122 resultados para BiP


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Resumen tomado del recurso. Los autores integran el Seminari de Did??ctica del Catal?? ICE-CENC creado en 1983. Este volumen forma parte del Proyecto Plenamar, que incluye las colecciones Mar de sons, Mar de jocs, Mar de fons i Mar de Mots de libros de did??ctica de la lengua y la literatura

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El presente material es una unidad didáctica, que recoge el tema de Funciones, tiene como objetivos, además de los matemáticos, el de capacitar al alumnado para la lectura de esta información, uno de los temas más relacionados con su entorno social.

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El objetivo de esta serie es desarrollar en los niños las habilidades para la lectura y la comprensión de textos, en doce niveles y mediante la narración de una historia distinta en cada uno de los libros que la componen. También, se refuerza el vocabulario relacionado con el contenido de la historia y se acompaña de distintas actividades. En ésta, se cuenta la visita de un extraterrestre a dos niños, y se incluye en el nivel tres.

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El objetivo de esta serie es desarrollar en los niños las habilidades para la lectura y la comprensión de textos, a lo largo de doce niveles y mediante la narración de una historia distinta en cada uno de los libros que la componen. Se refuerza el vocabulario relacionado con el contenido de la historia y se acompaña de distintas actividades. En ésta, se cuenta la relación de amistad de un extraterrestre con dos niños, y se incluye en el nivel tres.

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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

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Verschiedene Krankheiten gehen mit einer fehlerhaften Vaskularisierung einher. Allerdings ist der Erfolg der derzeitig vorhandenen Therapieansätze, die sich z.B. auf VEGF fokussieren, beschränkt. Aus diesem Grund ist es wichtig, neue Strategien zur Regulation der Angiogenese zu entwickeln. Hierbei stehen neue Signaltransduktions-wege im Fokus, die sich als vielversprechend erweisen, um Angiogenese zu fördern oder zu inhibieren. Die Blutgefäßneubildung ist ein hochregulierter Prozess, der mit einer hohen Proteinsyntheserate verknüpft ist. Die Angiogenese wurde bereits mit dem ER-Stress Signaltransduktionsweg, der Unfolded Protein Response (UPR), in Verbindung gebracht (Zeng et al., 2013; Bouvier et al., 2012). Eine im Rahmen der vorliegenden Studie durchgeführte histologische Untersuchung konnte eine Fehlregulierung der Expression von UPR beteiligten Proteinen in vivo unter pathologischen Bedingungen gezeigt werden. Bemerkenswerter Weise war BiP, der Hauptsensor der UPR, in Endothelzellen von Angiosarkomen sehr stark exprimiert. In in vitro Experimenten wurde gezeigt, dass das Herunterregulieren von BiP mittels RNAi Einfluss auf die inflammatorische Antwort und die Bildung angiogener Strukturen in Endothelzellen nimmt. Das Herunterregulieren des Proteins BiP verstärkte die inflammatorische Antwort von HUVEC, was sich in einer gesteigerten Bildung von IL-8 und ICAM-1 äußerte und wurde auf die Aktivierung der UPR durch die verringerte Menge an BiP zurückgeführt. Der Phänotyp BiP-herunterregulierter Zellen entsprach dem untransfizierter Zellen, welcher durch das Cytoskelett und die Expression des endothelspezifischen Markers CD31 charakterisiert wurde. Im Gegensatz dazu änderte sich der Grad der Glykosylierung in transfizierten Zellen. Im Hinblick auf die Blutgefäßbildung, zeigten sich eine gehemmte Migration und eine inhibierte Bildung Gefäß-ähnlicher Strukturen in BiP-herunterregulierten Zellen. In diesen Zellen war die Expression von KDR auffallend stark inhibiert, wohingegen die Flt-1 Expression sich als gleichbleibend herausstellte, was ebenfalls auf die Aktivierung der UPR zurückgeführt werden konnte. Alternativ wäre der reduzierte Level des Proteins BiP im Hinblick auf die Funktion als Helferenzym in der Proteinfaltung eine mögliche Erklärung für die gehemmte Expression von KDR. Die Ergebnisse dieser Studie deuten darauf hin, dass stabile Spiegel von BiP die Regulierung der Angiogenese durch die Kontrolle der UPR in physiologischen Prozessen unterstützen könnte. Eine Fehlregulierung von BiP durch Unterdrückung der UPR, wie z.B. in malignen Tumoren, könnte Tumorzellen und beteiligten Endothelzellen einen Vorteil verschaffen und zu einer gestörten Vaskularisierung führen. Somit stellt das Stresssensorprotein BiP und die UPR einen potentiellen Angriffspunkt für die Regulation der Angiogenese dar.

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The immunoglobulin (Ig) molecule is composed of two identical heavy chains and two identical light chains (H2L2). Transport of this heteromeric complex is dependent on the correct assembly of the component parts, which is controlled, in part, by the association of incompletely assembled Ig heavy chains with the endoplasmic reticulum (ER) chaperone, BiP. Although other heavy chain-constant domains interact transiently with BiP, in the absence of light chain synthesis, BiP binds stably to the first constant domain (CH1) of the heavy chain, causing it to be retained in the ER. Using a simplified two-domain Ig heavy chain (VH-CH1), we have determined why BiP remains bound to free heavy chains and how light chains facilitate their transport. We found that in the absence of light chain expression, the CH1 domain neither folds nor forms its intradomain disulfide bond and therefore remains a substrate for BiP. In vivo, light chains are required to facilitate both the folding of the CH1 domain and the release of BiP. In contrast, the addition of ATP to isolated BiP–heavy chain complexes in vitro causes the release of BiP and allows the CH1 domain to fold in the absence of light chains. Therefore, light chains are not intrinsically essential for CH1 domain folding, but play a critical role in removing BiP from the CH1 domain, thereby allowing it to fold and Ig assembly to proceed. These data suggest that the assembly of multimeric protein complexes in the ER is not strictly dependent on the proper folding of individual subunits; rather, assembly can drive the complete folding of protein subunits.

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Unlike properly folded and assembled proteins, most misfolded and incompletely assembled proteins are retained in the endoplasmic reticulum of mammalian cells and degraded without transport to the Golgi complex. To analyze the mechanisms underlying this unique sorting process and its fidelity, the fate of C-terminally truncated fragments of influenza hemagglutinin was determined. An assortment of different fragments was generated by adding puromycin at low concentrations to influenza virus-infected tissue culture cells. Of the fragments generated, <2% was secreted, indicating that the system for detecting defects in newly synthesized proteins is quite stringent. The majority of secreted species corresponded to folding domains within the viral spike glycoprotein. The retained fragments acquired a partially folded structure with intrachain disulfide bonds and conformation-dependent antigenic epitopes. They associated with two lectin-like endoplasmic reticulum chaperones (calnexin and calreticulin) but not BiP/GRP78. Inhibition of the association with calnexin and calreticulin by the addition of castanospermine significantly increased fragment secretion. However, it also caused association with BiP/GRP78. These results indicated that the association with calnexin and calreticulin was involved in retaining the fragments. They also suggested that BiP/GRP78 could serve as a backup for calnexin and calreticulin in retaining the fragments. In summary, the results showed that the quality control system in the secretory pathway was efficient and sensitive to folding defects, and that it involved multiple interactions with endoplasmic reticulum chaperones.

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Stress protein GRP78/BiP is highly induced in progressively growing tumors and has recently been shown to exert a protective role against lysis by cytotoxic T cells and tumor necrosis factor in vitro. This raises the question whether the in vitro observed protective function of GRP78/BiP translates into the in vivo situation in which tumors grow progressively, killing the host. Herein we report that molecular inhibition of GRP78/BiP induction in the fibrosarcoma B/C10ME, while not affecting in vitro cell proliferation, causes a dramatic increase in apoptotic cell death upon Ca2+ depletion of the endoplasmic reticulum. When B/C10ME cells incapable of inducing GRP78/BiP are injected into mice, tumors are initially formed that, however, regress presumably due to a cytotoxic T-cell response demonstrable by a strong in vitro response to the tumor with spleen cells of regressor mice. Since sensitivity to apoptosis is key to tumor rejection, these results may point to new approaches to the therapy of cancer via regulation of stress protein GRP78/BiP.

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A group of resident ER proteins have been identified that are proposed to function as molecular chaperones. The best characterized of these is BiP/GRP78, an hsp70 homologue that binds peptides containing hydrophobic residues in vitro and unfolded or unassembled proteins in vivo. However, evidence that mammalian BiP plays a direct role in protein folding remains circumstantial. In this study, we examine how BiP interacts with a particular substrate, immunoglobulin light chain (lambda LC), during its folding. Wild-type hamster BiP and several well-characterized BiP ATPase mutants were used in transient expression experiments. We demonstrate that wild-type lambda LCs showed prolonged association with mutant BiP which inhibited their secretion. Both wild-type and mutant BiP bound only to unfolded and partially folded LCs. The wild-type BiP was released from the incompletely folded LCs, allowing them to fold and be secreted, whereas the mutant BiP was not released. As a result, the LCs that were bound to BiP mutants were unable to undergo complete disulfide bond formation and were retained in the ER. Our experiments suggest that LCs undergo both BiP-dependent and BiP-independent folding steps, demonstrating that both ATP binding and hydrolysis activities of BiP are essential for the completion of LC folding in vivo and reveal that BiP must release before disulfide bond formation can occur in that domain.

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Two interacting heat shock cognate proteins in the lumen of the yeast endoplasmic reticulum (ER), Sec63p and BiP (Kar2p), are required for posttranslational translocation of yeast alpha-factor precursor in vitro. To investigate the role of these proteins in cotranslational translocation, we examined the import of invertase into wild-type, sec63, and kar2 mutant yeast membranes. We found that Sec63p and Kar2p are necessary for both co- and posttranslational translocation in yeast. Several kar2 mutants, one of which had normal ATPase activity, were defective in cotranslational translocation of invertase. We conclude that the requirement for BiP/Kar2p, which is not seen in a reaction reconstituted with pure mammalian membrane proteins [Görlich, D. & Rapoport, T.A. (1993) Cell 75, 615-630], is not due to a distinction between cotranslational translocation in mammalian cells and posttranslational translocation in yeast cells.