19 resultados para Mount Clemens (Mich.)
Resumo:
Summary : The canonical Wnt signaling pathway plays key roles in the maintenance of self-renewing tissues, like the gut or the skin. In contrast, the role of this pathway in hematopoiesis remains poorly defined. Wnt ligands transmit signals through ß-catenin which activates gene transcription upon its association with Lymphoid Cell Enhancer/T Cell Factor (LEF/TCF). Currently, v-catenin is the only alternative factor known to transduce canonical Wnt signals. The ß-/γ-catenin bindiná domain in TCF-1 is required to partly rescue thymopoiesis and NK cell development in TCF-1-deficient mice. However, T cell development and hematopoiesis w-as normal in mice deficient of ß-catenin, or of γ-catenin. Surprisingly we found that hematopoiesis and thymopoiesis was also normal in the combined absence of ß- and γ-catenin. Reporter assays showed that double-deficient lymphocytes were still able to transduce canonical wnt signals. These data provided evidence that hematopoietic cells can transduce canonical Wnt signals in the combined absence of ß- and γ-catenin. There exist numerous TCF-1 isoforrns including those that harbor the N-terminal ß-/y-catenin binding domain or that contains a C-terminal CRARF domain whose role in vivo has not been previously tested. We found that the CRARF domain influences lymphocyte development in conjunction with the N-treminal ß-/γ-catenin binding. The presence of the two domains directs thymocytes to the CD8+ T cell lineage whereas NK cell development is abolished. Roles of the canonical Wnt/TCF-1 pathway for lymphocyte function have not been defined. We demonstrate that TCF-1 deficient CDBT T cells mount a normal primary response to viral infection but these T cells fail to expand upon restimulation. The failure of CD8+ T cells to respond to IL-2 during primary infection seems to account for this phenotype. Thus, TCF-1 is essential for programming functional CD8+ T cell memory. Collectively, these data provide significant new insights into the role of Wnt/TCF-1 pathway for lymphocyte development and function and suggest a novel mechanism of Wnt signal transuction in hematopoietic cells. Résumé : La voie de signalisation canonique Wnt joue un rôle prépondérant dans le renouvellement de tissus, comme l'intestin ou la peau. Son rôle dans l'hématopoïèse est quant à lui mal défini. Le ligand Wnt transmet le signal via la ß-catenin qui active la transcription de gènes cibles quand il est associé avec Lymphoid Cell Enhancer,~T Cell Factor (LEF/TCF). Actuellement, la γ-catenin est le seul autre facteur connu pouvant se substituer à la fonction de la ß-catenin. Un variant de TCF-1 contenant le domaine liant ß-/,~-catenin est capable de restaurer le développement des lymphocytes T et NK en l'absence de TCF-1. Cependant la thymopoïèse et l'hématopoïèse sont normales dans les souris déficientes pour la ß-catenin ou la γ-catenin. De façon surprenante, nous avons trouvé que l'hématopoïèse et le développement des lymphocytes sont normaux lors de l'absence combinée de ß-/γ-catenin. De plus, la transduction des signaux de la voie de signalisation Wnt est maintenue dans des lymphocytes déficients pour ß-/γ-catenin. Ces résultats démontrent que les cellules hématopoïétiques peuvent transmettre les signaux de la voie canonique Wnt lors de l'absence combinée de la ß et la γ -catenin. Il existe de nombreuses isofonnes de TCF-1, y compris certaines qui comprennent un domaine qui lie ß-/γ-catenin du côté N-terminus ou qui contiennent un domaine CRARF du côté C-terminus. Nous montrons ici que le domaine CRARF influence le développement des lymphocytes en conjonction avec le domaine liant ß-/γ-catenin. La présence des deux domaines dirige les thymocytes vers la lignée de cellules T CD8, alors que le développement des cellules NK est aboli. Au-delà de sa fonction sur le développement des lymphocytes, le rôle de la soie de signalisation canonique Wnt/TCF-1 lors d'une infection n'a pas été défini. Nous avons montré que les cellules T CD8, déficientes pour TCF-1, développent une réponse primaire normale à une infection virale, mais qu'elles ne s'accumulent pas après restimulation. L'incapacité des cellules TCD8 à répondre à l'IL-2 durant la réponse primaire peut expliquer ce phénotype. Ainsi; TCF-1 est essentiel pour la programmation de cellules T CD8 mémoires fonctionnelles. L'ensemble de ces résultats fournit de nouveaux aperçus du rôle de la voie de signalisation Wnt/TCF-1 pour le développement et la fonction des lymphocytes et suggèrent un nouveau mécanisme de transduction du signal Wnt dans les cellules hématopoïétiques.
Resumo:
Zusammenfassung: Um die innerpsychischen Begleitprozesse von Tötungsdelikten aus triebpsychologischer Sicht zu verstehen, wendete ich mich an 33 Menschen, die ein Tötungsdelikt begangen oder zu begehen versucht haben. Als Methode diente mir der Szondi-Test, den ich mit den Betreffenden durchführte, die mir ausserdem von sich und ihrem Delikt erzählten. Die reguläre triebdiagnostische Analyse wie auch die Kainsyndromatik nach Szondi ergaben jedoch keine Gruppenbildungen und brachten mich in meinem Verständnis der Tötungen nicht wirklich weiter. So wendete ich mich der pathoanalytischen Betrachtungsweise zu, die mittels der vier grossen Nosographien der klassischen Psychiatrie, Gruppenvergleiche erst möglich machte und mir einen Überblick über verschiedene Grundstrukturen bot. Die Strukturdiagnostik der 33 Szondi-Tests sollte die Basis und demnach meine neue Ausgangslage bilden. Hypothesengenerierend stiess ich dann auf zwei weitere Einflussgrössen, die den Prozess einer Tötung entscheidend mitzuprägen schienen: die verschiedenen Aggressionsstile und die acting-Prozesse. Diese drei Einflussgrössen ergaben in ihrem Zusammenspiel auf der nosographischen, der anthropologischen und der metapsychologischen Ebene vier konstante Grössen mit je spezifischen Eigenschaften, die ich als Tötungsstile bezeichnete. Auf diese Weise entstand ein theoretisch-klinisches Modell zur retrospektiven Erfassung innerpsychischer Prozesse, die eine tötende Handlung aus triebpsychologischer und pathoanalytischer Sicht begleiten.
Resumo:
Résumé de: Metcalf B, et al. Effectiveness of intervention on physical activity of children: systematic review and meta-analysis of controlled trials with objectively measured outcomes (EarlyBird 54). BMJ. 2012 Sep 27;345:e5888. doi: 10.1136/bmj.e5888. PMID: 23044984.
Resumo:
PURPOSE: The aim of this study was to test whether oligonucleotide-targeted gene repair can correct the point mutation in genomic DNA of PDE6b(rd1) (rd1) mouse retinas in vivo. METHODS: Oligonucleotides (ODNs) of 25 nucleotide length and complementary to genomic sequence subsuming the rd1 point mutation in the gene encoding the beta-subunit of rod photoreceptor cGMP-phosphodiesterase (beta-PDE), were synthesized with a wild type nucleotide base at the rd1 point mutation position. Control ODNs contained the same nucleotide bases as the wild type ODNs but with varying degrees of sequence mismatch. We previously developed a repeatable and relatively non-invasive technique to enhance ODN delivery to photoreceptor nuclei using transpalpebral iontophoresis prior to intravitreal ODN injection. Three such treatments were performed on C3H/henJ (rd1) mouse pups before postnatal day (PN) 9. Treatment outcomes were evaluated at PN28 or PN33, when retinal degeneration was nearly complete in the untreated rd1 mice. The effect of treatment on photoreceptor survival was evaluated by counting the number of nuclei of photoreceptor cells and by assessing rhodopsin immunohistochemistry on flat-mount retinas and sections. Gene repair in the retina was quantified by allele-specific real time PCR and by detection of beta-PDE-immunoreactive photoreceptors. Confirmatory experiments were conducted using independent rd1 colonies in separate laboratories. These experiments had an additional negative control ODN that contained the rd1 mutant nucleotide base at the rd1 point mutation site such that the sole difference between treatment with wild type and control ODN was the single base at the rd1 point mutation site. RESULTS: Iontophoresis enhanced the penetration of intravitreally injected ODNs in all retinal layers. Using this delivery technique, significant survival of photoreceptors was observed in retinas from eyes treated with wild type ODNs but not control ODNs as demonstrated by cell counting and rhodopsin immunoreactivity at PN28. Beta-PDE immunoreactivity was present in retinas from eyes treated with wild type ODN but not from those treated with control ODNs. Gene correction demonstrated by allele-specific real time PCR and by counts of beta-PDE-immunoreactive cells was estimated at 0.2%. Independent confirmatory experiments showed that retinas from eyes treated with wild type ODN contained many more rhodopsin immunoreactive cells compared to retinas treated with control (rd1 sequence) ODN, even when harvested at PN33. CONCLUSIONS: Short ODNs can be delivered with repeatable efficiency to mouse photoreceptor cells in vivo using a combination of intravitreal injection and iontophoresis. Delivery of therapeutic ODNs to rd1 mouse eyes resulted in genomic DNA conversion from mutant to wild type sequence, low but observable beta-PDE immunoreactivity, and preservation of rhodopsin immunopositive cells in the outer nuclear layer, suggesting that ODN-directed gene repair occurred and preserved rod photoreceptor cells. Effects were not seen in eyes treated with buffer or with ODNs having the rd1 mutant sequence, a definitive control for this therapeutic approach. Importantly, critical experiments were confirmed in two laboratories by several different researchers using independent mouse colonies and ODN preparations from separate sources. These findings suggest that targeted gene repair can be achieved in the retina following enhanced ODN delivery.
