Global methylation state at base-pair resolution of the Caulobacter genome throughout the cell cycle.

The Caulobacter DNA methyltransferase CcrM is one of five master cell-cycle regulators. CcrM is transiently present near the end of DNA replication when it rapidly methylates the adenine in hemimethylated GANTC sequences. The timing of transcription of two master regulator genes and two cell division genes is controlled by the methylation state of GANTC sites in their promoters. To explore the global extent of this regulatory mechanism, we determined the methylation state of the entire chromosome at every base pair at five time points in the cell cycle using single-molecule, real-time sequencing. The methylation state of 4,515 GANTC sites, preferentially positioned in intergenic regions, changed progressively from full to hemimethylation as the replication forks advanced. However, 27 GANTC sites remained unmethylated throughout the cell cycle, suggesting that these protected sites could participate in epigenetic regulatory functions. An analysis of the time of activation of every cell-cycle regulatory transcription start site, coupled to both the position of a GANTC site in their promoter regions and the time in the cell cycle when the GANTC site transitions from full to hemimethylation, allowed the identification of 59 genes as candidates for epigenetic regulation. In addition, we identified two previously unidentified N(6)-methyladenine motifs and showed that they maintained a constant methylation state throughout the cell cycle. The cognate methyltransferase was identified for one of these motifs as well as for one of two 5-methylcytosine motifs.

Innovations dans les traitements des troubles de la personnalité: une lecture integrative

L'interaction thérapeutique avec les patients présentant un trouble de la personnalité a été décrite comme difficile et volatile. Récemment, les thérapies cognitivo-comportementales (TCC) s'approchent de ces difficultés par des traitements manualisés et des modélisations complexes, ce qui tend à laisser dans l'ombre l'acteur principal du changement en psychothérapie : le patient. La présente lecture intégrative discute plusieurs mécanismes de changement actifs chez les patients avec trouble de la personnalité. Premièrement, il est décrit que les problèmes d'interaction, résumés sous le terme des jeux interactionnels, posent des défis spécifiques. Le thérapeute est ainsi amené à favoriser une interaction thérapeutique authentique, en utilisant notamment une forme individualisée d'intervention, la relation thérapeutique centrée sur les motifs. Deuxièmement, il est décrit que les problèmes de conscience et de différenciation émotionnelles entravent la qualité du traitement des troubles de la personnalité. Le thérapeute est ainsi conseillé d'utiliser des techniques empruntées aux thérapies néo-humanistes, notamment la directivité de processus, afin d'approfondir l'affect émergeant en séance. Troisièmement, il a été décrit qu'une identité sociale affirmée fait souvent défaut chez les patients avec trouble de la personnalité. Les thérapeutes avisés peuvent favoriser ce processus avec des interventions ciblées. En conclusion, une focalisation sur les comportements observables du patient - les processus réels en séance -, est productive, et elle permet au thérapeute d'affiner, de préciser et d'approfondir son intervention, au plus près du patient.

Nanocarriers for DNA Vaccines: Co-Delivery of TLR-9 and NLR-2 Ligands Leads to Synergistic Enhancement of Proinflammatory Cytokine Release

Adjuvants enhance immunogenicity of vaccines through either targeted antigen delivery or stimulation of immune receptors. Three cationic nanoparticle formulations were evaluated for their potential as carriers for a DNA vaccine, and muramyl dipeptide (MDP) as immunostimulatory agent, to induce and increase immunogenicity of Mycobacterium tuberculosis antigen encoding plasmid DNA (pDNA). The formulations included (1) trimethyl chitosan (TMC) nanoparticles, (2) a squalene-in-water nanoemulsion, and (3) a mineral oil-in-water nanoemulsion. The adjuvant effect of the pDNA-nanocomplexes was evaluated by serum antibody analysis in immunized mice. All three carriers display a strong adjuvant effect, however, only TMC nanoparticles were capable to bias immune responses towards Th1. pDNA naturally contains immunostimulatory unmethylated CpG motifs that are recognized by Toll-like receptor 9 (TLR-9). In mechanistic in vitro studies, activation of TLR-9 and the ability to enhance immunogenicity by simultaneously targeting TLR-9 and NOD-like receptor 2 (NLR-2) was determined by proinflammatory cytokine release in RAW264.7 macrophages. pDNA in combination with MDP was shown to significantly increase proinflammatory cytokine release in a synergistic manner, dependent on NLR-2 activation. In summary, novel pDNA-Ag85A loaded nanoparticle formulations, which induce antigen specific immune responses in mice were developed, taking advantage of the synergistic combinations of TLR and NLR agonists to increase the adjuvanticity of the carriers used.

The paracaspase MALT1: biological function and potential for therapeutic inhibition.

The paracaspase MALT1 has a central role in the activation of lymphocytes and other immune cells including myeloid cells, mast cells and NK cells. MALT1 activity is required not only for the immune response, but also for the development of natural Treg cells that keep the immune response in check. Exaggerated MALT1 activity has been associated with the development of lymphoid malignancies, and recently developed MALT1 inhibitors show promising anti-tumor effects in xenograft models of diffuse large B cell lymphoma. In this review, we provide an overview of the present understanding of MALT1's function, and discuss possibilities for its therapeutic targeting based on recently developed inhibitors and animal models.