A Role for cis Interaction between the Inhibitory Ly49A receptor and MHC class I for natural killer cell education.

Natural killer (NK) cells show enhanced functional competence when they express inhibitory receptors specific for inherited major histocompatibility complex class I (MHC-I) molecules. Current models imply that NK cell education requires an interaction of inhibitory receptors with MHC-I expressed on other cells. However, the inhibitory Ly49A receptor can also bind MHC-I ligand on the NK cell itself (in cis). Here we describe a Ly49A variant, which can engage MHC-I expressed on other cells but not in cis. Even though this variant inhibited NK cell effector function, it failed to educate NK cells. The association with MHC-I in cis sequestered wild-type Ly49A, and this was found to relieve NK cells from a suppressive effect of unengaged Ly49A. These data explain how inhibitory MHC-I receptors can facilitate NK cell activation. They dissociate classical inhibitory from educating functions of Ly49A and suggest that cis interaction of Ly49A is necessary for NK cell education.

Impact d'une alcoolisation précoce sur le rat juvénile et conséquences sur la consommation d'alcool à l'âge adulte.

Contexte : l'adolescence est une période de transition au cours de laquelle l'enfant développe les capacités physiques et cognitives qui lui permettent de s'intégrer au monde adulte et qui se caractérise notamment par une prise de risque, une grande impulsivité et une constante recherche de sensations. Bien que des déterminants sociaux et familiaux entrent en jeu dans ce domaine, il y a également une composante neurobiologique importante. Les avancées techniques dans le domaine de l'imagerie ont permis de mettre en évidence plusieurs changements structurels à l'adolescence tels qu'un remodelage de la matière grise avec une perte de synapses plus ou moins importante selon la région observée et une augmentation de la myélinisation. En outre, le développement cérébral n'est pas uniforme dans le temps. En effet, la maturation du cortex préfrontal est ultérieure au développement du système limbique. Cet asynchronisme pourrait expliquer l'impulsivité des adolescents (consécutive à l'immaturité du cortex préfrontal) et leur comportement de recherche de sensation et/ou de prise de risque (consécutif au développement précoce du noyau accumbens notamment). Ces régions font également partie intégrante du système de récompense et modulent la motivation pour des récompenses naturelles et non-­‐naturelles, comme l'alcool et d'autres drogues. L'émergence d'une consommation d'alcool excessive est justement préoccupante chez les adolescents. En 2007, l'étude ESPAD (The European School Survey Project On Alcohol and Other Drugs) menée auprès de jeunes de 15 à 16 ans relève que 41% des jeunes questionnées ont régulièrement bu jusqu'à l'ivresse dans les 12 mois précédant l'entretien. Les conséquences neuropsychologiques à long terme de ce comportement de « binge-­‐drinking » commencent à alarmer le corps médical, mais l'interrogation demeure sur les risques de ce type de comportement vis-­‐à-­‐vis du développement d'un alcoolisme chronique à l'âge adulte. Objectifs du travail : en s'appuyant sur une revue de la littérature, ce travail a pour objectif d'expliquer les comportements qui émergent à l'adolescence à la lumière des modifications neurobiologiques qui s'opèrent durant cette période critique. Au niveau expérimental, nous proposons d'évaluer la propension de rats juvéniles exposés précocement à de l'alcool à développer un comportement d'abus de consommation d'alcool à l'âge adulte en comparaison avec un groupe contrôle. Dans un deuxième temps nous souhaitons déterminer la propension des rats exposés précocement à de l'alcool à montrer une préférence pour l'alcool par rapport à la saccharine, puis par rapport à de l'eau en comparaison au groupe contrôle. Méthode : nous comparons deux groupes de rongeurs adolescents (âgés de 32 jours à 67 jours). Le groupe test (groupe E, n=8), qui est exposé par un accès ad libitum à une solution d'éthanol 10 % contenant de la saccharine 0.2%, ceci afin de limiter l'aspect gustatif aversif de l'éthanol. Et le groupe témoin (groupe S, n=8), qui est exposé par un accès ad libitum à une solution de saccharine 0.2%. Ce conditionnement se fait sur 13 semaines. Une fois atteinte l'âge adulte, les animaux sont ensuite entraînés à appuyer sur un levier afin de recevoir de l'éthanol (0,1 ml d'une solution à 10%). Nous nous proposons d'évaluer la quantité d'alcool ainsi consommée, puis la motivation des animaux pour obtenir de l'éthanol et enfin leur capacité de résistance à un choc électrique non douloureux mais aversif, lorsque celui-­‐ci est associé à l'éthanol. Enfin, nous évaluerons, via un paradigme de choix à deux leviers, la propension des animaux à choisir de consommer volontairement de l'éthanol quand ils ont le choix entre de l'éthanol 10% et une solution de saccharine à différentes concentrations, puis entre de l'éthanol 10% et de l'eau. Résultats : la phase de tests de comportements à risque d'abus ne permet pas de mettre en évidence une différence significative entre les deux groupes. La phase de test de choix montre une diminution significative du pourcentage d'appuis sur le levier associé à la saccharine avec la diminution de la concentration de saccharine pour les deux groupes. Le groupe S a un pourcentage d'appuis sur le levier associé à l'éthanol significativement plus important que les rats du groupe E et a tendance à préférer l'éthanol pour une concentration de saccharine plus grande que le groupe E. Le groupe S montre également une préférence significative pour l'éthanol quand il n'a plus que le choix avec l'eau alors que le groupe E ne montre pas de préférence. Conclusions : chez des rats élevés dans les mêmes conditons, la consommation précoce d'éthanol n'est pas un facteur de risque de comportements d'abus de consommation d'alcool à l'âge adulte. Cependant un phénomène dit de « sensiblisation croisée » entre le goût sucrée et l'éthanol a été soulevé au cours de cette étude permettant de se questionner sur l'impact d'une consommation intermittente de substances au goût sucré à l'adolescence sur la consommation d'alcool à l'âge adulte.

A protein interaction atlas for the nuclear receptors: properties and quality of a hub-based dimerisation network.

BACKGROUND: The nuclear receptors are a large family of eukaryotic transcription factors that constitute major pharmacological targets. They exert their combinatorial control through homotypic heterodimerisation. Elucidation of this dimerisation network is vital in order to understand the complex dynamics and potential cross-talk involved. RESULTS: Phylogeny, protein-protein interactions, protein-DNA interactions and gene expression data have been integrated to provide a comprehensive and up-to-date description of the topology and properties of the nuclear receptor interaction network in humans. We discriminate between DNA-binding and non-DNA-binding dimers, and provide a comprehensive interaction map, that identifies potential cross-talk between the various pathways of nuclear receptors. CONCLUSION: We infer that the topology of this network is hub-based, and much more connected than previously thought. The hub-based topology of the network and the wide tissue expression pattern of NRs create a highly competitive environment for the common heterodimerising partners. Furthermore, a significant number of negative feedback loops is present, with the hub protein SHP [NR0B2] playing a major role. We also compare the evolution, topology and properties of the nuclear receptor network with the hub-based dimerisation network of the bHLH transcription factors in order to identify both unique themes and ubiquitous properties in gene regulation. In terms of methodology, we conclude that such a comprehensive picture can only be assembled by semi-automated text-mining, manual curation and integration of data from various sources.

Phosphorylation modulates FOXC2 transcriptional program by controlling the high-order interaction with DNA.

Phosphorylation of transcription factors is a rapid and reversible process linking cell signaling and control of gene expression, therefore understanding how it controls the transcription factor functions is one of the challenges of functional genomics. We performed such analysis for the forkhead transcription factor FOXC2 mutated in human hereditary disease lymphedemadistichiasis and important for the development of venous and lymphatic valves and lymphatic collecting vessels. We found that FOXC2 is phosphorylated in a cell-cycle dependent manner on eight evolutionary conserved serine/threonine residues, seven of which are clustered within a 70 amino acid domain. Surprisingly, the mutation of phosphorylation sites or a complete deletion of the domain did not affect the transcriptional activity of FOXC2 in a synthetic reporter assay. However, overexpression of the wild type or phosphorylation-deficient mutant resulted in overlapping but distinct gene expression profiles suggesting that binding of FOXC2 to individual sites under physiological conditions is affected by phosphorylation. To gain a direct insight into the role of FOXC2 phosphorylation, we performed comparative genome-wide location analysis (ChIP-chip) of wild type and phosphorylation-deficient FOXC2 in primary lymphatic endothelial cells. The effect of loss of phosphorylation on FOXC2 binding to genomic sites ranged from no effect to nearly complete inhibition of binding, suggesting a mechanism for how FOXC2 transcriptional program can be differentially regulated depending on FOXC2 phosphorylation status. Based on these results, we propose an extension to the enhanceosome model, where a network of genomic context-dependent DNA-protein and protein-protein interactions not only distinguishes a functional site from a nonphysiological site, but also determines whether binding to the functional site can be regulated by phosphorylation. Moreover, our results indicate that FOXC2 may have different roles in quiescent versus proliferating lymphatic endothelial cells in vivo.

Tabagisme, obésité et diabète: une interaction cliniquement importante [Smoking, obesity and diabetes: a clinically important interaction].

Smoking, obesity and diabetes are among the leading cause of premature death worldwide. Smokers have globally a lower body weight compared with non smokers but they tend to accumulate more fat in the abdomen. Most smokers gain weight when they quit smoking, however this does not seem to diminish the health benefits associated with smoking cessation. Smoking increases the risk of developing type 2 diabetes. Among people with diabetes, smoking significantly increases the risks of complications and mortality. Interventions with pharmacologic help should be offered to all smokers, with or without diabetes, in order to increase smoking cessation rates and limit weight gain.

NS4B Self-Interaction through Conserved C-Terminal Elements Is Required for the Establishment of Functional Hepatitis C Virus Replication Complexes.

Hepatitis C virus (HCV) is an important human pathogen, persistently infecting more than 170 million individuals worldwide. Studies of the HCV life cycle have become possible with the development of cell culture systems supporting the replication of viral RNA and the production of infectious virus. However, the exact functions of individual proteins, especially of nonstructural protein 4B (NS4B), remain poorly understood. NS4B triggers the formation of specific, vesicular membrane rearrangements, referred to as membranous webs, which have been reported to represent sites of HCV RNA replication. However, the mechanism of vesicle induction is not known. In this study, a panel of 15 mutants carrying substitutions in the highly conserved NS4B C-terminal domain was generated. Five mutations had only a minor effect on replication, but two of them enhanced assembly and release of infectious virus. Ten mutants were replication defective and used for selection of pseudoreversions. Most of the pseudoreversions also localized to the highly conserved NS4B C-terminal domain and were found to restore replication competence upon insertion into the corresponding primary mutant. Importantly, pseudoreversions restoring replication competence also restored heterotypic NS4B self-interaction, which was disrupted by the primary mutation. Finally, electron microscopy analyses of membrane alterations induced by NS4B mutants revealed striking morphological abnormalities, which were restored to wild-type morphology by the corresponding pseudoreversion. These findings demonstrate the important role of the C-terminal domain in NS4B self-interaction and the formation of functional HCV replication complexes.

Accurate calculations of intermolecular interaction energies using explicitly correlated coupled cluster wave functions and a dispersion-weighted MP2 method.

Explicitly correlated coupled-cluster calculations of intermolecular interaction energies for the S22 benchmark set of Jurecka, Sponer, Cerny, and Hobza (Chem. Phys. Phys. Chem. 2006, 8, 1985) are presented. Results obtained with the recently proposed CCSD(T)-F12a method and augmented double-zeta basis sets are found to be in very close agreement with basis set extrapolated conventional CCSD(T) results. Furthermore, we propose a dispersion-weighted MP2 (DW-MP2) approximation that combines the good accuracy of MP2 for complexes with predominately electrostatic bonding and SCS-MP2 for dispersion-dominated ones. The MP2-F12 and SCS-MP2-F12 correlation energies are weighted by a switching function that depends on the relative HF and correlation contributions to the interaction energy. For the S22 set, this yields a mean absolute deviation of 0.2 kcal/mol from the CCSD(T)-F12a results. The method, which allows obtaining accurate results at low cost, is also tested for a number of dimers that are not in the training set.

Leukocyte-endothelial cell interaction is necessary for photodynamic therapy induced vascular permeabilization.

BACKGROUND AND OBJECTIVE: Photodynamic therapy (PDT) affects vascular barrier function and thus increases vessel permeability. This phenomenon may be exploited to facilitate targeted drug delivery and may lead to a new clinical application of photodynamic therapy. Here, we investigate the role of leukocyte recruitment for PDT-induced vascular permeabilization. STUDY DESIGN/MATERIAL AND METHODS: Fluorescein isothiocyanate dextran (FITC-D, 2,000 kDa) was injected intravenously 120 minutes after focal PDT on striated muscle in nude mice bearing dorsal skinfold chambers (Visudyne® 800 µg/kg, fluence rate 300 mW/cm2 , light dose of 200 J/cm2). Leukocyte interaction with endothelial cells was inhibited by antibodies functionally blocking adhesion molecules ("MABS-PDT" group, n = 5); control animals had PDT but no antibody injection (group "PDT", n = 7). By intravital microscopy, we monitored leukocyte rolling and sticking in real-time before, 90 and 180 minutes after PDT. The extravasation of FITC-D from striated muscle vessels into the interstitial space was determined in vivo during 45 minutes to assess treatment-induced alterations of vascular permeability. RESULTS: PDT significantly increased the recruitment of leukocytes and enhanced the leakage of FITC-D. Neutralization of adhesion molecules before PDT suppressed the rolling of leukocytes along the venular endothelium and significantly reduced the extravasation of FITC-D as compared to control animals (156 ± 27 vs. 11 ± 2 (mean ± SEM, number of WBC/30 seconds mm vessel circumference; P < 0.05) at 90 minutes after PDT and 194 ± 21 vs. 14 ± 4 at 180 minutes after PDT). In contrast, leukocyte sticking was not downregulated by the antibody treatment. CONCLUSION: Leukocyte recruitment plays an essential role in the permeability-enhancing effect of PDT.