Contribution of Intronic miR-338-3p and Its Hosting Gene AATK to Compensatory β-Cell Mass Expansion.

The elucidation of the mechanisms directing β-cell mass regeneration and maintenance is of interest, because the deficit of β-cell mass contributes to diabetes onset and progression. We previously found that the level of the microRNA (miRNA) miR-338-3p is decreased in pancreatic islets from rodent models displaying insulin resistance and compensatory β-cell mass expansion, including pregnant rats, diet-induced obese mice, and db/db mice. Transfection of rat islet cells with oligonucleotides that specifically block miR-338-3p activity increased the fraction of proliferating β-cells in vitro and promoted survival under proapoptotic conditions without affecting the capacity of β-cells to release insulin in response to glucose. Here, we evaluated the role of miR-338-3p in vivo by injecting mice with an adeno-associated viral vector permitting specific sequestration of this miRNA in β-cells. We found that the adeno-associated viral construct increased the fraction of proliferating β-cells confirming the data obtained in vitro. miR-338-3p is generated from an intron of the gene coding for apoptosis-associated tyrosine kinase (AATK). Similarly to miR-338-3p, we found that AATK is down-regulated in rat and human islets and INS832/13 β-cells in the presence of the cAMP-raising agents exendin-4, estradiol, and a G-protein-coupled Receptor 30 agonist. Moreover, AATK expression is reduced in islets of insulin resistant animal models and selective silencing of AATK in INS832/13 cells by RNA interference promoted β-cell proliferation. The results point to a coordinated reduction of miR-338-3p and AATK under insulin resistance conditions and provide evidence for a cooperative action of the miRNA and its hosting gene in compensatory β-cell mass expansion.

L'exploration temporelle comme modalité du voyage imaginaire dans la bande dessinée franco-belge (1930-1980)

In this paper, I explore the motif of time travel in science fictional French comics until the eighties. Time travel incorporates a fascinating potential for narrative representation, since moving back in time may multiply timelines, according to the well-known paradox of the grandfather. This virtuality has become very popular in novels and in movies, since In his Bootstraps (Heinlein, 1941) and La Jetée (Marker, 1962) until the recent Looper (Johnson, 2012) but it has been rarely represented in French comics before the eighties and the apparition of time paradoxes in series like "Yoko Tsuno" and, mostly, "Valérian agent spatio-temporel". Firstly, many modalities of time travel do not engender time paradoxes, like exploration of prehistoric sanctuaries, imaginary travel, or cryogenic sleep followed by an awakening if a future world with no hope to return in the past. Secondly, time travel has been mostly interpreted as a mere extension of the classic motif of the "extraordinary journey", as exemplified for centuries in fictions by Verne, Mercier, Swift, or Stevenson. Thus, the graphic potential of time travel for the representation of spectacular exotic worlds has predominated in French comic tradition, and this tendency has been encouraged by the dominant mode of publication until the end of the sixties. Indeed, complex scriptwriting involving multiple timelines would not fit the form of a weekly feuilleton addressed to a young audience, because it would be too demanding cognitively speaking. It illustrates also the dominance of graphic concerns over a taste for complex scriptwriting in many comics of this period. Still, the development of time paradoxes in Pierre Christin scriptwriting underlines the potential of the media when it is published in series of albums or in graphic novels. At the same time, Jean-Claude Mézières drawings-featuring spectacular representations of foreign worlds-show that the visual interest of spectacular time travels remains a central issue for this popular graphic medium. Cette étude porte sur le motif du voyage temporel dans la bande dessinée franco-belge de science- fiction jusque dans les années quatre-vingt. Le voyage temporel intègre un potentiel fascinant pour la représentation narrative, étant donné que le retour dans le passé est susceptible d'engendrer des lignes temporelles multiples, selon le paradoxe bien connu du « grand-père ». Cette virtualité est devenue très populaire dans les romans et dans les films, depuis In his Bootstraps (Heinlein, 1941) et La Jetée (Marker, 1962) jusqu'au récent Looper (Johnson, 2012), mais elle a rarement été représentée dans la bande dessinée franco-belge avant les années quatre-vingt et l'apparition de paradoxes temporels dans des séries comme « Yoko Tsuno » et, surtout, « Valérian agent spatio-temporel ». Tout d'abord, de nombreuses modalités du voyage dans le temps n'engendrent aucun paradoxe, par exemple l'exploration de sanctuaires préhistoriques, le voyage illusoire ou le sommeil cryogénique suivi d'un réveil dans le futur, sans espoir de revenir dans le passé. Deuxièmement, le voyage dans le temps a été plus souvent interprété comme une simple extension du motif classique du « voyage extraordinaire », tel qu'on le retrouve, depuis le XVIIIe siècle, les fictions de Verne, Mercier, Swift ou Stevenson. Ainsi, le potentiel graphique du voyage dans le temps pour la représentation de mondes exotiques spectaculaires a prédominé dans la tradition franco-belge et cette tendance a été encouragée par le mode de publication dominant jusqu'à la fin des années soixante. En effet, l'écriture de scénarios complexes impliquant de multiples lignes temporelles ne semble pas adaptée à la forme d'un feuilleton hebdomadaire destiné à un jeune public, parce qu'il aurait été trop exigeant, cognitivement parlant. Cela illustre également la prédominance de préoccupations graphiques sur l'écriture de scénarios complexes dans de nombreuses bandes dessinées de cette période. Pourtant, le développement de paradoxes temporels dans les scénarios de Pierre Christin souligne le potentiel du média quand il est publié en série d'albums ou dans des romans graphiques. Parallèlement, les dessins de Jean-Claude Mézières, qui proposent des représentations spectaculaires de mondes étrangers, montre que l'intérêt visuel du voyage dans le temps demeure une question centrale pour ce média populaire.

Mir-21-Sox2 Axis Delineates Glioblastoma Subtypes with Prognostic Impact.

UNLABELLED: Glioblastoma (GBM) is the most aggressive human brain tumor. Although several molecular subtypes of GBM are recognized, a robust molecular prognostic marker has yet to be identified. Here, we report that the stemness regulator Sox2 is a new, clinically important target of microRNA-21 (miR-21) in GBM, with implications for prognosis. Using the MiR-21-Sox2 regulatory axis, approximately half of all GBM tumors present in the Cancer Genome Atlas (TCGA) and in-house patient databases can be mathematically classified into high miR-21/low Sox2 (Class A) or low miR-21/high Sox2 (Class B) subtypes. This classification reflects phenotypically and molecularly distinct characteristics and is not captured by existing classifications. Supporting the distinct nature of the subtypes, gene set enrichment analysis of the TCGA dataset predicted that Class A and Class B tumors were significantly involved in immune/inflammatory response and in chromosome organization and nervous system development, respectively. Patients with Class B tumors had longer overall survival than those with Class A tumors. Analysis of both databases indicated that the Class A/Class B classification is a better predictor of patient survival than currently used parameters. Further, manipulation of MiR-21-Sox2 levels in orthotopic mouse models supported the longer survival of the Class B subtype. The MiR-21-Sox2 association was also found in mouse neural stem cells and in the mouse brain at different developmental stages, suggesting a role in normal development. Therefore, this mechanism-based classification suggests the presence of two distinct populations of GBM patients with distinguishable phenotypic characteristics and clinical outcomes. SIGNIFICANCE STATEMENT: Molecular profiling-based classification of glioblastoma (GBM) into four subtypes has substantially increased our understanding of the biology of the disease and has pointed to the heterogeneous nature of GBM. However, this classification is not mechanism based and its prognostic value is limited. Here, we identify a new mechanism in GBM (the miR-21-Sox2 axis) that can classify ∼50% of patients into two subtypes with distinct molecular, radiological, and pathological characteristics. Importantly, this classification can predict patient survival better than the currently used parameters. Further, analysis of the miR-21-Sox2 relationship in mouse neural stem cells and in the mouse brain at different developmental stages indicates that miR-21 and Sox2 are predominantly expressed in mutually exclusive patterns, suggesting a role in normal neural development.