ESCMID* guideline for the diagnosis and management of Candida diseases 2012: adults with haematological malignancies and after haematopoietic stem cell transplantation (HCT).

Fungal diseases still play a major role in morbidity and mortality in patients with haematological malignancies, including those undergoing haematopoietic stem cell transplantation. Although Aspergillus and other filamentous fungal diseases remain a major concern, Candida infections are still a major cause of mortality. This part of the ESCMID guidelines focuses on this patient population and reviews pertaining to prophylaxis, empirical/pre-emptive and targeted therapy of Candida diseases. Anti-Candida prophylaxis is only recommended for patients receiving allogeneic stem cell transplantation. The authors recognize that the recommendations would have most likely been different if the purpose would have been prevention of all fungal infections (e.g. aspergillosis). In targeted treatment of candidaemia, recommendations for treatment are available for all echinocandins, that is anidulafungin (AI), caspofungin (AI) and micafungin (AI), although a warning for resistance is expressed. Liposomal amphotericin B received a BI recommendation due to higher number of reported adverse events in the trials. Amphotericin B deoxycholate should not be used (DII); and fluconazole was rated CI because of a change in epidemiology in some areas in Europe. Removal of central venous catheters is recommended during candidaemia but if catheter retention is a clinical necessity, treatment with an echinocandin is an option (CII(t) ). In chronic disseminated candidiasis therapy, recommendations are liposomal amphotericin B for 8 weeks (AIII), fluconazole for >3 months or other azoles (BIII). Granulocyte transfusions are only an option in desperate cases of patients with Candida disease and neutropenia (CIII).

Epigenetics in sepsis: targeting histone deacetylases.

Severe sepsis and septic shock are lethal complications of infection, characterised by dysregulated inflammatory and immune responses. Our understanding of the pathogenesis of sepsis has improved markedly in recent years, but unfortunately has not been translated into efficient treatment strategies. Epigenetic mechanisms such as covalent modification of histones by acetylation are master regulators of gene expression under physiological and pathological conditions, and strongly impact on inflammatory and host defence responses. Histone acetylation is controlled by histone acetyltransferases and histone deacetylases (HDACs), which affect gene expression also by targeting non-histone transcriptional regulators. Numerous HDAC inhibitors (HDACi) are being tested in clinical trials, primarily for the treatment of cancer. We performed the first comprehensive study of the impact of HDACi on innate immune responses in vitro and in vivo. We showed that HDACi act essentially as negative regulators of the expression of critical immune receptors and antimicrobial pathways in innate immune cells. In agreement, HDACi impaired phagocytosis and killing of bacteria by macrophages, and increased susceptibility to non-severe bacterial and fungal infections. Strikingly, proof-of-principle studies demonstrated that HDACi protect from lethal toxic shock and septic shock. Overall, our observations argue for a close monitoring of the immunological and infection status of patients treated with HDACi, especially immunocompromised cancer patients. They also support the concept of pharmacological inhibitors of HDACs as promising drugs to treat inflammatory diseases, including sepsis.

Les maladies infectieuses ont encore un bel avenir [Infectious diseases have again a good future!].

Invasive fungal diseases (IFDs) have become major causes of morbidity and mortality among highly immunocompromised patients. Authoritative consensus criteria to diagnose IFD have been useful in establishing eligibility criteria for antifungal trials. There is an important need for generation of consensus definitions of outcomes of IFD that will form a standard for evaluating treatment success and failure in clinical trials. Therefore, an expert international panel consisting of the Mycoses Study Group and the European Organization for Research and Treatment of Cancer was convened to propose guidelines for assessing treatment responses in clinical trials of IFDs and for defining study outcomes. Major fungal diseases that are discussed include invasive disease due to Candida species, Aspergillus species and other molds, Cryptococcus neoformans, Histoplasma capsulatum, and Coccidioides immitis. We also discuss potential pitfalls in assessing outcome, such as conflicting clinical, radiological, and/or mycological data and gaps in knowledge.

O Papel do Ar e Água Ambientais como Veículos de Transmissão de Infeções Fúngicas no Hospital Agostinho Neto, Cidade da Praia, Cabo Verde

Os fungos são um grupo de microrganismos diversificado com uma grande ubiquidade na natureza, podendo ser encontrados no solo, no ar e na água. Alguns destes microrganismos são considerados como verdadeiros agentes patogénicos para humanos e, embora na grande maioria sejam inofensivos para indivíduos saudáveis, tornam-se patogénicos para indivíduos com fragilidade imunológica. A infeção por estes agentes em ambiente hospitalar tem sido relatada neste últimos anos como a principal causa de morte nos pacientes internados com debilidade imunológica. Neste estudo foi feita a monitorização da presença de fungos no ambiente de algumas unidades mais críticas do Hospital Agostinho Neto na cidade da Praia em Cabo Verde durante o mês de Janeiro de 2012, nomeadamente no Bloco Operatório do hospital, no serviço de internamento Cirúrgico e Queimadura, no serviço de internamento de Neonatologia, no serviço de internamento de Infeciologia, no serviço de Oncologia e no serviço de Hemodiálise. No total foram recolhidas 34 amostras de diferentes locais, detectadas 393ufc/m3 no ar, 685ufc/m3 na água e 2696ufc/m2 nas superfícies e isolados 104 fungos morfologicamente diferentes, sendo sido obtidos 29 a partir do ar, 21 de amostras da água e 54 de superfícies. A análise micológica destas amostras revelou uma forte presença dos géneros como Penicillium sp., Cladosporium sp. e Aspergillus sp. em todas as colheitas. Sabendo que a contaminação do ambiente hospitalar por estes agentes pode ser um fator de risco para infeção nosocomial em pacientes com sistema imunitário muito debilitado, sugerimos no final do trabalho algumas linhas orientadoras para minimizar os fatores de risco e propor trabalhos futuros para correlacionar esses fatores com casos de ocorrência de infeções fúngicas no Hospital Agostinho Neto na cidade da Praia, Cabo Verde.

The role of the transcription factor Tcf-1 for the development and the function of NK cells

Natural Killer (NK) cells are innate immune cells that can eliminate malignant and foreign cells and that play an important role for the early control of viral and fungal infections. Further, they are important regulators of the adaptive and innate immune responses. During their development in the bone marrow (BM) NK cells undergo several maturation steps that directly establish an effector program. The transcriptional network that controls NK cell development and maturation is still incompletely understood. Based on earlier findings that NK cell numbers are reduced in the absence of the transcription factor T cell factor-1 (Tcf-1), my thesis has addressed the precise role of this transcription factor for NK cell development, maturation and function and whether Tcf-1 acts as a nuclear effector of the canonical Wnt signaling pathway to mediate its effects. It is shown that Tcf-1 is selectively required for the emergence of mature BM NK cells. Surprisingly, the emergence of BM NK cells depends on the repressor function of Tcf-1 and is independent of the Wnt pathway. In BM and peripheral NK cells Tcf-1 is found to suppress Granzyme B (GzmB) expression, a key cytotoxic effector molecule required to kill target cells. We provide evidence that GzmB over-expression in the absence of Tcf-1 results in accelerated spontaneous death of bone marrow NK cells and of cytokine stimulated peripheral NK cells. Moreover, Tcf-1 deficient NK cells show reduced target cell killing, which is due to enhanced GzmB-dependent NK cell death induced by the recognition of tumour target cells. Collectively, these data provide significant new insights into the transcriptional regulation of NK cell development and function and suggest a novel mechanism that protects NK cells from the deleterious effects of highly cytotoxic effector molecules. - Les cellules NK (de l'anglais Natural Killer) font partie du système immunitaire inné et sont capables d'éliminer à elles seules les cellules cancéreuses ou infectées. Ces cellules participent dans la régulation et la coordination des réponses innée et adaptative. Lors de leur développement dans la moelle osseuse, les cellules NK vont acquérir leurs fonctions effectrices, un processus contrôlé par des facteurs de transcription mais encore peu connu. Des précédentes travaux ont montré qu'une diminution du nombre de cellules NK corrélait avec l'absence du facteur de transcription Tcf-1 (T cell factor-1), suggérant un rôle important de Tcf-1 dans le développement de cellules NK. Cette thèse a pour but de mieux comprendre le rôle du facteur de transcription Tcf-1 lors du développement et la maturation des cellules NK, ainsi que son interaction avec la voie de signalisation Wnt. Nous avons montré que Tcf-1 est essentiel pour la transition des cellules immatures NK (iNK) à des cellules matures NK (mNK) dans la moelle osseuse, et cela de manière indépendamment de la voie de signalisation Wnt. De manière intéressante, nous avons observé qu'en absence du facteur de transcription Tcf-1, les cellules NK augmentaient l'expression de la protéine Granzyme B (GzmB), une protéine essentielle pour l'élimination des cellules cancéreuses ou infectées. Ceci a pour conséquence, une augmentation de la mort des cellules mNK dans la moelle osseuse ainsi qu'une diminution de leur fonction «tueuses». Ces résultats montrent pour la première fois, le rôle répresseur du facteur de transcription Tcf-1 dans l'expression de la protéine GzmB. L'ensemble de ces résultats apporte de nouveaux éléments concernant le rôle de Tcf-1 dans la régulation du développement et de la fonction des cellules NK et suggèrent un nouveau mécanisme cellulaire de protection contre les effets délétères d'une dérégulation de l'expression des molécules cytotoxique.

Histone deacetylase inhibitors impair innate immune responses to Toll-like receptor agonists and to infection.

Regulated by histone acetyltransferases and deacetylases (HDACs), histone acetylation is a key epigenetic mechanism controlling chromatin structure, DNA accessibility, and gene expression. HDAC inhibitors induce growth arrest, differentiation, and apoptosis of tumor cells and are used as anticancer agents. Here we describe the effects of HDAC inhibitors on microbial sensing by macrophages and dendritic cells in vitro and host defenses against infection in vivo. HDAC inhibitors down-regulated the expression of numerous host defense genes, including pattern recognition receptors, kinases, transcription regulators, cytokines, chemokines, growth factors, and costimulatory molecules as assessed by genome-wide microarray analyses or innate immune responses of macrophages and dendritic cells stimulated with Toll-like receptor agonists. HDAC inhibitors induced the expression of Mi-2β and enhanced the DNA-binding activity of the Mi-2/NuRD complex that acts as a transcriptional repressor of macrophage cytokine production. In vivo, HDAC inhibitors increased the susceptibility to bacterial and fungal infections but conferred protection against toxic and septic shock. Thus, these data identify an essential role for HDAC inhibitors in the regulation of the expression of innate immune genes and host defenses against microbial pathogens.

Innate sensors for Gram-positive bacteria.

More than half of invasive bacterial infections are Gram-positive in origin. This class of bacteria has neither endotoxins nor an outer membrane, yet it generates some of the most powerful inflammatory responses known in medicine. Some recent seminal studies go a long way toward settling the controversies that surround the process by which Gram-positive bacterial surfaces trigger the human immune system. Although the components of the cell wall are now chemically defined in exquisite detail and the interaction with the toll-like receptor 2 pathway has been discovered, it is only very recently that definitive studies combining these advanced biochemical and cell biological tools have been carried out. It is these breakthrough studies that have finally confirmed the paradigm of innate sensors for Gram-positive bacteria.

Polymorphisms in tumor necrosis factor-α increase susceptibility to intra-abdominal Candida infection in high-risk surgical ICU patients*.

OBJECTIVES: To evaluate the influence of genetic polymorphisms on the susceptibility to Candida colonization and intra-abdominal candidiasis, a blood culture-negative life-threatening infection in high-risk surgical ICU patients. DESIGN: Prospective observational cohort study. SETTING: Surgical ICUs from two University hospitals of the Fungal Infection Network of Switzerland. PATIENTS: Eighty-nine patients at high risk for intra-abdominal candidiasis (68 with recurrent gastrointestinal perforation and 21 with acute necrotizing pancreatitis). MEASUREMENTS AND MAIN RESULTS: Eighteen single-nucleotide polymorphisms in 16 genes previously associated with development of fungal infections were analyzed from patient's DNA by using an Illumina Veracode genotyping platform. Candida colonization was defined by recovery of Candida species from at least one nonsterile site by twice weekly monitoring of cultures from oropharynx, stools, urine, skin, and/or respiratory tract. A corrected colonization index greater than or equal to 0.4 defined "heavy" colonization. Intra-abdominal candidiasis was defined by the presence of clinical symptoms and signs of peritonitis or intra-abdominal abscess and isolation of Candida species either in pure or mixed culture from intraoperatively collected abdominal samples. Single-nucleotide polymorphisms in three innate immune genes were associated with development of a Candida corrected colonization index greater than or equal to 0.4 (Toll-like receptor rs4986790, hazard ratio = 3.39; 95% CI, 1.45-7.93; p = 0.005) or occurrence of intra-abdominal candidiasis (tumor necrosis factor-α rs1800629, hazard ratio = 4.31; 95% CI, 1.85-10.1; p= 0.0007; β-defensin 1 rs1800972, hazard ratio = 3.21; 95% CI, 1.36-7.59; p = 0.008). CONCLUSION: We report a strong association between the promoter rs1800629 single-nucleotide polymorphism in tumor necrosis factor-α and an increased susceptibility to intra-abdominal candidiasis in a homogenous prospective cohort of high-risk surgical ICU patients. This finding highlights the relevance of the tumor necrosis factor-α functional polymorphism in immune response to fungal pathogens. Immunogenetic profiling in patients at clinical high risk followed by targeted antifungal interventions may improve the prevention or preemptive management of this life-threatening infection.

Antifungal compounds from plants

Due to the increase of the incidence of fungal infections in humans and the limitations of the available antimycotic drugs, among which the emergence of resistant strains, there is a need for the discovery of new antifungal agents. Plants, especially those used in Traditional Medicine, linked to an unmatched chemical diversity, either as pure compounds or as plant extracts, provide unlimited opportunities for the development of new antifungals. Inrecent years, compounds from different phytochemical groups have been described as having antifungal activity, including polyphenols, saponins, or peptides, among others, as well asessential oils and their constituents. After screening of ethnopharmacologically selected plants, mainly from Latin-America, followed by bio-guided isolation, our group hasdescribed the antifungal activity of different types of plant constituents, such as sesquiterpenes, triterpenes, flavonoids, lignans, fatty acids and essential oils.

Polyene macrolide antifungal drugs trigger interleukin-1β secretion by activating the NLRP3 inflammasome.

The use of antimycotic drugs in fungal infections is based on the concept that they suppress fungal growth by a direct killing effect. However, amphotericin and nystatin have been reported to also trigger interleukin-1β (IL-1β) secretion in monocytes but the molecular mechanism is unknown. Here we report that only the polyene macrolides amphotericin B, nystatin, and natamycin but none of the tested azole antimycotic drugs induce significant IL-1β secretion in-vitro in dendritic cells isolated from C57BL/6 mouse bone marrow. IL-1β release depended on Toll-like receptor-mediated induction of pro-IL-1β as well as the NLRP3 inflammasome, its adaptor ASC, and caspase-1 for enzymatic cleavage of pro-IL-1β into its mature form. All three drugs induced potassium efflux from the cells as a known mechanism for NLRP3 activation but the P2X7 receptor was not required for this process. Natamycin-induced IL-1β secretion also involved phagocytosis, as cathepsin activation as described for crystal-induced IL-1β release. Together, the polyene macrolides amphotericin B, nystatin, and natamycin trigger IL-1β secretion by causing potassium efflux from which activates the NLRP3-ASC-caspase-1. We conclude that beyond their effects on fungal growth, these antifungal drugs directly activate the host's innate immunity.

Unexpected genomic variability in clinical and environmental strains of the pathogenic yeast Candida parapsilosis

Invasive candidiasis is the most commonly reported invasive fungal infection worldwide. Although Candida albicans remains the main cause, the incidence of emerging Candida species, such as C. parapsilosis is increasing. It has been postulated that C. parapsilosis clinical isolates result from a recent global expansion of a virulent clone. However, the availability of a single genome for this species has so far prevented testing this hypothesis at genomic scales. We present here the sequence of three additional strains from clinical and environmental samples. Our analyses reveal unexpected patterns of genomic variation, shared among distant strains, that argue against the clonal expansion hypothesis. All strains carry independent expansions involving an arsenite transporter homolog, pointing to the existence of directional selection in the environment, and independent origins of the two clinical isolates. Furthermore, we report the first evidence for the existence of recombination in this species. Altogether, our results shed new light onto the dynamics of genome evolution in C. parapsilosis.

Molecular characterization of the Carma1-related protein card9

ABSTRACT : Fungal infections have become a major source of diseases in immuncompromised patients, but are quite benign in healthy individuals. As fungi are eukaryotes, and share many biological processes with humans, many antifungal drugs can cause toxicity in the patients. Therefore, the characterization of signaling pathways specific to the anti-fungal immune response is relevant for the better understanding of the disease and the development of new therapeutic approaches. Dectin-1 is the major mammalian pattern recognition receptor for the fungal component zymosan. Dectin-1 is an innate non-Toll-like receptor containing immunoreceptor tyrosine-based activation motifs (ITAMs). Card9, Bc110 and Maltl are proteins that have been shown to play a key role in the Dectin-l-induced signaliñg pathway by controlling Dectin-l-mediated cell activation, cytokine production and innate anti-fungal immunity in mice. Here we investigate the role of the Card9-Bc110-Maltl complex in humans using the monocytic cell line THP-1. We show that Card9 interacts with Bc110 through a CARD-CARD interaction and that interaction of Card9 with Bc110 is required for NF-xB activation. We further demonstrate that Card9 is phosphorylated in its C-terminal part on serine residues. The phosphorylation status of Card9 can influence its ability to active NF-xB, since mutation of the phosphorylation sites increases its ability to activate NF-xB. We find that Card9 is expressed in myeloid derived cells, such as the human monocytic cell lines THP1 and U937, and in human monocyte-enriched PBLs and monocyte-derived DCs. Our findings demonstrate that Card9 is implicated in anti-fungal responses, since silencing of Card9 as well as of Bc110 and Maltl diminishes the capacity of THP1 cells to produce TNF-a in response to zymosan. Interestingly, activation of the NF-xB and MAPK pathway remained normal and levels of TNF-a mRNA produced were also not affected in THP 1 cells silenced for the expression of Card9, Bc110 or Malt1. Using a Malt1 inhibitor, we provide evidence that the proteolytic activity of Malt1 is needed for zymosan-induced TNF-a production in THP 1 cells and bone marrow-derived macrophages of mice, but further experiments are required to confirm these findings and identify the substrate(s) of Malt1. In conclusion, our results reveal an important role for Card9 in the innate immune response of human macrophages to fungi. RÉSUMÉ : Les infections fongiques sont une source majeure de maladie chez les patients immunodéprimés, alors qu'elles sont plutôt bénignes chez les individus sains. Comme les champignons sont des eucaryotes et partagent beaucoup de processus biologiques avec les humains, les médicaments antifongiques peuvent être source de toxicité chez les patients. Il est donc important de mieux caractériser les voies de signalisation intracellulaire des réponses anti-fongiques pour pouvoir développer de nouvelles approches thérapeutiques. La protéine Dectin-1 est le récepteur principal du composé fongique zymosan. Les protéines Card9, Bc110 et Maltl ont été décrites comme jouant un rôle primordial dans les signaux d'activation induits par Dectin-l, en contrôlant l'activité cellulaire, la production de cytokines et la défense anti-fongique dans les souris. Dans cette étude, nous investiguons le rôle du complexe Card9-Bc110-Maltl dans la lignée monocytaire humaine THP1. Nous montrons que Card9 interagit avec Bc110 par une interaction CARD-CARD et que cette interaction est requise pour activer le facteur de transcription NF-xB. Nous observons que Card9 est phosphorylé dans sa partie C-terminale sur des résidus serine et que l'état de phosphorylation de Card9 influence sa capacité à activer NF-xB. En effet, sa capacité à activer NF-xB est augmentée, après mutation des sites de phosphorylation. La génération d'un anticorps spécifique dirigé contre Card9 nous a permis de démontrer que Card9 est exprimé dans des cellules myéloïdes comme les lignées cellulaires monocytiques THP-1 et U-937, ainsi que dans les cellules dendritiques humaines. Nos résultats démontrent que Card9 est impliqué dans la réponse immunitaire antifongique puisque la réduction de l'expression de Card9 ainsi que de Bc110 et de Malt1 diminue la capacité des THP-1 à produire du TNF-a en réponse au zymosan. Par contre, les voies de signalisation NF-xB et MAPK ainsi que les niveaux de mRNA de TNF-a produits en réponse au zymosan ne sont pas affectés dans ces cellules. En utilisant un inhibiteur de Malt1, nous montrons que l'activité protéolytique de Malt1 est nécessaire pour la production de TNF-a induite par le zymosan dans les cellules THP-1 ainsi que dans les macrophages de souris, mais d'autres expériences seront nécessaires pour confirmer cette observation et identifier le(s) substrat(s) de Malt1 responsables de cet effet. En conclusion, nos résultats révèlent un rôle important de la protéine Card9 dans la réponse immunitaire innée antifongique dans les macrophages humains.

Functional characterization of the Pneumocystis jirovecii potential drug targets dhfs and abz2 involved in folate biosynthesis.

Pneumocystis species are fungal parasites colonizing mammal lungs with strict host specificity. Pneumocystis jirovecii is the human-specific species and can turn into an opportunistic pathogen causing severe pneumonia in immunocompromised individuals. This disease is currently the second most frequent life-threatening invasive fungal infection worldwide. The most efficient drug, cotrimoxazole, presents serious side effects, and resistance to this drug is emerging. The search for new targets for the development of new drugs is thus of utmost importance. The recent release of the P. jirovecii genome sequence opens a new era for this task. It can now be carried out on the actual targets to be inhibited instead of on those of the relatively distant model Pneumocystis carinii, the species infecting rats. We focused on the folic acid biosynthesis pathway because (i) it is widely used for efficient therapeutic intervention, and (ii) it involves several enzymes that are essential for the pathogen and have no human counterparts. In this study, we report the identification of two such potential targets within the genome of P. jirovecii, the dihydrofolate synthase (dhfs) and the aminodeoxychorismate lyase (abz2). The function of these enzymes was demonstrated by the rescue of the null allele of the orthologous gene of Saccharomyces cerevisiae.

The role of Notch receptor signaling in T helper 17 cell differentiation

Antigenic recognition by naive CD4+ T cells induces their proliferation and differentiation into functionally distinct T helper (Th) cell. Each CD4+ Th cell subset expresses specific transcription factors and produces signature cytokines that coordinate immune responses against encountered pathogens. Among the factors influencing CD4+ Th cell differentiation, Notch signaling pathway has been reported to play a role in the differentiation and function of multiple CD4+Thcell subsets. Notch signaling is an evolutionarily conserved cell-to-cell signaling cascade involved in many cell fate decision processes. How Notch signaling modulates the differentiation of CD4+ Th cell subsets and whether Notch signaling alone is sufficient or not for the differentiation of CD4+ Th cells is still a matter of debate. Th17 cells are a distinct subset of CD4+ Th cells. They play a role in the control of extracellular bacterial and fungal infections and may lead to inflammatory and autoimmune diseases if not properly regulated. Th17 cells are defined by the expression of RAR-related orphan receptor (ROR)a and RORyT transcription factors and their secretion of IL-17A, IL-17F cytokines. The involvement of Notch signaling in Th17 cell differentiation has mostly been studied in vitro. However, neither the experimental conditions when Notch signaling might be involved in Th17 cell differentiation in vitro and in vivo nor the precise role of Notch in this process remain clear. To better define how Notch signaling impacts Th17 differentiation, we used mice with T cell specific ablation of Notchl and Notch2 (N1 N2ACD4Cre) or of Notch transcriptional repressor RBP- JK (RBP-J ACD4Cre). We show that impaired Notch signaling in T cells, when TCR activating signal were reduced, increased RORyT and IL-17 mRNA levels during in vitro Th17 cell differentiation. Following immunization with OVA in CFA, an adjuvant that induces mostly Th17 cell response, increased IL-17A mRNA and intracellular IL-17A levels were observed in draining lymph nodes of Notch-deficient CD4+T cells. Our data suggest that Notch limited Th17 cell differentiation. Despite high levels of IL-17 mRNA and intracellular IL-17 proteins observed in Notch-deficient T cells, their release of Th17 cytokines ex vivo was markedly decreased, indicating a role for Notch signaling. During the second part of this thesis, we observed that the impact of Notch on Th17 cell differentiation and effector functions was context-dependent using different in vivo experimental models, in which Th17 cells and IL-17A were reported to contribute in the disease development. Collectively, our data reveal that Notch signaling controls the fine-tuning of Th17 cell differentiation and effector functions by limiting their differentiation but promoting selectively cytokine release through Notch-dependent mechanisms that still need to be defined. -- Lors d'une réponse immunitaire et grâce à la reconnaissance antigénique, les lymphocytes CD4+ T naïfs prolifèrent, puis se différencient en CD4+ T auxiliaires ("T helper" ou Th) fonctionnellement distincts. Chaque sous-population de lymphocytes CD4+ T auxiliaires exprime des facteurs de transcription et des cytokines spécifiques qui coordonnent la réponse immunitaire contre les pathogènes rencontrés. Parmi les facteurs influençant la différenciation des lymphocytes CD4+ T auxiliaires, la voie de signalisation Notch a été identifiée comme ayant un rôle dans la différenciation et la fonction des différents sous-types de cellules CD4+ T auxiliaires. La voie de signalisation Notch est une voie évolutivement conservée, qui est impliquée dans la signalisation entre les cellules et dans de nombreux processus de décisions cellulaires. La manière dont la voie de signalisation Notch régule la différenciation des lymphocytes CD4+ T en sous-types de cellules CD4+ auxiliaires, mais également la question de savoir si la voie de signalisation Notch est capable ou non d'induire la différenciation des cellules CD4+T auxiliaires, restent à débattre. Les cellules T auxiliaires 17 (Th17) sont un sous-type distinct de cellules CD4+T. Elles jouent un rôle important dans la défense immunitaire contre des pathogènes tels que les bactéries extracellulaires et les champignons. Une dérégulation de la réponse des cellules Th17 peut conduire à des inflammations mais également à des maladies auto-immunes. Les cellules Th17 sont définies par l'expression de leurs facteurs de transcription RAR-related orphan receptor (ROR)a, RORyT et par la sécrétion de cytokines comme IL-17A, IL-17F. Le rôle de la voie de signalisation Notch dans la différenciation des cellules Th17 a principalement été démontré in vitro. Malgré tout, ni les conditions expérimentales dans lesquelles cette voie pourrait être impliquée dans la différenciation des cellules Th17 in vitro et in vivo, mais également ni la fonction exacte de Notch dans ces processus, ne sont des questions résolues. Afin de mieux définir comment la voie de signalisation Notch est impliquée dans la différenciation des cellules Th17, nous avons utilisé des souris avec une déficience spécifique dans les cellules T des récepteurs Notchl et Notch2 (N1N2ACD4Cre) ou du répresseur transcriptionnel de Notch RBP-JK (RBP-J ACD4Cre). Nous avons montré que lorsque la voie de signalisation Notch est déficiente, les niveaux d'ARN messager (ARNm) de RORyT et de IL-17A sont augmentés dans les cellules Th17 pendant la différenciation in vitro, en présence de niveaux réduits des signaux activant les cellules T CD4+. Une augmentation dans les niveaux d'ARNm de IL-17A et de IL-17A intracellulaire au niveau protéinique a été observée dans les cellules T CD4+ Notch déficientes, au niveau des ganglions drainants après immunisation avec l'OVA dans le CFA, un adjuvant induisant une réponse des cellules Th17. Nos résultats suggèrent que Notch pourrait réguler négativement l'expression de IL-17A au niveau transcriptionnel mais également protéinique. Malgré une augmentation de IL-17A au niveau de l'ARNm et protéinique dans les cellules CD4+ T Notch déficientes, paradoxalement la sécrétion de IL-17A mais également de cytokines associées aux fonctions effectrices des cellules Th17 sont profondément diminuées 6X vivo, suggérant un rôle de la voie de signalisation Notch dans ce processus. Dans la deuxième partie de ce travail de thèse, nous avons observé que l'impact de Notch dans la différenciation des cellules Th17 et dans leurs fonctions effectrices était dépendant du contexte dans d'autres modèles expérimentaux in vivo, où les cellules Th17 et l'IL-17A ont été identifiées comme ar-.riCociêSM dans le développement ds la pathologie. En résumé, nous avons montré que la voie de la signalisation Notch contrôle la régulation précise de la différenciation des cellules Th17 en limitant leur différenciation, mais en promouvant sélectivement leur relâchement en cytokines associés aux cellules Th17 par l'intermédiaire de mécanismes dépendant de Notch, qui restent toujours à déterminer. -- Lors d'une réponse immunitaire et grâce à la reconnaissance antigénique, les lymphocytes CD4+ T naïfs prolifèrent, puis se différencient en CD4+ T auxiliaires ("T helper" ou Th) fonctionnellement distincts. Chaque sous-population de lymphocytes T auxiliaires exprime des facteurs de transcription et des cytokines spécifiques qui coordonnent une réponse immunitaire contre différents pathogènes. Les mécanismes liés à la différenciation des lymphocytes CD4+ T auxiliaires sont complexes et régulés. Une mauvaise régulation de la différenciation des lymphocytes CD4+ T auxiliaires peut conduire à des maladies auto-immunes, mais également à des processus inflammatoires. Parmi les facteurs influençant la différenciation des lymphocytes T auxiliaires, la voie de signalisation Notch a été identifiée comme ayant un rôle dans la différenciation et la fonction des différents sous-types de cellules CD4+ T auxiliaires. La voie de signalisation Notch est une voie évolutivement conservée, qui est impliquée dans la signalisation entre les cellules, mais également dans de nombreux processus de décisions cellulaires. Quelle est l'implication de la voie de signalisation Notch dans la différenciation des lymphocytes CD4+ en sous-types de cellules CD4+T auxiliaires et comment cette voie agit dans ce processus, sont des questions débattues. Les cellules T auxiliaires 17 (Th17) sont une sous-population distincte de lymphocytes CD4+. Elles jouent un rôle important dans la défense immunitaire contre les bactéries extracellulaires et les champignons. Une dérégulation de la réponse des cellules Th17 a été associée à des maladies auto-immunes et à l'inflammation. Les cellules Th17 sont définies par l'expression du facteur de transcription RAR-related orphan receptor (ROR)yT et des cytokines comme IL-17A, IL-17F. Le rôle de la voie de signalisation Notch dans la différenciation des cellules Th17 a été principalement démontré dans des études expérimentales in vitro. Malgré tout, les conditions expérimentales exactes dans lesquelles la voie de signalisation de Notch pourrait être impliquée dans la différenciation des cellules Th17, mais également le rôle de Notch dans ce processus ne sont pas encore clairement élucidés. Afin de mieux définir comment la voie de signalisation Notch est impliquée dans la différenciation des cellules Th17, nous avons utilisé des souris avec une déficience spécifique dans les cellules T des récepteurs Notchl et Notch2 (N1 N2ACD4Cre) ou du répresseur transcriptionnel de Notch RBP-JK (RBP-JACD4CRE). Nous avons montré que lorsque la voie de signalisation Notch est déficiente, les niveaux d'ARN messager (ARNm) de RORyT et de IL-17 sont augmentés dans les cellules Th17 pendant leur différenciation in vitro. Cet effet de Notch sur la transcription apparaît être facultatif lorsque les conditions environnementales sont en excès in vitro. Après immunisation avec un adjuvant qui induit principalement une réponse des cellules Th17, nous avons observé que les niveaux de ARNm de IL-17A et aussi de IL-17A intracellulaire au niveau protéinique étaient augmentés dans les ganglions drainants dans les cellules CD4+ Notch déficientes. Ces résultats suggèrent que Notch pourrait réguler négativement l'expression de IL- 17 au niveau transcriptionnel mais également protéinique. Malgré des niveaux plus élevés de IL- 17 ARNm et aussi IL-17A intracellulaire dans les cellules T Notch déficientes, le relâchement en cytokines Th17 est profondément diminué indiquant un rôle de la voie de signalisation Notch dans ces processus de sécrétion. Dans la deuxième partie de cette thèse, nous avons observé que le rôle de Notch dans ia différenciation dss cellules Ti,17 et dans leurs fonctions effectrices était dépendant du contexte dans d'autres modèles expérimentaux, qui ont été rapportés comme une réponse induisant des cellules Th17. En résumé, nos données montrent que la voie de la signalisation Notch contrôle la régulation précise de la différenciation des cellules Th17 en limitant leur différenciation mais en promouvant sélectivement le relâchement en cytokines associées aux cellules Th17 par des mécanismes dépendant de Notch qui restent toujours à déterminer. Par conséquent, l'inhibition de la voie de signalisation Notch pourrait être utilisée dans des situations inflammatoires ou d'auto-immunité où la réponse des cellules Th17 est exacerbée.

The Impact of Infection on Chronic Allograft Dysfunction and Allograft Survival After Solid Organ Transplantation.

Infectious diseases after solid organ transplantation (SOT) are a significant cause of morbidity and reduced allograft and patient survival; however, the influence of infection on the development of chronic allograft dysfunction has not been completely delineated. Some viral infections appear to affect allograft function by both inducing direct tissue damage and immunologically related injury, including acute rejection. In particular, this has been observed for cytomegalovirus (CMV) infection in all SOT recipients and for BK virus infection in kidney transplant recipients, for community-acquired respiratory viruses in lung transplant recipients, and for hepatitis C virus in liver transplant recipients. The impact of bacterial and fungal infections is less clear, but bacterial urinary tract infections and respiratory tract colonization by Pseudomonas aeruginosa and Aspergillus spp appear to be correlated with higher rates of chronic allograft dysfunction in kidney and lung transplant recipients, respectively. Evidence supports the beneficial effects of the use of antiviral prophylaxis for CMV in improving allograft function and survival in SOT recipients. Nevertheless, there is still a need for prospective interventional trials assessing the potential effects of preventive and therapeutic strategies against bacterial and fungal infection for reducing or delaying the development of chronic allograft dysfunction.