Transcriptional regulation of CD4 gene expression by T cell factor-1/beta-catenin pathway.

By interacting with MHC class II molecules, CD4 facilitates lineage development as well as activation of Th cells. Expression of physiological levels of CD4 requires a proximal CD4 enhancer to stimulate basic CD4 promoter activity. T cell factor (TCF)-1/beta-catenin pathway has previously been shown to regulate thymocyte survival via up-regulating antiapoptotic molecule Bcl-xL. By both loss and gain of function studies, in this study we show additional function of TCF-1/beta-catenin pathway in the regulation of CD4 expression in vivo. Mice deficient in TCF-1 displayed significantly reduced protein and mRNA levels of CD4 in CD4+ CD8+ double-positive (DP) thymocytes. A transgene encoding Bcl-2 restored survival but not CD4 levels of TCF-1(-/-) DP cells. Thus, TCF-1-regulated survival and CD4 expression are two separate events. In contrast, CD4 levels were restored on DP TCF-1(-/-) cells by transgenic expression of a wild-type TCF-1, but not a truncated TCF-1 that lacks a domain required for interacting with beta-catenin. Furthermore, forced expression of a stabilized beta-catenin, a coactivator of TCF-1, resulted in up-regulation of CD4. TCF-1 or stabilized beta-catenin greatly stimulated activity of a CD4 reporter gene driven by a basic CD4 promoter and the CD4 enhancer. However, mutation of a potential TCF binding site located within the enhancer abrogated TCF-1 and beta-catenin-mediated activation of CD4 reporter. Finally, recruitment of TCF-1 to CD4 enhancer was detected in wild-type but not TCF-1 null mice by chromatin-immunoprecipitation analysis. Thus, our results demonstrated that TCF/beta-catenin pathway enhances CD4 expression in vivo by recruiting TCF-1 to stimulate CD4 enhancer activity.

Elf-1 contributes to the function of the complex interleukin (IL)-2-responsive enhancer in the mouse IL-2 receptor alpha gene.

Lymphocytes regulate their responsiveness to IL-2 through the transcriptional control of the IL-2R alpha gene, which encodes a component of the high affinity IL-2 receptor. In the mouse IL-2R alpha gene this control is exerted via two regulatable elements, a promoter proximal region, and an IL-2-responsive enhancer (IL-2rE) 1.3 kb upstream. In vitro and in vivo functional analysis of the IL-2rE in the rodent thymic lymphoma-derived, CD4- CD8- cell line PC60 demonstrated that three separate elements, sites I, II, and III, were necessary for IL-2 responsiveness; these three sites demonstrate functional cooperation. Site III contains a consensus binding motif for members of the Ets family of transcription factors. Here we demonstrate that Elf-1, an Ets-like protein, binds to site III and participates in IL-2 responsiveness. In vitro site III forms a complex with a protein constitutively present in nuclear extracts from PC60 cells as well as from normal CD4- CD8- thymocytes. We have identified this molecule as Elf-1 according to a number of criteria. The complex possesses an identical electrophoretic mobility to that formed by recombinant Elf-1 protein and is super-shifted by anti-Elf-1 antibodies. Biotinylated IL-2rE probes precipitate Elf-1 from PC60 extracts provided site III is intact and both recombinant and PC60-derived proteins bind with the same relative affinities to different mutants of site III. In addition, by introducing mutations into the core of the site III Ets-like motif and comparing the corresponding effects on the in vitro binding of Elf-1 and the in vivo IL-2rE activity, we provide strong evidence that Elf-1 is directly involved in IL-2 responsiveness. The nature of the functional cooperativity observed between Elf-1 and the factors binding sites I and II remains unresolved; experiments presented here however suggest that this effect may not require direct interactions between the proteins binding these three elements.

Identification and analysis of functional elements in 1% of the human genome by the ENCODE pilot project.

We report the generation and analysis of functional data from multiple, diverse experiments performed on a targeted 1% of the human genome as part of the pilot phase of the ENCODE Project. These data have been further integrated and augmented by a number of evolutionary and computational analyses. Together, our results advance the collective knowledge about human genome function in several major areas. First, our studies provide convincing evidence that the genome is pervasively transcribed, such that the majority of its bases can be found in primary transcripts, including non-protein-coding transcripts, and those that extensively overlap one another. Second, systematic examination of transcriptional regulation has yielded new understanding about transcription start sites, including their relationship to specific regulatory sequences and features of chromatin accessibility and histone modification. Third, a more sophisticated view of chromatin structure has emerged, including its inter-relationship with DNA replication and transcriptional regulation. Finally, integration of these new sources of information, in particular with respect to mammalian evolution based on inter- and intra-species sequence comparisons, has yielded new mechanistic and evolutionary insights concerning the functional landscape of the human genome. Together, these studies are defining a path for pursuit of a more comprehensive characterization of human genome function.

Heparan sulfate 6-O-sulfotransferase 1, a gene involved in extracellular sugar modifications, is mutated in patients with idiopathic hypogonadotrophic hypogonadism.

Neuronal development is the result of a multitude of neural migrations, which require extensive cell-cell communication. These processes are modulated by extracellular matrix components, such as heparan sulfate (HS) polysaccharides. HS is molecularly complex as a result of nonrandom modifications of the sugar moieties, including sulfations in specific positions. We report here mutations in HS 6-O-sulfotransferase 1 (HS6ST1) in families with idiopathic hypogonadotropic hypogonadism (IHH). IHH manifests as incomplete or absent puberty and infertility as a result of defects in gonadotropin-releasing hormone neuron development or function. IHH-associated HS6ST1 mutations display reduced activity in vitro and in vivo, suggesting that HS6ST1 and the complex modifications of extracellular sugars are critical for normal development in humans. Genetic experiments in Caenorhabditis elegans reveal that HS cell-specifically regulates neural branching in vivo in concert with other IHH-associated genes, including kal-1, the FGF receptor, and FGF. These findings are consistent with a model in which KAL1 can act as a modulatory coligand with FGF to activate the FGF receptor in an HS-dependent manner.

Cardiac dysfunction and impaired compensatory response to pressure overload in mice deficient in stem cell antigen-1.

Stem cell antigen-1 (Sca-1) has been used to identify cardiac stem cells in the mouse heart. To investigate the function of Sca-1 in aging and during the cardiac adaptation to stress, we used Sca-1-deficient mice. These mice developed dilated cardiomyopathy [end-diastolic left ventricular diameter at 18 wk of age: wild-type (WT) mice, 4.2 mm ± 0.3; Sca-1-knockout (Sca-1-KO) mice, 4.6 mm ± 0.1; ejection fraction: WT mice, 51.1 ± 2.7%; Sca-1-KO mice, 42.9 ± 2.7%]. Furthermore, the hearts of mice lacking Sca-1 demonstrated exacerbated susceptibility to pressure overload [ejection fraction after transaortic constriction (TAC): WT mice, 43.5 ± 3.2%; Sca-1-KO mice, 30.8% ± 4.0] and increased apoptosis, as shown by the 2.5-fold increase in TUNEL(+) cells in Sca-1-deficient hearts under stress. Sca-1 deficiency affected primarily the nonmyocyte cell fraction. Indeed, the number of Nkx2.5(+) nonmyocyte cells, which represent a population of cardiac precursor cells (CPCs), was 2-fold smaller in Sca-1 deficient neonatal hearts. In vitro, the ability of CPCs to differentiate into cardiomyocytes was not affected by Sca-1 deletion. In contrast, these cells demonstrated unrestricted differentiation into cardiomyocytes. Interestingly, proliferation of cardiac nonmyocyte cells in response to stress, as judged by BrdU incorporation, was higher in mice lacking Sca-1 (percentages of BrdU(+) cells in the heart after TAC: WT mice, 4.4 ± 2.1%; Sca-1-KO mice, 19.3 ± 4.2%). These data demonstrate the crucial role of Sca-1 in the maintenance of cardiac integrity and suggest that Sca-1 restrains spontaneous differentiation in the precursor population. The absence of Sca-1 results in uncontrolled precursor recruitment, exhaustion of the precursor pool, and cardiac dysfunction.

E2F1 mediates DNA damage and apoptosis through HCF-1 and the MLL family of histone methyltransferases.

E2F1 is a key positive regulator of human cell proliferation and its activity is altered in essentially all human cancers. Deregulation of E2F1 leads to oncogenic DNA damage and anti-oncogenic apoptosis. The molecular mechanisms by which E2F1 mediates these two processes are poorly understood but are important for understanding cancer progression. During the G1-to-S phase transition, E2F1 associates through a short DHQY sequence with the cell-cycle regulator HCF-1 together with the mixed-lineage leukaemia (MLL) family of histone H3 lysine 4 (H3K4) methyltransferases. We show here that the DHQY HCF-1-binding sequence permits E2F1 to stimulate both DNA damage and apoptosis, and that HCF-1 and the MLL family of H3K4 methyltransferases have important functions in these processes. Thus, HCF-1 has a broader role in E2F1 function than appreciated earlier. Indeed, sequence changes in the E2F1 HCF-1-binding site can modulate both up and down the ability of E2F1 to induce apoptosis indicating that HCF-1 association with E2F1 is a regulator of E2F1-induced apoptosis.

Extracellular matrix and platelet function in patients with musculocontractural Ehlers-Danlos syndrome caused by mutations in the CHST14 gene.

We report on a consanguineous, Afghani family with two sisters affected with characteristic facial features, multiple contractures, progressive joint and skin laxity, hemorrhagic diathesis following minor trauma and multisystem fragility-related manifestations suggestive of a diagnosis of musculocontractural Ehlers-Danlos syndrome (EDS). This novel form of connective tissue disorder was recently reported in patients of Japanese, Turkish, and Indian descent who were formerly classified as having EDS type VIB and has now been recognized to be a part of spectrum including patients previously classified as having adducted thumb-clubfoot syndrome. We identified a previously unreported mutation in the CHST14 gene, which codes for the enzyme dermatan 4-O-sulfotransferase. We discuss the prenatal presentation, detailed clinical manifestations, and neurological findings in two sisters with this newly described musculocontractural EDS-CHST14 type. We demonstrate that fibroblasts from one of our patients produce more chondroitin sulfate than normal and show lower than normal deposition of collagens I and II and fibrillin 1-containing microfibrills. These findings suggest that the imbalance in the glycosaminoglycan content in developing tissues might interfere with normal deposition of other extracellular matrix components and ultimately contribute to the development of the phenotype observed in these patients. Furthermore, we ruled out the contribution of intrinsic platelet factors to the bleeding diathesis observed in some affected individuals. © 2012 Wiley Periodicals, Inc.

Positive and negative roles of the trans-acting T cell factor-1 for the acquisition of distinct Ly-49 MHC class I receptors by NK cells.

Members of the Ly-49 gene family code for class I MHC-specific receptors that regulate NK cell function. Due to a combinatorial distribution of Ly-49 receptors, NK cells display considerable clonal heterogeneity. The acquisition of one Ly-49 receptor, Ly-49A is strictly dependent on the transcriptional trans-acting factor T cell-specific factor-1 (TCF-1). Indeed, TCF-1 binds to two sites in the Ly-49a promoter and regulates its activity, suggesting that the Ly-49a gene is a direct TCF-1 target. TCF-1 deficiency resulted in the altered usage of additional Ly-49 receptors. We show in this study, using TCF-1 beta(2)-microglobulin double-deficient mice, that these repertoire alterations are not due to Ly-49/MHC class I interactions. Our findings rather suggest a TCF-1-dependent, cell autonomous effect on the acquisition of multiple Ly-49 receptors. Besides reduced receptor usage (Ly-49A and D), we also observed no effect (Ly-49C) and significantly expanded (Ly-49G and I) receptor usage in the absence of TCF-1. These effects did not in all cases correlate with the presence of TCF binding sites in the respective proximal promoter. Therefore, besides TCF-1 binding to the proximal promoter, Ly-49 acquisition may also be regulated by TCF-1 binding to more distant cis-acting elements and/or by regulating the expression of additional trans-acting factors. Consistent with the observed differential, positive or negative role of TCF-1 for Ly-49 receptor acquisition, reporter gene assays revealed the presence of an inducing as well as a repressing TCF site in certain proximal Ly-49 promoters. These findings reveal an important role of TCF-1 for the formation of the NK cell receptor repertoire.

The fou2 gain-of-function allele and the wild-type allele of Two Pore Channel 1 contribute to different extents or by different mechanisms to defense gene expression in Arabidopsis.

The fatty acid oxygenation up-regulated 2 (fou2) mutant in Arabidopsis thaliana creates a gain-of-function allele in a non-selective cation channel encoded by the Two Pore Channel 1 (TPC1) gene. This mutant genetically implicates cation fluxes in the control of the positive feedback loop whereby jasmonic acid (JA) stimulates its own synthesis. In this study we observed extensive transcriptome reprogramming in healthy fou2 leaves closely resembling that induced by treatment with methyl jasmonate, biotic stresses and the potassium starvation response. Proteomic analysis of fou2 leaves identified increased levels of seven biotic stress- and JA-inducible proteins. In agreement with these analyses, epistasis studies performed by crossing fou2 with aos indicated that elevated levels of JA in fou2 are the major determinant of the mutant phenotype. In addition, generation of fou2 aba1-5, fou2 etr1-1 and fou2 npr1-1 double mutants showed that the fou2 phenotype was only weakly affected by ABA levels and unaffected by mutations in NPR1 and ETR1. The results now suggest possible mechanisms whereby fou2 could induce JA synthesis/signaling early in the wound response. In contrast to fou2, transcriptome analysis of a loss-of-function allele of TPC1, tpc1-2, revealed no differential expression of JA biosynthesis genes in resting leaves. However, the analysis disclosed reduced mRNA levels of the pathogenesis-related genes PDF1.2a and THI2.1 in healthy and diseased tpc1-2 leaves. The results suggest that wild-type TPC1 contributes to their expression by mechanisms somewhat different from those affecting their expression in fou2.

Extensive remodeling of DC function by rapid maturation-induced transcriptional silencing.

The activation, or maturation, of dendritic cells (DCs) is crucial for the initiation of adaptive T-cell mediated immune responses. Research on the molecular mechanisms implicated in DC maturation has focused primarily on inducible gene-expression events promoting the acquisition of new functions, such as cytokine production and enhanced T-cell-stimulatory capacity. In contrast, mechanisms that modulate DC function by inducing widespread gene-silencing remain poorly understood. Yet the termination of key functions is known to be critical for the function of activated DCs. Genome-wide analysis of activation-induced histone deacetylation, combined with genome-wide quantification of activation-induced silencing of nascent transcription, led us to identify a novel inducible transcriptional-repression pathway that makes major contributions to the DC-maturation process. This silencing response is a rapid primary event distinct from repression mechanisms known to operate at later stages of DC maturation. The repressed genes function in pivotal processes--including antigen-presentation, extracellular signal detection, intracellular signal transduction and lipid-mediator biosynthesis--underscoring the central contribution of the silencing mechanism to rapid reshaping of DC function. Interestingly, promoters of the repressed genes exhibit a surprisingly high frequency of PU.1-occupied sites, suggesting a novel role for this lineage-specific transcription factor in marking genes poised for inducible repression.

A direct approach to the discounted penalty function

This paper provides a new and accessible approach to establishing certain results concerning the discounted penalty function. The direct approach consists of two steps. In the first step, closed-form expressions are obtained in the special case in which the claim amount distribution is a combination of exponential distributions. A rational function is useful in this context. For the second step, one observes that the family of combinations of exponential distributions is dense. Hence, it suffices to reformulate the results of the first step to obtain general results. The surplus process has downward and upward jumps, modeled by two independent compound Poisson processes. If the distribution of the upward jumps is exponential, a series of new results can be obtained with ease. Subsequently, certain results of Gerber and Shiu [H. U. Gerber and E. S. W. Shiu, North American Actuarial Journal 2(1): 48–78 (1998)] can be reproduced. The two-step approach is also applied when an independent Wiener process is added to the surplus process. Certain results are related to Zhang et al. [Z. Zhang, H. Yang, and S. Li, Journal of Computational and Applied Mathematics 233: 1773–1 784 (2010)], which uses different methods.

The Thioredoxin TRX-1 Modulates the Function of the Insulin-Like Neuropeptide DAF-28 during Dauer Formation in Caenorhabditis elegans

Thioredoxins comprise a conserved family of redox regulators involved in many biological processes, including stress resistance and aging. We report that the C. elegans thioredoxin TRX-1 acts in ASJ head sensory neurons as a novel modulator of the insulin-like neuropeptide DAF-28 during dauer formation. We show that increased formation of stress-resistant, long-lived dauer larvae in mutants for the gene encoding the insulin-like neuropeptide DAF-28 requires TRX-1 acting in ASJ neurons, upstream of the insulin-like receptor DAF-2. Genetic rescue experiments demonstrate that redox-independent functions of TRX-1 specifically in ASJ neurons are needed for the dauer formation constitutive (Daf-c) phenotype of daf-28 mutants. GFP reporters of trx-1 and daf-28 show opposing expression patterns in dauers (i.e. trx-1 is up-regulated and daf-28 is down-regulated), an effect that is not observed in growing L2/L3 larvae. In addition, functional TRX-1 is required for the down-regulation of a GFP reporter of daf-28 during dauer formation, a process that is likely subject to DAF-28-mediated feedback regulation. Our findings demonstrate that TRX-1 modulates DAF-28 signaling by contributing to the down-regulation of daf-28 expression during dauer formation. We propose that TRX-1 acts as a fluctuating neuronal signaling modulator within ASJ neurons to monitor the adjustment of neuropeptide expression, including insulin-like proteins, during dauer formation in response to adverse environmental conditions.

Enzymatic activity, ultrastructure and function in ganglia infected with a neurotropic virus.

This chapter attempts to answer the questions, how do the viruses reach the neurons, what are the alterations that they impose on the neuronal machinery, and what are the consequences of these alterations on the function of the infected neurons? The virus used for this research was the pseudorabies. Pseudorabies virus is transported from the eye to the superior cervical ganglion by retrograde axonal flow. In the sympathetic neurons, the virus induces an increased protein synthesis and tyrosine 3-monooxygenase activity, a transsynaptic increased activity of the cholineacetyltransferase and a great rise in the acetylcholine content. The virus also causes an abnormal spontaneous electrophysiological activity, which also seems to be of presynaptic origin, despite the fact that the virus never crossed the synaptic cleft.

Function and regulation of the scaffold protein IB1/JIP-1 in the uro-genital tract.

RESUME Ce mémoire de thèse traite de l'étude de la « scaffold »protéine ou protéine «échafaud», « Islet-Brain1/ JNK Interacting Protein 1 » (IB1/JIP-1) dans la vessie et la prostate, deux organes importants de l'appareil uro-genital. Cette protéine, mise en évidence dans notre laboratoire à la fin des année 90, a été reconnue pour réguler la voie de signalisation des « Mitogen-Activated Protein Kinases » (MAPKs), et en particulier de la MAPK appelée c-Jun N-terminal Kinase (JNK). Le réseau de voie de signalisation permet aux cellules de percevoir les changements dans le milieu extracellulaire et de permettre une réponse appropriée à ces différents stimuli. La connaissance des voies de signalisation a permis de mettre en évidence leur rôle crucial tant dans l'homéostase des tissus sains que dans des processus pathologiques comme l'oncogenèse. Parmi une vingtaine de voie de signalisation, la voie de signalisation des «MAPKinases » est une des plus importantes et a été montrée pour participer à diverses fonctions cellulaires telles que la différentiation, la motilité, la division et la mort cellulaire. La voie de signalisation des « MAPKinases » est typiquement constituée d'un module de trois kinases qui s'activent séquentiellement par phosphorylation. On note la présence d'une MAPK, d'un activateur de MAPK et d'un activateur de l'activateur de MAPK. Une fois la MAPK activée, elle permettra la régulation de différentes cibles dont certain facteur de transcription. Chez les mammifères, il existe 3 grands groupes de MAPKs : the extracellular signal-regulated kinase 1 and 2 (ERK 1/2) cascade, qui régule préférentiellement la croissance et la différentiation cellulaire, ainsi que les cascades JNK et p38 qui régulent préférentiellement la réponse à différents stress cellulaires telle que l'inflammation ou l'apoptose. JNK est activé par différents stress cellulaire telle que les cytokines inflammatoires. JNK est également requis au cours du développement embryonnaire et contribue à la mort (apoptose) ou à la prolifération cellulaire. Plusieurs études ont mis en évidence le rôle de JNK durant le processus tumoral, sans que son rôle soit clairement identifié. JNK pourrait avoir des fonctions différentes durant l'initiation puis de la progression tumorale. Chez les mammifères, les voies de signalisation intracellulaires forment un réseau complexe et elles interagissent entre elles, ce qui permet aux cellules une réponse adéquate aux multitudes de stimuli existants dans les organismes pluricellulaires. Parmi plusieurs mécanismes de régulation, les protéines dites « scaffold » ou «échafaud » jouent un rôle crucial dans l'homéostase de la voie de signalisation des «MAPKinase ». L'introduction revoit brièvement ces différents aspects, de la voie de signalisation des «MAPKinase et des connaissance sur IB1/JIP-1. Les premières études effectuées sur IB1/JIP-1 ont montré une expression relativement spécifique de cette protéine dans certains types de neurones ainsi que dans la cellule beta-sécrétrice d'insuline. IB1/JIP-1 régule la voie de signalisation JNK par interaction avec les différents composants du module, modifiant ainsi le spectre de substrats activés par JNK. La fonction précise de IB1/JIP-1 n'était pas encore élucidée, mais plusieurs travaux mettaient en lumière un rôle dans la régulation, et la sous-location cellulaire des composants de la voie de signalisation JNK, ainsi que dans la survie cellulaire à certain stress. Cette expression relativement spécifique est intrigante car elle suggère que sa présence serait nécessaire à une régulation spécifique de la MAPKinase JNK ou à certaines autres fonctions cellulaires également spécifiques de certains tissus. Le premier but de ce travail a consisté à mettre en évidence l'expression de IB1/JIP-1 dans l'appareil uro-génital et plus particulièrement dans la vessie et la prostate. Nos résultats ont montré que IB1/JIP-1 est spécifiquement exprimé au niveau de l'urothélium vésical, mais pas dans le muscle lisse. Il en est de même au niveau de la prostate où IB1/JIP-1 est exprimé spécifiquement au niveau de l'épithélium sécrétoire et absent au niveau du stroma fibro-musculaire. La vessie et la prostate sont des organes ou l'activité JNK pourrait être crucial tant dans l' homeostase tissulaire que dans le développement de pathologies bénignes ou malignes. La vessie et la prostate sont le siège fréquent de tumeur. La base pour le développement du cancer est complexe et implique plusieurs anomalies génétiques. Ce processus complexe lié au développement tumoral est encore loin d`être complètement élucidé, raison pour laquelle il est crucial de poursuivre l'étude des différents gènes pouvant être impliqué dans ces processus ou pouvant être utilisé comme outil thérapeutique. Dans l'urothelium de la vessie, la fonction de la MAPK JNK n'a été que très peu étudiée. Il existe quelques études, in vitro, suggérant une implication possible de cette voie de signalisation dans des processus telle que le développement ou la progression tumorale. Le chapitre 1 décrit une étude in vivo dans la vessie un modèle de stress mécanique, connu pour activer les MAPKinase. La dilatation vésicale, due à une obstruction urétrale, a mis en évidence une diminution de l'expression de IB1/JIP-1 ainsi qu'une activation de la MAPKinase JNK. Dans ce modèle, la régulation de IB1/JIP-1, par l'intermédiaire d'un vecteur viral, a permis de démontrer que IB1/JIP-1 régulait l'activité de JNK dans ce tissu. Pour poursuivre l'étude de cette fonction d' IB1/JIP-1 dans l'urothélium, nous avons investigué l'activité JNK dans des souris génétiquement modifiées et porteuse d'une délétion de 1 des 2 allèles du gène codant pour IB1/JIP-1, avec un contenu en IB1/JIP-1 diminué de moitié. L'activation de JNK est également augmentée dans l'urothelium au repos de ces souris, ce qui confirme la fonction régulatrice de JNK par IB1/JIP-1. Ces résultats ont permis de mettre en évidence un rôle critique de celle-ci dans l'homéostase de I`urothelium et suggère une nouvelle cible pour réguler la voie de signalisation dans ce tissu. En outre, la modulation des niveaux d'expression d'IB1/JIP-1 dans la vessie, in vivo, par l'intermédiaire de vecteurs viraux s'est révélée réalisable et indique un moyen élégant pour développer une thérapie génique dans cet organe. Un autre élément de ce travail de thèse, révélée au chapitre 2, a été d'étudier la régulation dans la vessie de rat de la communication intercellulaire de type « GAP ». Les cellules adjacentes partagent des ions, messagers secondaires et des petits métabolites par l'intermédiaire de canaux intercellulaire qui forment les jonctions de type « GAP ». Ce type de communications intercellulaire permet une activité cellulaire coordonnée, une caractéristique importante pour l'homéostase des organismes multicellulaire. Ce type de communication intercellulaire est formé de 2 demi-canaux appelés connexons. Chaque connexon est formé de six protéines appelées connexins (Cx). Il existe environ vingt connexines différentes nommées par leur poids moléculaire respectif. Les jonctions de type canaux "GAP" permettent aux cellules de communiquer avec les cellules voisines au quelles elles sont mécaniquement ou électriquement couplées. La vessie peut être particulièrement dépendante de la communication intercellulaire par les canaux « Gap » qui permettrait de coordonner la réponse de la musculature ainsi que de l'urothélium à l'augmentation de la pression transmurale du à l'accumulation d'urine, situation fréquemment observée dans le cadre de l'hyperplasie bénigne de la prostate. Dans la vessie de rat, la connexine26 est exprimée uniquement dans l'urothelium. La Cx26, a été montrée pour être un possible « tumor suppressor gene » dans le cancer de vessie. Une augmentation de la Cx26 ainsi que du couplage des cellules urothéliales a été démontré dans notre modèle de stress mécanique sur la vessie de rat et est dépendante de 2 éléments de réponses connues pour interagir avec AP-1. La régulation de IB1/JIP-1 a permis de montrer que celle-ci régulait l'activité JNK, ainsi que l'activité du facteur de transcription AP-1, composé de c-Jun lui-même cible de JNK. Cette réduction de l'activité de AP-1 est associée à une diminution de l'expression du transcipt de la Cx26. En résumé, la Cx26 pourrait être régulée par le complexe AP-1 lui-même dépendant du contenu en IB1/JIP-1. Dans le chapitre 3, l'étude de IB1/J1P-1 s'est portée sur la prostate. Cet organe, siège fréquent de pathologie telle que le cancer ou l'hyperplasie bénigne de la prostate, exprime IB1/JIP-1 au niveau de son épithélium sécrétoire. Cette expression est maintenue dans une lignée cellulaire humaine largement étudiée est reconnue comme un modèle adéquat de cellules tumorales de type androgène-sensible. IB1/JIP-1 a été investigué dans un modèle in vitro d'apoptose en réponse à un agent appelé N-(4-hydroxyphenyl)retinamide (4-HPR) qui induit une activation de la MAPK JNK ainsi que également un diminution du contenu en IB1/JIP-1. La surexpression de IB1/JIP-1 en utilisant à nouveau des virus comme vecteur a démontré que IB1/JIP-1 était capable de réguler l'activité de JNK ainsi que les taux d'apoptose. Dans le cancer de la prostate, certains travaux ont montré que la différentiation neuroendocrine des cellules tumorales est associée à la progression tumorale et à la perte de sensibilité aux androgènes. Ce travail a permis de dévoiler l'augmentation d'expression de IB1/JIP-1 dans un modèle de neurodifferentiation des cellules d'une lignée prostatique humaine (LNCaP). Les mécanismes qui permettent une expression spécifique de IB1/JIP-1 ont été partiellement investiguée dans notre laboratoire. Son promoteur humain contient un « Neuron Restricive Silencer Element » (NRSE) connu pour se lier a répresseur transcriptionel appelé « RE-1 Silencer Transcription Factor » ou « Neuron Restrictive Silencer Factor » (REST/NRSF). NRSF/REST est capable de réprimer l'expression de gènes neuronaux en dehors du système neuronal. Il prend part à la différentiation terminale des gènes neuronaux. Dans le chapitre 3, on observe que l'activité de REST/NRSF est diminuée dans les cellules LNCaP qui se transdifferencient de manière neuroendocrine, et que REST/NRSF est capable de moduler l'expression de ces gènes cibles dans ce type cellulaire. Ces travaux laissent suggérer que NRSF/REST participe à l'acquisition du phénotype neuroendocrinien et pourrait être une cible pour réguler ce phénomène. En conclusion, ce travail de thèse présente l'expression de IB1/JIP-1 dans 2 organes de l'appareil uro-génital ; la vessie et la prostate. La fonction de IB1/JIP-1 a été étudiée in vivo dans la vessie de rat, ce qui a mis en évidence sa fonction régulatrice de l'activité de la MAPKinase JNK, et de l'activité du facteur de transcription AP-1 ; ainsi que sa possible implication régulatrice de gène cible tel que la Connexin 26 (Cx26). AP-1 et la Cx26 pourraient jouer un rôle dans le processus oncologique, tant dans le control de l'invasion cellulaire ou le control de la croissance cellulaire. Dans la prostate, IB1/JIP-1 régule également l'activité JNK; crucial dans la transmission de certains stimulis pro-apoptotiques. Dans un modèle de transdifférenciation neuroendocrinienne, phénotype possiblement lié au caractère agressif du cancer de la prostate, l'expression de IB1/JIP-1 est augmenté, suggérant soit un rôle possible dans le développement du phénotype neuronal ou une implication dans une fonction anti-apoptotique. Ce travail a donc permis d'élargir nos connaissances sur la régulation et le control de la voie de signalisation des MAPKinases par IB1/JIP-1, qui pourrait avoir encore d'autres fonctions dans ces tissus.

Function of TRADD in tumor necrosis factor receptor 1 signaling and in TRIF-dependent inflammatory responses.

Tumor necrosis factor receptor 1 (TNFR1) and Toll-like receptors (TLRs) regulate immune and inflammatory responses. Here we show that the TNFR1-associated death domain protein (TRADD) is critical in TNFR1, TLR3 and TLR4 signaling. TRADD deficiency abrogated TNF-induced apoptosis, prevented recruitment of the ubiquitin ligase TRAF2 and ubiquitination of the adaptor RIP1 in the TNFR1 signaling complex, and considerably inhibited but did not completely abolish activation of the transcription factor NF-kappaB and mitogen-activated protein kinases 'downstream' of TNFR1. TRIF-dependent cytokine production induced by the synthetic double-stranded RNA poly(I:C) and lipopolysaccharide was lower in TRADD-deficient mice than in wild-type mice. Moreover, TRADD deficiency inhibited poly(I:C)-mediated RIP1 ubiquitination and activation of NF-kappaB and mitogen-activated protein kinase signaling in fibroblasts but not in bone marrow macrophages. Thus, TRADD is an essential component of TNFR1 signaling and has a critical but apparently cell type-specific function in TRIF-dependent TLR responses.