mRNA binding protein staufen 1-dependent regulation of pyramidal cell spine morphology via NMDA receptor-mediated synaptic plasticity

Staufens (Stau) are RNA-binding proteins involved in mRNA transport, localization, decay and translational control. The Staufen 1 (Stau1) isoform was recently identified as necessary for the protein synthesis-dependent late phase long-term potentiation (late-LTP) and for the maintenance of mature dendritic spines and synaptic activity in hippocampal CA1 pyramidal cells, strongly suggesting a role of mRNA regulation by Stau1 in these processes. However, the causal relationship between these impairments in synaptic function (spine shape and basal synaptic activity) and plasticity (late-LTP) remains unclear. Here, we determine that the effects of Stau1 knockdown on spine shape and size are mimicked by blocking NMDA receptors (or elevating extracellular Mg2+) and that Stau1 knockdown in the presence of NMDA receptor blockade (or high Mg2+) has no further effect on spine shape and size. Moreover, the effect of Stau1 knockdown on late-LTP cannot be explained by these effects, since when tested in normal medium, slice cultures that had been treated with high Mg2+ (to impair NMDA receptor function) in combination with a control siRNA still exhibited late-LTP, while siRNA to Stau1 was still effective in blocking late-LTP. Our results indicate that Stau1 involvement in spine morphogenesis is dependent on ongoing NMDA receptor-mediated plasticity, but its effects on late-LTP are independent of these changes. These findings clarify the role of Stau1-dependent mRNA regulation in physiological and morphological changes underlying long-term synaptic plasticity in pyramidal cells

The host protein Staufen1 interacts with the Pr55Gag zinc fingers and regulates HIV-1 assembly via its N-terminus

This is an Open Access article distributed under the terms of the Creative Commons Attribution Licens

Characterizing Geo-located Tweets in Brazilian Megacities

This work presents a framework for collecting, processing and mining geo-located tweets in order to extract meaningful and actionable knowledge in the context of smart cities. We collected and characterized more than 9M tweets from the two biggest cities in Brazil, Rio de Janeiro and S\~ao Paulo. We performed topic modeling using the Latent Dirichlet Allocation model to produce an unsupervised distribution of semantic topics over the stream of geo-located tweets as well as a distribution of words over those topics. We manually labeled and aggregated similar topics obtaining a total of 29 different topics across both cities. Results showed similarities in the majority of topics for both cities, reflecting similar interests and concerns among the population of Rio de Janeiro and S\~ao Paulo. Nevertheless, some specific topics are more predominant in one of the cities

Prospectives

Tiré de: Prospectives, vol. 7, no 4, sept. 1971Titre de l'écran-titre (visionné le 24 janv. 2013

The cyborgification of paralympic sport

Since the turn of the century, the Paralympic movement has gained a high public profile. We will argue that this new high profile is a direct result of the focus of media attention upon new technologies of prosthetic medicine that have helped to create a legion of cyborg bodies that is manifest in the image of the contemporary sporting supercrip. This paper highlights the development of a technocentric ideology that has been embraced within the Paralympic movement. In embracing this ideology, the International Paralympic Committee (IPC) began to celebrate the cyborgification of Paralympic bodies. Ultimately, this paper questions whether the advances in technology are actually empowering all disabled athletes or simply those who have the potential to be cyborgs. Depuis le début du siècle, le mouvement paralympique a acquis un profil grand public. Nous allons faire valoir, qu’il résulte directement de l’attention médiatique portée aux nouvelles technologies de la prothétique qui ont contribué à créer une légion de corps cyborg qui se manifeste à l’image du supermarché sportif contemporain. Cet article souligne le développement d’une idéologie technocentrique qui a été adoptée dans le mouvement paralympique. En adoptant cette idéologie, le Comité international paralympique (IPC) a commencé à célébrer la cyborgification des organes paralympiques. En fin de compte, cet article se demande si les progrès de la technologie habilitent actuellement tous les athlètes handicapés ou simplement ceux qui ont le potentiel d’être cyborgs

Novel Staufen1 ribonucleoproteins prevent formation of stress granules but favour encapsidation of HIV-1 genomic RNA

Human immunodeficiency virus type 1 (HIV-1) Gag selects for and mediates genomic RNA (vRNA) encapsidation into progeny virus particles. The host protein, Staufen1 interacts directly with Gag and is found in ribonucleoprotein (RNP) complexes containing vRNA, which provides evidence that Staufen1 plays a role in vRNA selection and encapsidation. In this work, we show that Staufen1, vRNA and Gag are found in the same RNP complex. These cellular and viral factors also colocalize in cells and constitute novel Staufen1 RNPs (SHRNPs) whose assembly is strictly dependent on HIV-1 expression. SHRNPs are distinct from stress granules and processing bodies, are preferentially formed during oxidative stress and are found to be in equilibrium with translating polysomes. Moreover, SHRNPs are stable, and the association between Staufen1 and vRNA was found to be evident in these and other types of RNPs. We demonstrate that following Staufen1 depletion, apparent supraphysiologic-sized SHRNP foci are formed in the cytoplasm and in which Gag, vRNA and the residual Staufen1 accumulate. The depletion of Staufen1 resulted in reduced Gag levels and deregulated the assembly of newly synthesized virions, which were found to contain several-fold increases in vRNA, Staufen1 and other cellular proteins. This work provides new evidence that Staufen1-containing HIV-1 RNPs preferentially form over other cellular silencing foci and are involved in assembly, localization and encapsidation of vRNA.Fil: Abrahamyan, Levon G.. Davis Jewish General Hospital; CanadáFil: Chatel Chaix, Laurent. Davis Jewish General Hospital; CanadáFil: Ajamian, Lara. Mc Gill University; Canadá. Davis Jewish General Hospital; CanadáFil: Milev, Miroslav P.. Mc Gill University; Canadá. Davis Jewish General Hospital; CanadáFil: Monette, Anne. Mc Gill University; Canadá. Davis Jewish General Hospital; CanadáFil: Clément, Jean François. Davis Jewish General Hospital; CanadáFil: Song, Rujun. Mc Gill University; Canadá. Davis Jewish General Hospital; CanadáFil: Lehmann, Martin. Davis Jewish General Hospital; CanadáFil: DesGroseillers, Luc. University Of Montreal; CanadáFil: Laughrea, Michael. Mc Gill University; Canadá. Davis Jewish General Hospital; CanadáFil: Boccaccio, Graciela Lidia. Fundación Instituto Leloir; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Bioquimicas de Buenos Aires; ArgentinaFil: Mouland, Andrew J.. Mc Gill University; Canadá. Davis Jewish General Hospital; Canad

Interactions of Host Proteins with the Murine Leukemia Virus Integrase

Retroviral infections cause a variety of cancers in animals and a number of diverse diseases in humans such as leukemia and acquired immune deficiency syndrome. Productive and efficient proviral integration is critical for retroviral function and is the key step in establishing a stable and productive infection, as well as the mechanism by which host genes are activated in leukemogenesis. Host factors are widely anticipated to be involved in all stages of the retroviral life cycle, and the identification of integrase interacting factors has the potential to increase our understanding of mechanisms by which the incoming virus might appropriate cellular proteins to target and capture host DNA sequences. Identification of MoMLV integrase interacting host factors may be key to designing efficient and benign retroviral-based gene therapy vectors; key to understanding the basic mechanism of integration; and key in designing efficient integrase inhibitors. In this review, we discuss current progress in the field of MoMLV integrase interacting proteins and possible roles for these proteins in integration