Immune maturation in early childhood and the influence of herpesvirus infections

Sohlberg, Ebba

January 2013

The quality of immune responses develops from birth into adulthood and in the context of the host microbial environment. The aim of this work was to study immune maturation during childhood, and how this process can be affected by the common herpesviruses; Epstein-Barr virus (EBV) and cytomegalovirus (CMV). In paper I we studied monocytes, an important cell type for immunity in the newborn. We showed that the neonatal monocyte subsets exist in similar frequencies as adult subsets, and have a potent capacity for pro-inflammatory cytokine production. In paper II, III and IV we studied the effects of EBV and CMV infections on immune cell function in children. In paper II we found that monocyte-induced NK-cell production of IFN-γ, and plasma IFN-γ levels, were decreased in 2-year old EBV- and/or CMV-seropositive children and mostly so in co-infected children. In paper III we found that in 5-year old children, EBV and CMV co-infection was associated with the highest levels of differentiated NKG2C+ NK cells. CMV+ children had higher plasma IFN-γ and IL-15 levels and higher NK-cell cytotoxic capacity. In vitro PBMC systems showed elevated frequencies of NKG2C+ NK cells in the presence of EBV-infected cells. In paper IV we showed that a child’s age and subsequent capacity for anti-viral cytokine production affects in vitro EBV infection in terms of B-cell proliferation and B-cell acquisition of memory phenotype. PBMC from CMV+ children had lower EBV-induced accumulation of switched memory B cells, which was connected to high prevalence of CD57+CD8+ T cells and IFN-γ production. Taken together, this thesis work shows that monocyte subsets at birth can give potent functional responses and that latency with EBV and CMV has a significant effect on the differentiation process and functional capacity of anti-viral effector cells during childhood. This in turn could affect responses to related or unrelated infections or even to non-invasive antigens such as allergens. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.</p>

Immune differentiation

monocytes

NK cells

B cells

T cells

Epstein-Barr virus; EBV

cytomegalovirus; CMV

IFN-γ

In silico analysis of pathways targeted by EBV infection and malignant transformation

Sompallae, Ramakrishna Rao,

January 2009

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2009.

AdIkBa-mediated apoptosis in Epstein-Barr virus positive nasopharyngeal carcinoma C666-1 cells

Li, Hong, 李宏

January 2006

published_or_final_version / Biochemistry / Doctoral / Doctor of Philosophy

NF-kappa B (DNA-binding protein)

Epstein-Barr virus - Genetics.

Cancer cells - Genetics.

Adenoviruses.

Apoptosis.

Nasopharynx - Cancer - Genetic aspects.

Posttransplant Lymphoproliferative Disorders : Studies of Epstein-Barr Virus, Regulatory T Cells and Tumor Origin

Kinch, Amelie

January 2014

Epstein-Barr virus (EBV) infects almost all humans and establishes lifelong latency in B cells. Posttransplant lymphoproliferative disorder (PTLD) is a rare but serious complication after transplantation triggered by immunosuppression and often related to EBV infection. The aim of this thesis was to study the role of EBV in relation to clinical and histological features of PTLD, regulatory T cells (Tregs), and donor or recipient origin of PTLD. EBV surveillance after allogeneic hematopoietic stem cell transplantation (allo-HSCT) showed that EBV reactivations were common, but that symptomatic EBV disease (including PTLD) only occurred in the high-risk group (unrelated or mismatched related grafts, reduced-intensity conditioning). A threshold of 1000 copies/ml plasma distinguished EBV disease from asymptomatic reactivations. In a population-based cohort of 135 PTLDs/lymphomas after solid organ transplantation (SOT) almost half were EBV–. EBV+ PTLDs were associated with B cell phenotype, non-germinal center subtype of diffuse large B cell lymphoma (DLBCL), early-onset, graft involvement, antithymocyte globulin treatment, and younger age. EBV– PTLDs were associated with T cell phenotype, bone marrow involvement, and hepatitis C. Most PTLDs displayed few or no intratumoral Tregs with the marker FoxP3, possibly due to heavy immuno­suppres­sion. Half of both FoxP3+ and FoxP3– PTLDs were EBV+. FoxP3+ PTLDs were associated with B cell phenotype and hepatitis C. All PTLDs for which tumor origin could be determined were recipient-derived and half of them were EBV+. Eight of twelve recipient-derived graft PTLDs were disseminated outside the graft. T cell PTLD and hepatitis C were independently associated with inferior overall survival, whereas subtype of DLBCL, FoxP3-expression, and EBV-status did not influence survival. In conclusion, monitoring of EBV DNAemia in high-risk patients after allo-HSCT and pre-emptive therapy is valuable for prevention of PTLD. Use of anti­thymocyte globulin increases the risk for EBV+ PTLDs after allo-HSCT and SOT. With long follow-up time, a large proportion of PLTDs after SOT are EBV– with a different clinical presentation. Tregs are rare in PTLD and do not affect survival. The vast majority of PTLDs after SOT is of recipient origin. Graft PTLDs are more likely recipient-derived if disseminated. EBV-status is not associated with intratumoral Tregs or PTLD of recipient origin.

PTLD

Lymphoma

Epstein-Barr Virus

EBV DNAemia

FoxP3

Treg

Microenvironment

Cell of Origin

Recipient

Transplantation

Immunosuppression

Hepatitis C

Survival

Analysis of viral and cellular gene expression patterns in cells latently infected with EBV by suppression subtractive hybridization /

Kiss, Csaba,

January 2003

Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 5 uppsatser.

Estudo comparativo da associaÃÃo do vÃrus de Epstein-barr com o linfoma de Hodgkin clÃssico em adultos. Estudo imunohistoquÃmico e por hibridizaÃÃo in situ de casos do Cearà (Brasil) e FranÃa

MarÃlia Taumaturgo Pinto

07 November 2003

Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico / A associaÃÃo do Linfoma de Hodgkin ClÃssico (LHc) com o vÃrus de Epstein-Barr (EBV) tem sido observada em vÃrios paÃses de diferentes condiÃÃes sÃcio - econÃmicas. Recentemente usando-se tÃcnica de ImunohistoquÃmica (IHQ) e HibridizaÃÃo in situ (HIS) porÃÃes virais foi encontrada exclusivamente nas cÃlulas caracterÃsticas do Linfoma de Hodgkin que sÃo as chamadas cÃlulas de Reed-Sternberg (RS) e suas variantes chamadas cÃlulas Hodgkin (H). Empregando estas tÃcnicas nosso trabalho foi realizado de modo a fazer uma anÃlise comparativa de uma amostra de 118 casos de origem do Cearà - Nordeste do Brasil e de diferentes regiÃes da FranÃa, sendo todos os pacientes de faixa etÃria entre 18 e 64 anos de idade. Com o propÃsito de convencionar parÃmetros para anÃlise comparativa e interpretaÃÃo de resultados buscou-se alguns trabalhos de pesquisadores cujo objetivo maior era de avaliar o percentual dessa associaÃÃo nos respectivos paÃses onde observou- se uma escassez de trabalhos comparando dois ou mais paÃses. A prevalÃncia do EBV em lesÃes nodais de 37 pacientes do nordeste brasileiro com Linfoma de Hodgkin clÃssico foi comparada com 33 pacientes franceses.Houve predominÃncia em pacientes brasileiros do sexo feminino (51,3%) e em pacientes franceses do sexo masculino (65,3%) sendo a mÃdia de idade similar em ambos os grupos (34,8 anos).Dos subtipos histolÃgicos a Esclerose Nodular (EN) esteve presente em 23 casos brasileiros e em 29 franceses e Celularidade Mista (CM) em 11 brasileiros e 4 franceses. DepleÃÃo LinfocitÃria (DL) e nÃo classificados foram raros. O LMP1 (ProteÃna de Membrana Latente) foi expresso nas cÃlulas RS em 25 (67,5%) dos casos brasileiros e em 10 (30,3%) dos franceses e o Epstein-Barr encoded RNA (EBER) foi evidente em 75,6% de Brasil e 30,3% da FranÃa. A relaÃÃo entre subtipo histolÃgico e detecÃÃo viral foi mais freqÃente no subtipo Celularidade Mista. Deduz-se com esses resultados que o EBV tenha uma maior participaÃÃo na patogÃnese do LH ClÃssico nos casos do Cearà que em pacientes oriundos da FranÃa.

Epstein-Barr virus

immunohistochemistry

in situ hybridization

ANATOMIA PATOLOGICA E PATOLOGIA CLINICA

Inflammations orales et infection par le virus d’Epstein-Barr : vers un nouveau paradigme en pathogenèse orale / Oral inflammation and Epstein-Barr virus infections : towards a new paradigm in oral pathogenesis

Olivieri, Charles-Vivien

06 December 2018

La cavité buccale constitue une porte d’entrée et un site réservoir majeur pour une diversité de virus. Mis à part l’herpèsvirus simplex, peu d’études virologiques détaillent le rôle des virus pathogènes de la sphère orale dont le virus d’Epstein-Barr. Le consensus est que les inflammations orales surviennent principalement en réaction à des infections bactériennes et fongiques provoquant une dysbiose du biofilm oral. Toutefois, ce modèle n’est pas parfait et il explique mal les récidives observées après décontamination, le découplage entre dysbiose et poussées inflammatoires, la proximité de dents atteintes et saines dans un environnement bactérien similaire. L’hypothèse d'un mécanisme synergique combinant virus et bactéries a été proposée pour la parodontite. Selon ce modèle, l’action complémentaire des 2 types d’agents infectieux sur le microenvironnement immunitaire favoriserait la chronicité inflammatoire et l’évolution de la maladie. Nos travaux se concentrent sur l’étude de l’infection de la cavité orale par EBV. EBV est un virus ubiquitaire infectant l’homme de manière persistante. La cavité orale est le site privilégié pour sa réplication avec une production salivaire quasi-constante. Outre un rôle transformant majeur, l’implication de EBV est aussi suspectée pour plusieurs maladies inflammatoires. Tout d’abord, nous nous sommes intéressés au lichen plan oral (LPO), une maladie auto-immune dont l'étiopathogénie n’est pas clairement établie. Sur des biopsies de patients atteints de LPO (n=99), nous avons démontré par hybridation in situ que le LPO est fréquemment infecté par EBV (74%), notamment les formes cliniques érosives. Nous montrons que le degré d’infiltration des lésions par des cellules infectées par EBV (EBV+) est corrélé avec les paramètres inflammatoires et que les cellules EBV+ infiltrées sont des plasmocytes. Cela apporte un élément nouveau dans la mesure où les plasmocytes sont reconnus comme des cellules immunitaires régulatrices majeures. Nous décrivons des profils cytokiniques différents entre LPO infectés ou non, sans qu’il soit possible à ce stade de pouvoir impliquer directement les plasmocytes. Nous confirmons par microscopie électronique que les plasmocytes hébergent les stades tardifs du cycle d’EBV et produisent des virions dans le LPO, suggérant un mécanisme d’amplification locale de l'infection. Ensuite, nous nous sommes intéressés à la parodontite, maladie inflammatoire chronique commune qui détruit la structure parodontale et provoque le déchaussement dentaire. Cette maladie est clairement identifiée comme facteur aggravant de nombreuses maladies systémiques. Nos études avaient déjà mis en évidence un lien direct entre infection EBV et la sévérité de la parodontite. Mes travaux ont permis de montrer que le parodonte inflammatoire est infiltré par des cellules EBV+ qui semblent être majoritairement des plasmocytes. La présence de plasmocytes producteurs de virus au sein de la lésion inflammatoire pourrait expliquer l’infection des épithéliums adjacents. De plus, une étude clinique menée sur une petite cohorte de patients traités pour parodontite met en évidence une corrélation entre la diminution de la charge EBV salivaire et l’amélioration clinique de patients après traitement. Si ce résultat se confirme, il constituerait un argument supplémentaire en faveur d’une contribution de l’infection parodontale par EBV à la globalité de la charge EBV salivaire. En conclusion, nos données mettent en évidence la présence quasi constante d’EBV dans deux types de lésions orales inflammatoires. Cette infection virale contribue à aggraver une situation inflammatoire locale associée ou pas à une dysbiose bactérienne. L’observation majeure concerne la présence, souvent massive, de plasmocytes infectés dont le rôle reste à identifier. Ces observations constituent des avancées significatives qui permettent d’étayer un nouveau modèle de pathogénie orale associant virus et bactéries. / The oral cavity is a major entry point and reservoir site for a variety of viruses. Apart from herpesvirus simplex, few virological studies detail the role of oral pathogenic viruses, including Epstein-Barr virus. The consensus is that oral inflammation occurs mainly in response to bacterial and fungal infections causing dysbiosis of the oral biofilm. However, this model is not perfect and does not explain well the recurrences observed after decontamination, the decoupling between dysbiosis and inflammatory outbreaks, the proximity of affected and healthy teeth in a similar bacterial environment. The hypothesis of a synergistic mechanism combining viruses and bacteria has been proposed for periodontitis. According to this model, the complementary action of the 2 types of infectious agents on the immune microenvironment would promote inflammatory chronicity and disease progression. Our work focuses on the study of oral cavity infection with EBV. EBV is a ubiquitous virus that persistently infects humans. The oral cavity is the preferred site for its replication with almost constant saliva production. In addition to a major transformative role, EBV's involvement is also suspected for several inflammatory diseases. First, we focused on oral plan lichen (OPL), an autoimmune disease whose etiopathogeny is not clearly established. On biopsies of patients with OPL (n=99), we demonstrated by in situ hybridization that OPL is frequently infected with EBV (74%), particularly in erosive clinical forms. We show that the degree of infiltration of lesions by EBV-infected cells (EBV+) is correlated with inflammatory parameters and that the infiltrated EBV+ cells are plasma cells. This brings a new element to the extent that plasma cells are recognized as major regulatory immune cells. We describe different cytokinic profiles between infected and uninfected OPL, although it is not possible at this stage to directly involve plasma cells. We confirm by electron microscopy that plasma cells host the late stages of the EBV cycle and produce virions in the OPL, suggesting a local amplification mechanism of infection. Then, we focused on periodontitis, a common chronic inflammatory disease that destroys the periodontal structure and causes tooth loosening. This disease is clearly identified as an aggravating factor in many systemic diseases. Our studies had already shown a direct link between EBV infection and the severity of periodontitis. My work has shown that the inflammatory periodontium is infiltrated by EBV+ cells, which appear to be predominantly plasma cells. The presence of virus-producing plasma cells within the inflammatory lesion may explain the infection of adjacent epithelia. In addition, a clinical study conducted on a small cohort of patients treated for periodontitis showed a correlation between the decrease in salivary EBV load and the clinical improvement of patients after treatment. If this result is confirmed, it would be an additional argument in favour of a contribution of periodontal EBV infection to the overall salivary EBV burden. In conclusion, our data show the almost constant presence of EBV in two types of inflammatory oral lesions. This viral infection contributes to worsening a local inflammatory situation associated or not with bacterial dysbiosis. The main observation concerns the presence, often massive, of infected plasma cells whose role remains to be identified. These observations represent significant advances that support a new model of oral pathogenesis combining viruses and bacteria.

Virus d’Epstein-Barr

Lichen plan oral

Parodontite

Plasmocytes

Epstein-Barr virus

Oral lichen planus

Periodontitis

Plasma cell

Post-transplant lymphoproliferative disorders after liver transplantation: A retrospective cohort study including 1,954 transplants / 肝移植後リンパ増殖性疾患（PTLD）の発症頻度、臨床病理学的特徴と予後規定因子

Tajima, Tetsuya

26 July 2021

京都大学 / 新制・課程博士 / 博士(医学) / 甲第23421号 / 医博第4766号 / 新制||医||1053(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 小濱 和貴, 教授 妹尾 浩, 教授 川口 義弥 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

liver transplantation

Prognostic factors

Performance status

Monomorphic PTLD

Calcineurin inhibitors

Epstein-Barr virus

490

Identifying Risk Profiles and Generating Protective Vaccine for Epstein-Barr Virus-Associated Lymphoproliferative Diseases

Ahmed, Elshafa Hassan

January 2018

No description available.

Immunology

Epstein-Barr Virus

Lymphoproliferative Diseases

EBV Vaccine

Etude des fonctions des protéines virales de la famille EBNA3 dans l'immortalisation des lymphocytes B par le virus d'Epstein-Barr : rôle fonctionnel de l'interaction entre EBNA-3A et la protéine cellulaire Miz-1 / Functions of the EBNA3 proteins in the immortalization of human B cells by the Epstein-Barr virus : functional role of the interaction between EBNA-3A and the Miz-1 cellular protein

Bazot, Quentin

30 November 2012

Le virus d’Epstein-Barr (EBV) est un gamma-Herpesvirus associé à de nombreux cancers chez l’homme. In vitro, l’infection de lymphocytes B primaires par EBV conduit à leur immortalisation (genèse de lignées lymphoblastoides (LCL)). Dans ces cellules, seules 9 protéines virales (protéines dites de latence) sont exprimées et coopèrent pour stimuler la prolifération des cellules. Afin de comprendre les mécanismes moléculaires par lesquels les 3 protéines de latence de la famille EBNA3 (-3A, -3B et -3C) participent à l’induction et au maintien de la prolifération cellulaire induite par EBV, nous avons réalisé un crible deux-hybrides dans la levure en utilisant EBNA-3A, -3B ou -3C comme appâts. Ce crible nous a permis d’identifier de nombreux nouveaux partenaires particulièrement pertinents au vu de ce que l’on connaît des rôles respectifs des protéines EBNA3. Parmi les nouveaux partenaires de la protéine EBNA-3A se trouve le facteur de transcription Miz-1 qui est connu pour jouer un rôle clef dans l’arrêt du cycle cellulaire en transactivant l’expression de gènes tels CDKN1A, CDKN1C et CDKN2B. Nous avons validé cette interaction par GST-pull down ainsi que par co-immunoprécipitation en cellules humaines. Nous avons ensuite étudié l’effet de la protéine virale EBNA-3A sur l’activation de la transcription induite par Miz-1. Pour cela, nous avons comparé le niveau des transcrits de certains gènes cibles de Miz-1 dans des LCL exprimant ou non EBNA-3A et avons trouvé que certains gènes codant des inhibiteurs du cycle cellulaire sont différemment exprimés en présence d’EBNA-3A. Enfin, nous avons pu montrer que la protéine virale EBNA-3A est capable de réprimer l’activation de la transcription de Miz-1 en inhibant le recrutement de l’une de ses protéines co-activatrices, la protéine NPM. Ces résultats permettent de mieux comprendre les mécanismes par lesquels les protéines EBNA3 et plus largement EBV, dérégulent le cycle cellulaire. / Epstein-Barr Virus (EBV) is a human Herpesvirus that infects over 90% of the world population and is associated with several malignancies. EBV has the unique capacity to activate and to induce growth transformation of resting primary human B-lymphocytes, upon their in vitro infection, leading to the establishment of lymphoblastoid cell lines (LCLs). In these cells (called Lymphoblatoid cell lines (LCLs)), nine latent proteins are expressed driving the activation and proliferation of the infected B cells. In order to understand the molecular mechanism by which the EBNA3s latent proteins play a role in growth transformation, we used a large scale two-hybrid yeast screen. Thanks to that screen we identified several cellular partners very interesting in relation to what we know about the EBNA3s functions. One of the proteins identified in this screen is the transcription factor Miz-1, which has a cell growth arrest activity via inhibition of cell-cycle progression and has been shown to activate transcription of target genes including CDKN1A, CDKN1C and CDKN2B. We confirmed the interaction between EBNA-3A and Miz-1 by GST-pull down assay as well as by co-immunoprecipitation in HeLa cells We next investigated the effect of EBNA-3A on Miz-1-dependent regulation by comparing the transcript levels of selected Miz-1 target genes between EBNA-3A positive and negative LCLs by RT-qPCR. Interestingly, several Miz-1 target genes, among which CDKN2B, were found to be differentialy regulated in the presence of EBNA-3A. We found that EBNA-3A inhibits Miz-1 dependant activation by inhibiting the recrutement of the co-activator NPM. Those results bring new insights to the mechanisms by which the EBNA3s, and more largely EBV, regulate the cell cycle.

Virus d’Epstein-Barr (EBV)

Cycle cellulaire

Protéines EBNA3

EBNA-3A

Miz-1

Epstein-Barr Virus (EBV)

Cell cycle

EBNA3 proteins

EBNA-3A

Miz-1