de type 1, résulte d'une attaque auto-immune sur les cellules β pancréatiques sécrétrices d’insuline, localisées au niveau des îlots de Langerhans du pancréas. Bien que le diabète auto-immun soit traitable par une combinaison d’injections quotidiennes d’insuline d’origine exogène, de régime et d'exercices, beaucoup de complications chroniques peuvent se manifester chez les patients, y compris, mais non limitées à, la cécité, les maladies cardiovasculaires, l’insuffisance rénale et l'amputation. En raison des nombreuses complications liées au diabète auto-immun à long terme, la recherche continue afin de mieux comprendre tous les facteurs impliqués dans la progression de la maladie dans le but de développer de nouvelles thérapies qui empêcheront, renverseront et/ou traiteront cette maladie. Un rôle primordial dans la génération et l'entretien de la tolérance immunitaire a été attribué au nombre et à la fonction des sous-populations de cellules régulatrices. Une de ces populations est constituée de cellules T CD4-CD8- (double négatives, DN), qui ont été étudiées chez la souris et l'humain pour leur contribution à la tolérance périphérique, à la prévention des maladies et pour leur potentiel associé à la thérapie cellulaire. En effet, les cellules de T DN sont d'intérêt thérapeutique parce qu'elles montrent un potentiel immunorégulateur antigène-spécifique dans divers cadres expérimentaux, y compris la prévention du diabète auto-immun. D’ailleurs, en utilisant un système transgénique, nous avons démontré que les souris prédisposées au diabète auto-immun présentent peu de cellules T DN, et que ce phénotype contribue à la susceptibilité au diabète auto-immun. En outre, un transfert des cellules T DN est suffisant pour empêcher la progression vers le diabète chez les souris prédisposées au diabète auto-immun. Ces résultats suggèrent que les cellules T DN puissent présenter un intérêt thérapeutique pour les patients diabétiques. Cependant, nous devons d'abord valider ces résultats en utilisant un modèle non-transgénique, qui est plus physiologiquement comparable à l'humain. L'objectif principal de cette thèse est de définir la fonction immunorégulatrice des cellules T DN, ainsi que le potentiel thérapeutique de celles-ci dans la prévention du diabète auto-immun chez un modèle non-transgénique. Dans cette thèse, on démontre que les souris résistantes au diabète auto-immun présentent une proportion et nombre absolu plus élevés de cellules T DN non-transgéniques, lorsque comparées aux souris susceptibles. Cela confirme une association entre le faible nombre de cellules T DN et la susceptibilité à la maladie. On observe que les cellules T DN éliminent les cellules B activées in vitro par une voie dépendante de la voie perforine et granzyme, où la fonction des cellules T DN est équivalente entre les souris résistantes et prédisposées au diabète auto-immun. Ces résultats confirment que l'association au diabète auto-immun est due à une insuffisance en terme du nombre de cellules T DN, plutôt qu’à une déficience fonctionnelle. On démontre que les cellules T DN non-transgéniques éliminent des cellules B chargées avec des antigènes d'îlots, mais pas des cellules B chargées avec un antigène non reconnu, in vitro. Par ailleurs, on établit que le transfert des cellules T DN activées peut empêcher le développement du diabète auto-immun dans un modèle de souris non-transgénique. De plus, nous observons que les cellules T DN migrent aux îlots pancréatiques, et subissent une activation et une prolifération préférentielles au niveau des ganglions pancréatiques. D'ailleurs, le transfert des cellules T DN entraîne une diminution d'auto-anticorps spécifiques de l'insuline et de cellules B de centres germinatifs directement dans les îlots, ce qui corrèle avec les résultats décrits ci-dessus. Les résultats présentés dans cette thèse permettent de démontrer la fonction des cellules T DN in vitro et in vivo, ainsi que leur potentiel lié à la thérapie cellulaire pour le diabète auto-immun. / Immune tolerance is dependent on the immune system discriminating between self and non-self. A break in immune tolerance results in autoimmunity, which can lead to the destruction of healthy organs, glands, joints or the central nervous system. Any disease that results from such an aberrant immune response is termed an autoimmune disease. Autoimmune diabetes, which is also referred to as juvenile diabetes and type 1 diabetes, results from an autoimmune attack on the insulin-producing β cells located within the islets of Langerhans of the pancreas. Although autoimmune diabetes is treatable through a combination of insulin therapy, diet and exercise, many chronic complications may arise in patients, including, but not limited to, blindness, cardiovascular disease, kidney failure and amputation. Due to the many complications associated with long-term autoimmune diabetes, research continues to better understand all the factors implicated in disease progression in order to develop new therapies that will prevent, reverse and/or cure this disease. A prominent role in the generation and maintenance of immune tolerance has been attributed to the number and function of regulatory cell subsets. One of these regulatory cell populations, namely CD4-CD8- (double negative, DN) T cells, have been studied in both mice and humans for their contribution to peripheral tolerance, disease prevention and their potential for use in cellular therapy. DN T cells are of particular therapeutic interest because they exhibit an antigen-specific immunoregulatory potential in various experimental settings, including the prevention of autoimmune diabetes. Indeed, using a transgenic system, we have shown that autoimmune diabetes-prone mice carry fewer DN T cells and that this phenotype contributes to autoimmune diabetes susceptibility, where a single transfer of DN T cells is sufficient to prevent diabetes progression in otherwise autoimmune diabetes-prone mice. These results suggest that DN T cells may be of therapeutic interest for diabetic patients. However, we must first validate these results using a non-transgenic setting, which is more physiologically relevant to humans. The main objective of this thesis is to determine the immunoregulatory function of the DN T cells as well as the therapeutic potential of these cells in the prevention of autoimmune diabetes in the non-transgenic setting. Here, we show that diabetes-resistant mice present with a higher proportion and cell number of DN T cells than diabetes-susceptible mice in the non-transgenic setting, which associates a deficiency in DN T cell number with disease susceptibility. We determine that DN T cells eliminate activated B cells in vitro via a perforin/granzyme-dependent pathway, where the function of DN T cells is equal between the diabetes-resistant and -susceptible mice, demonstrating that the association to autoimmune diabetes is due to a deficiency in DN T cell number rather than function. Interestingly, we show that non-transgenic DN T cells eliminate B cells loaded with islet antigen, but not B cells loaded with an irrelevant antigen, in vitro. Importantly, we establish that the transfer of activated DN T cells could prevent autoimmune diabetes development in the non-transgenic setting. Interestingly, we reveal that DN T cells migrate to the pancreatic islets and undergo preferential activation and proliferation within the pancreatic lymph nodes. Moreover, the transfer of DN T cells results in a decrease in both germinal center B cells directly within the pancreatic islets as well serum insulin autoantibody levels, which correlates with the aforementioned findings. Altogether, the results presented in this thesis have allowed us to enhance our understanding of the function of DN T cells both in vitro and in vivo as well as demonstrate the therapeutic potential for DN T cells as a novel cellular therapeutic for autoimmune diabetes.

Diabète auto-immun

Immunorégulation

Cellules T double négatives

Souris transgénique

Souris non-transgénique

Antigène-spécifique

Autoimmune diabetes

Immunoregulation

Double negative T cells

Transgenic mouse

Non-transgenic mouse

Antigen-specific

Rôle de la molécule CD47 sur le lymphocyte T dans la régulation de la réponse immunitaire

Bouguermouh, Salim

07 1900

L’importance respective des lymphocytes T régulateurs naturels générés dans le thymus ou induits en périphérie dans la régulation immunitaire et la résolution de l’inflammation est désormais bien établie. Nous avons contribué à mettre en évidence une nouvelle voie d’induction de lymphocytes T régulateurs périphériques à partir de cellules T humaines CD4+CD25- naïves et mémoires. Nous avons montré que l’engagement de la molécule ubiquitaire transmembranaire CD47 sur la cellule T par un anticorps monoclonal ou par le peptide 4N1K (peptide dérivé du domaine carboxy-terminal de la thrombospondine-1 et spécifique du site de liaison à CD47) induisait des lymphocytes T CD4+ régulateurs exerçant une fonction suppressive sur les lymphocytes T effecteurs. Les propriétés suppressives induites par la thrombospondine-1 confortent les fonctions anti-inflammatoires de cette protéine de la matrice extracellulaire. L’inhibition exercée par les lymphocytes T régulateurs induits dépend du contact intercellulaire entre les cellules T régulatrices et leurs cibles, et est indépendante du TGF-. Nos résultats démontrent également le rôle de CD47 sur le lymphocyte T CD4+ dans la réponse immunitaire spécifique de l’antigène in vivo. En effet, les souris BALB/c déficientes pour CD47 présentent un biais de la sécrétion d’anticorps et de cytokines de type Th1, alors que les souris BALB/c sont décrites comme exprimant un profil de production de cytokines de type Th2. Nos travaux mettent en évidence le rôle de CD47 dans l’inhibition du développement d’une réponse cellulaire et humorale de type Th1 in vivo, confirmant de précédentes études in vitro réalisées avec des cellules T CD4+ humaines. Nous présentons également le rôle inhibiteur de l’engagement de CD28 in vitro sur la différenciation en cellules Th17 des lymphocytes T CD4+ naïfs isolés de souris BALB/c. Le mécanisme proposé est dépendant de la production de l’IL-2 et de l’IFN- et indépendant de la présence de lymphocytes T régulateurs. Notre étude du rôle de deux molécules transmembranaires CD47 et CD28 exprimées sur la cellule T CD4+, contribue à une meilleure connaissance des mécanismes impliqués dans la tolérance immunologique, la résolution de l’inflammation et la différenciation des cellules T "helper" CD4+. / Nowadays, the importance of natural regulatory T cells and adaptive regulatory T lymphocytes in immune regulation and resolution of inflammation are well established. We report a previously unknown pathway to generate adaptive regulatory T cells in the periphery from naive and memory human CD4+CD25- T cells. We show that the stimulation of the broadly expressed transmembrane proteins CD47 on T cells by a monoclonal antibody or by the 4NK1 peptide (carboxy-terminal peptide of thrombospondin-1 (TSP) specific of the binding site of CD47) induced regulatory T cells that exerted an inhibitory function on effector T cells. Our study on the suppressive proprieties of the TSP corroborates with reported anti-inflammatory activities of this extracellular matrix protein. The suppressive function of TSP induced regulatory T cells was contact-dependent and TGF--independent. Our data further demonstrate the role of CD47 expression on T cells in the antigenic-specific immune response in vivo. We report that the CD47-deficient BALB/c mice displayed a Th1-biased antibody and cytokine responses, instead of the Th2 cytokine profile observed in unmanipulated BALB/c mice. Our study outlines the role of CD47 as a self-control mechanism to negatively regulate type 1 cellular and humoral immune responses and most importantly confirm in vivo previous in vitro studies with human CD4+ T cells. We also report that soluble anti-CD28 monoclonal antibody suppressed in vitro differentiation of naïve CD4+ T cells isolated from BALB/c mice into IL-17-producing cells by mechanism that are IL-2 and IFN-γ-dependent but independent of the presence of regulatory T cells. Our studies highlight the suppressive function of two transmembrane molecules CD47 and CD28 expressed by CD4+ T cells in vitro and in vivo in human and mice. They thus may contribute to a better understanding of the mechanisms involved in the induction of immune tolerance, the resolution of inflammation and the differentiation of the T helper cells.

CD47

CD47

Thrombospondines

Thrombospondins

Cellules T régulatrices

Regulatory T cells

CD28

CD28

Inflammation

Inflammation

Lymphocyte T

T cell

CD4

CD4

Th17

Th17

Interleukine-17

Interleukin-17

Immunorégulation

Immunoregulation