Étude de l’impact de la variabilité génétique sur les aspects cellulaires de la réponse humorale

Aubin, Anne-Marie

08 1900

La réponse immunitaire de type humorale se déclenche suivant certaines infections virales et bactériennes de même que suivant une immunisation. Au niveau cellulaire, ce type de réponse favorise la formation de petites structures, nommées centres germinatifs (CG), qui se développeront dans les organes lymphoïdes secondaires (OLS) tels que la rate et les ganglions. Ces CG sont orchestrés par la présentation des antigènes étrangers par les cellules dendritiques et les cellules dendritiques folliculaires (FDC), aux cellules T et B respectivement, ainsi que par des interactions complexes survenant entre ces lymphocytes T et B. Suivant ce processus, les lymphocytes B quittant les CG se différencieront soient en plasmocytes sécréteurs d’anticorps de fortes affinités ou en cellules B mémoires qui assureront une protection lors d’une seconde exposition face à un antigène étranger ayant précédemment été rencontré. Plusieurs évidences suggèrent que la qualité de la réponse humorale est influencée par des variants génétiques. Par exemple, des études quantifiant les titres d’anticorps suivant la vaccination ont observé que ces titres variaient en fonction de différents groupes ethniques. Toutefois, malgré ces évidences, la contribution de la génétique quant à la variation des aspects cellulaires de la réponse humorale demeure incomplète. En utilisant douze lignées de souris génétiquement éloignées, nous avons donc évalué l'impact de la variabilité génétique sur les aspects cellulaires de cette réponse humorale, et ce, à l'état d'équilibre et suivant l’immunisation avec un antigène étranger. Pour ces deux conditions, nous avons quantifié, par cytométrie en flux, le nombre ainsi que la composition cellulaire (cellules B, plasmocytes et cellules T auxiliaires folliculaires) des CG contenus dans plusieurs OLS ainsi que dans la moelle osseuse des différentes lignées de souris. Après immunisation, le positionnement cellulaire au sein des CG de la rate a également été évalué par immunofluorescence. Nos résultats indiquent que le nombre et la taille des CG après immunisation ainsi que la composition cellulaire de ces CG à l’état d’équilibre et suivant l’immunisation varient entre les différentes lignées de souris à l’étude. Comme les douze lignées de souris ont été soumises aux mêmes conditions, ces résultats suggèrent que les variants génétiques, étant différents d’une lignée de souris à une autre, sont responsables des variations que nous avons observées au niveau des aspects cellulaires de la réponse humorale. Ce projet permettant de mieux comprendre l’impact de la variabilité génétique sur certains aspects de la réponse humorale pourrait ultimement mener à une amélioration des approches vaccinales chez les individus répondant moins bien à un certain type de vaccination. / The humoral immune response is triggered following certain viral and bacterial infections as well as following immunization. At the cellular level, this type of response promotes the formation of small structures, called germinal centers (GC), which develop into secondary lymphoid organs such as the spleen and lymph nodes. These GC are orchestrated by the presentation of foreign antigens by dendritic cells and follicular dendritic cells (FDC), to T and B cells respectively, and by subsequent interactions between these T and B lymphocytes. Following this process, B cells leaving the GC will differentiate into high-affinity antibody-secreting plasma cells or memory B cells that will provide protection upon a second exposure to a previously encountered foreign antigen. There is some evidence to suggest that the quality of the humoral response is influenced by genetic variants. For example, studies quantifying antibody titers following vaccination have observed that these titers vary across different ethnic groups. However, despite this evidence, the contribution of genetics to the variation of the cellular aspects of the humoral responses remains incomplete. Using twelve genetically divergent mouse strains, we therefore evaluated the impact of genetic variability on the cellular aspects of this humoral response at steady state and following immunization with a foreign antigen. For these two conditions, we quantified, by flow cytometry, the number as well as the cellular composition (B cells, plasma cells and T follicular helper cells) of the GC contained in several SLO and in the bone marrow of the different mouse strains. After immunization, cell positioning within the GC of the spleen was also assessed by immunofluorescence. Our results indicate that the number and size of GC after immunization as well as the cellular composition of these GC at steady state and following immunization vary between the different mouse strains studied. As the twelve mouse strains were subjected to the same conditions, these results suggest that the genetic variants, being different from one mouse strain to another, are responsible for the variations that we observed in the cellular aspects of the humoral response. This project, which allows us to better understand the impact of genetic variability on some aspects of the humoral response, could ultimately lead to an improvement in vaccine approaches in individuals who respond less well to a certain type of vaccination.

Réponse humorale

Centre germinatif

Lymphocyte B

Plasmocyte

Cellule T auxiliaire folliculaire

Diversité génétique

Lignée de souris

Humoral response

Germinal center

B lymphocyte

Plasma cell

T follicular helper cell

Genetic diversity

Mouse strain

Immunology / Immunologie (UMI : 0982)

Targeting B non-Hodgkin lymphoma and tumor-supportive follicular helper T cells with anti-CXCR5 CAR T cells

Pfeilschifter, Janina Marie

09 September 2021

CAR-T-Zell-Therapie ist eine vielversprechende neuartige Behandlungsform für Patienten mit aggressiven B-Zell Non-Hodgkin-Lymphomen (B-NHL). In dieser Arbeit wurde die anti-CXCR5 CAR-T-Zell-Therapie als Alternative zur anti-CD19 CAR-T-Zell-Therapie für die Behandlung von reifen B-NHLs untersucht. CXCR5 ist ein B-Zell-homing Rezeptor, der von reifen B Zellen und follikulären T-Helferzellen (TFH Zellen) exprimiert wird. TFH Zellen wurden als tumor-unterstützend in chronisch lymphatischer Leukämie (CLL) und im follikulären Lymphom (FL) beschrieben. Dieses Expressionsmuster erlaubt es, auf einzigartige Weise zeitgleich die malignen Zellen und die tumorunterstützende Mikroumgebung mithilfe von CAR-T-Zell-Therapie gerichtet gegen einen Chemokinrezeptor anzugreifen. Die wichtigsten Ergebnisse dieser Arbeit waren, dass (1) die anti-CXCR5 CAR T-Zellen zielgerichtet CXCR5 positive reife B-NHL Zelllinien und Patientenproben in vitro eliminierten und eine starke anti-Tumor Reaktivität in einem immundefizienten Xenotransplantationsmausmodell zeigten, (2) die anti-CXCR5 CAR T-Zellen zielgerichtet die tumorunterstützenden TFH Zellen in CLL und FL Patientenproben in vitro erkannten und dass (3) CXCR5 ein sicheres Expressionsprofil zeigte. CXCR5 war stark und häufig auf B-NHL exprimiert und die Expression auf gesundem Gewebe war auf lymphoide Zellen beschränkt. Zusammenfassend lässt sich sagen, dass die anti-CXCR5 CAR-T-Zell-Therapie eine neue Behandlungsmöglichkeit für Patienten mit reifen B-NHL darstellt, indem durch die anti-CXCR5 CAR-T Zellen sowohl der Tumor als auch ein Anteil der tumorunterstützende Mikroumgebung eliminiert werden. Im zweiten Teil der Arbeit wurde das Eμ-Tcl1 murine CLL Lymphommodell genutzt um die Auswirkung der Lymphomentwicklung auf die CXCR5+ T Zellen zu untersuchen. Mittels RNA-Einzelzell-Sequenzierung konnte ein profunder Einfluss des Lymphomwachstums auf das T Zell-Kompartiment der Mäuse, denen Eμ-Tcl1 Zellen gespritzt wurden, gezeigt werden. / CAR T cell therapy is a promising new treatment option for patients suffering from aggressive B non-Hodgkin lymphomas (NHLs). In CAR T cell therapy, patient-derived T cells are genetically modified to express a chimeric receptor commonly directed towards a surface antigen expressed by neoplastic cells. In this thesis, anti-CXCR5 CAR T cell therapy was investigated as an alternative to anti-CD19 CAR T cell therapy for the treatment of mature B-NHLs. CXCR5 is a B cell homing receptor expressed by mature B cells and follicular helper T (TFH) cells. TFH cells were described to support the tumor cells in chronic lymphocytic leukemia (CLL) and follicular lymphoma (FL). This expression pattern allows simultaneous targeting of the malignant cells and the tumor-supporting microenvironment by CAR T cell therapy against a chemokine receptor in an unprecedented manner. Main findings included that (1) anti-CXCR5 CAR T cells targeted specifically CXCR5 expressing mature B-NHL cell lines and patient samples in vitro and showed strong in vivo anti-tumor reactivity in an immunodeficient xenograft mouse model, (2) anti-CXCR5 CAR T cells targeted tumor-supportive TFH cells derived from CLL and FL patient samples in vitro and (3) CXCR5 showed a safe expression profile. CXCR5 was strongly and frequently expressed by B-NHLs and its expression on healthy tissue was restricted to lymphoid cells. In summary, anti-CXCR5 CAR T cell therapy presents a novel treatment option for patients suffering from mature B-NHLs by eliminating the tumor and part of the tumor-supportive microenvironment. The second part of the project, the Eμ-Tcl1 murine lymphoma model, which mimics human CLL, was used to study the impact of lymphomagenesis on CXCR5+ T cells. Using single cell RNA sequencing, a profound influence of lymphoma growth on the T cell compartment in Eμ-Tcl1 tumor-challenged mice could be shown.

CAR-T-Zell-Therapie

B-Zell Non-Hodgkin-Lymphome

NHL

B-NHL

follikulären T-Helferzellen

TFH Zellen

anti-CXCR5 CAR-T-Zell-Therapie

CAR-T-Zellen

Mikroumgebung

Murines Lymphommodell

Chemokinrezeptor

chronisch lymphatische Leukämie

follikuläres Lymphom

anti-CD19 CAR-T-Zell-Therapie

Eμ-Tcl1

CXCR5

CAR T cell therapy

B non-Hodgkin lymphoma

B-NHL

NHL

CAR T cells

CXCR5

chemokine receptor

anti-CXCR5 CAR T cell therapy

follicular helper T cells

TFH cells

Eμ-Tcl1

murine lymphoma model

microenvironment

chronic lymphocytic leukemia

follicular lymphoma

anti-CD19 CAR T cell therapy

570 Biologie

YC 2704

YC 2712

YC 2715

ddc:570

ROLE OF FDCs AND FDC ACTIVATION IN PROMOTING HUMORAL IMMUNITY INCLUDING RESPONSES TO T-DEPENDENT ANTIGENS IN THE ABSENCE OF T CELLS

El, Sayed Rania

16 June 2009

Follicular dendritic cells (FDCs) reside in primary B-cell follicles and in the light zones of germinal centers (GCs) in secondary follicles, where their dendrites interdigitate forming extensive networks intimately interacting with B-cells. In GCs, FDCs can be found at the edges attached to the supporting reticular fibers. They trap and arrange immune complexes (ICs) in vivo and in vitro in a periodic manner with 200–500Å spacing and provide both antigen-specific and non-specific accessory signals to B-cells. FDCs exist in resting and activated states, with two characteristically different phenotypes. In their activated state, FDCs upregulate the expression of accessory molecules and cytokines important in the FDC-B cell interaction in GCs. We sought to determine the mechanisms influencing the transition of FDCs from a resting to an activated state in GCs and their impact on T-cell dependent (TD) and independent (TI)-GC reactions (GCRs). We found that IC-FDC interactions via FDC-FcgammaRIIB induce the upregulation of FDC-FcgammaRIIB, -ICAM-1, and -VCAM-1, at both the protein and mRNA levels. We also reported for the first time the expression of TLR-4 on FDCs. Moreover, engagement of FDC-TLR4 with LPS activated NF-kappaB, up-regulated expression of important FDC-accessory molecules, including FcgammaRIIB, ICAM-1, and VCAM-1, and enhanced FDC accessory activity in promoting recall IgG responses. Moreover, IC-activated FDCs produced IL-6 and FDC-IL-6 promoted GCRs, somatic hypermutation (SHM) and IgG production. Further, we reported that binding of FDCs to collagen coated surfaces induced restoration of their dendritic processes and networks in vitro. In addition, we designed an FDC-supported in vitro model capable of induction and assessment of primary human antibody responses to protein antigens characterized by class-switching and affinity maturation. Uniquely, we generated TI immune responses to TD protein Ags in the complete absence of T cell help in vivo and in vitro. In the presence of FDC-associated second signals such as BAFF and C4BP, FDC- FcgammaRIIB-periodically trapped-ICs induced the production of Ag-specific IgM, GC-development and plasmablast-differentiation in anti-Thy-1-pretreated nude mice. Purified murine and human B cells cultured in vitro with IC-bearing FDCs also showed the production of antigen–specific IgM within just 48 h.

Follicular Dendritic Cells

Humoral Immunity

T-dependent

Antigens

Germinal Centers

IL-6

FcgammaRIIB

TLR-4

Immune Complexes

Collagen type I

IgG

Somatic Hypermutation

T-Independent

In vitro

Vaccine Assessment

Primary Human Antibody Response

Secondary Follicle

Activation

Accessory Activity

Dendrites

BAFF

C4BP

IgM

Periodicity

ICAM

VCAM

Medicine and Health Sciences

Úloha mutace genu LIF a relativní zastoupení NK buněk, NKT a T lymfocytů ve folikulární tekutině a krvi žen s různou anamnézou neplodnosti / The role of LIF gene mutations and the relative distribution of NK cells, NKT and T lymphocytes in follicular fluid and blood of women with different history of infertility

Křížan, Jiří

January 2011

Charles University in Prague Faculty of Natural Sciences Summary of Ph.D. thesis The role of LIF gene mutations and the relative distribution of NK cells, NKT and T lymphocytes in follicular fluid and blood of women with different history of infertility Jiří Křížan Prague 2010 1 | P a g e Doctoral degree programs in biomedicine Charles University in Prague and the Academy of Sciences of the Czech Republic Programme: Biomedicine Chairman of the Subject Board: Doc. RNDr. Vladimír Holáň, Dr.Sc. Place of study: Institute of Microbiology, v.v.i., Academy of the Czech Sciences Vídeňská 1083, 142 20 Prague 4 phone: +420 296 442 318 Autor: Mgr. Jiří Křížan Supervisor: RNDr. Petr Šíma, CSc. The dissertation can be found at Dean's Office Faculty of Charles University in Prague 2 | P a g e CONTENTS Contents 2 Summary 3 1. Introduction 5 2. Hypotheses and aims 6 3. Material and methods 7 Material: 7 Methods: 8 4. Results 10 5. Discussion 12 6. Conclusion 15 7. References 16 Bibliography of Autor: 18 1. papers in extenso (thesis background) 18 2. papers in extenso (without regard to thesis) 19 3 | P a g e SUMMARY The aim of the dissertation thesis "The role of LIF gene mutations and the relative distribution of NK cells, NKT, and T lymphocytes in follicular fluid and blood of women with different history of infertility"...

Evaluation de l'impact de la prise en charge thérapeutique sur la survie et la qualité de vie des patients atteints d'un lymphome folliculaire ou d'un lymphome B diffus à grandes cellules / Evaluation of the impact of therapeutic management on the survival and quality of life of patients with follicular lymphoma or diffuse large B cell lymphoma

Dandoit, Mylène

27 October 2014

En France, les hémopathies lymphoïdes, se situant au sixième rang des cancers les plus fréquents, sontun problème majeur de santé publique. Ce travail a pour objectif d’étudier l’impact de la prise en charge thérapeutiquesur la survie et sur la qualité de vie (QdV) des patients atteints de ce type d’hémopathies. Le premierobjectif de ce travail est un état des lieux de l’épidémiologie des hémopathies lymphoïdes avec l’étudede l’évolution de l’incidence et de la survie nette en Côte d’Or entre 1980 et 2009. L’incidence, en nette augmentationdepuis 1980, semble se stabiliser depuis les années 2000 pour certaines entités, notamment pourles lymphomes folliculaires (LF) et les lymphomes B diffus à grandes cellules (LBDGC). Nous observons globalementune amélioration de la survie nette avec, toutefois, un pronostic à court et à long terme qui restedéfavorable pour certaines entités. Les LF et les LBDGC sont les premiers lymphomes à bénéficier de l’introductiondes anticorps monoclonaux dans leur prise en charge thérapeutique. Notre deuxième étude a pourobjectif demesurer l’impact du rituximab sur la survie globale des patients atteints d’un LF ou d’un LBDGC enCôte d’Or en utilisant une méthodologie basée sur le score de propension. Nos résultats confirment le bénéficesignificatif du rituximab sur la survie globale en population générale, sans critère de sélection. En vue de cesrésultats, nous avons étudié la QdV de ces patients pendant et à la suite de la prise en charge thérapeutique. LaQdV évolue différemment au cours du suivi en fonction du type de lymphome. / In France, hematologic malignancies, which are the sixthmost common cancers, are amajor public healthproblem. This work aimed to study the impact of the therapeutic management on survival and healt-relatedquality of life (HRQoL) in patients with these hematologic malignancies. The first objective of this work is topresent an overview of the epidemiology of lymphoid malignancies with a study of changes in the incidenceand net survival in the Côte d’Or department between 1980 and 2009. The incidence, which has increased since1980, seems to have stabilized since the 2000s for some entities, including follicular lymphoma (FL) and diffuselarge B-cell lymphoma (DLBCL). Overall, we observed an improvement in net survival, with, however, a lessfavorable prognosis in the short and long-term for some entities. FL and DLBCL were the first lymphomas tobenefit from the introduction of monoclonal antibodies in their therapeutic management. Our second studyaimed to assess the impact of rituximab on overall survival in patients with FL or DLBCL in the Côte d’Or departmentusing a methodology based on the propensity score. Our results confirmed the significant benefit ofrituximab on overall survival in an unselected population of patients. In view of these results, we studied theHRQoL of these patients during and after treatment. HRQoL evolved differently during follow-up dependingon the type of lymphoma.

Hémopathie lymphoïde

Lymphome folliculaire

Lymphome B diffus à grandes cellules

Rituximab

Incidence

Survie globale

Survie nette

Score de propension

Qualité de vie relative à la santé

Hematologic malignancies

Follicular lymphoma

Diffuse large B-cell lymphoma

Incidence

Overall survival

Net survival

Propensity score

Health-related quality of life

571.6

616.9

Elucidating the role of BCL6 in helper T cell activation, proliferation, and differentiation

Hollister, Kristin N.

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / The transcriptional repressor BCL6 has been shown to be essential for the differentiation of germinal center (GC) B cells and follicular T helper (TFH) cells. The interaction of TFH and GC B cells is necessary for the development of high affinity antibodies specific for an invading pathogen. Germline BCL6-deficient mouse models limit our ability to study BCL6 function in T cells due to the strong inflammatory responses seen in these mice. To overcome this, our lab has developed a new BCL6 conditional knockout (cKO) mouse using the cre/lox system, wherein the zinc finger region of the BCL6 gene is flanked by loxP sites. Mating to a CD4-Cre mouse allowed us to study the effects of BCL6 loss specifically in T cells, without the confounding effects seen in germline knockout models. Using this cKO model, we have reaffirmed the necessity of BCL6 for TFH differentiation, including its role in sustained CXCR5 surface expression, a signature marker for TFH cells. This model also allowed us to recognize the role of BCL6 in promoting the expression of PD-1, another key surface marker for TFH cells. Without BCL6, CD4+ T cells cannot express PD-1 at the high levels seen on TFH cells. Our discovery of DNMT3b as a target for BCL6 suggests BCL6-deficient T cells have increased DNA methyltransferase activity at the PD-1 promoter. This data establishes a novel pathway for explaining how BCL6, a transcriptional repressor, can activate genes. Experiments with the BCL6 cKO model have also established a role for BCL6 in naïve CD4+ T cell activation. Furthermore, we did not observe increased differentiation of other helper T cell subsets, in contrast to what has been reported elsewhere with germline BCL6-deficient models. Unexpectedly, we found decreased T helper type 2 (Th2) cells, whereas mouse models with a germline mutation of BCL6 have increased Th2 cells. These results indicate that BCL6 activity in non-T cells is critical for controlling T cell differentiation. Finally, using an HIV-1 gp120 immunization model, we have, for the first time, shown BCL6-dependent GCs to be limiting for antibody development and affinity maturation in a prime-boost vaccine scheme.

T cells

follicular T helper cells

BCL6

germinal center

HIV vaccine

T cells -- Differentiation

Cell transformation -- Regulation

Repressors, Genetic -- Research

HIV (Viruses) -- Vaccination

AIDS vaccines -- Research

Inflammation -- Immunological aspects

B cells -- Research -- Analysis

Germinal centers

Immune system

Autoimmune diseases

Mice -- Diseases -- Molecular aspects

Animal models in research