Probing the environment of emerin by Enhanced ascorbate peroxidase 2 (APEX2)-mediated proximity labeling.

Emerin is one of the best characterized proteins of the inner nuclear membrane, but can also occur at the level of the endoplasmic reticulum. We now use enhanced ascorbate peroxidase 2 (APEX2) to probe the environment of emerin. APEX2 can be used as a genetic tag that produces short-lived yet highly reactive biotin species, allowing the modification of proteins that interact with or are in very close proximity to the tagged protein. Biotinylated proteins can be isolated using immobilized streptavidin and analyzed by mass spectrometry. As an alternative to the standard approach with a genetic fusion of APEX2 to emerin, we also used RAPIDS (rapamycin- and APEX-dependent identification of proteins by SILAC), a method with improved specificity, where the peroxidase interacts with the protein of interest (i.e., emerin) only upon addition of rapamycin to the cells. We compare these different approaches, which, together, identify well-known interaction partners of emerin like lamin A and the lamina associated polypeptide 1 (LAP1), as well as novel proximity partners

Sequestosome 1 is part of the interaction network of VAPB

VAPB (Vesicle-Associated-membrane Protein-associated protein B) is a tail-anchored membrane protein of the endoplasmic reticulum that can also be detected at the inner nuclear membrane. As a component of many contact sites between the endoplasmic reticulum and other organelles, VAPB is engaged in multiple protein interactions with a plethora of binding partners. A mutant version of VAPB, P56S-VAPB, which results from a single point mutation, is involved in a familial form of amyotrophic lateral sclerosis (ALS8). We performed RAPIDS (rapamycin- and APEX-dependent identification of proteins by SILAC) to identify proteins that interact with or are in close proximity to P56S-VAPB. The mutation abrogates the interaction of VAPB with many known binding partners. Here, we identify Sequestosome 1 (SQSTM1), a well-known autophagic adapter protein, as a major interaction/proximity partner of P56S-VAPB. Remarkably, not only the mutant protein, but also wild-type VAPB interacts with SQSTM1, as shown by proximity ligation assays and co-immunoprecipiation experiments

Productions of Spanish Golden Age Drama in Great Britain and Spain

Spanish Golden Age Drama is mostly studied in language departments where it is treated as literature to be read. Few scholars have studied Spanish Golden Age drama in contemporary performance. The purpose of this study is to examine and compare contemporary productions of works by Spanish Golden Age dramatists in Spain and England. In 1986 the Compañía Nacional de Teatro Clásico (CNTC) was formed in Madrid with the express purpose of staging plays of the Spanish Golden Age. In the first half of the dissertation, I examine three recent productions directed by the CNTC\u27s current head, Eduardo Vasco: La estrella de Sevilla (The Star of Seville, Lope de Vega?), El pintor de su deshonra (The Painter of His Own Dishonor, Calderon de la Barca), and El Alcalde de Zalamea (The Mayor of Zalamea, Calderon). In 2004, led by renowned director Laurence Boswell, the Royal Shakespeare Company (RSC) staged a Spanish Golden Age season in English; in the second half of the dissertation, I examine the RSC productions of El perro del hortelano (The Dog in the Manger, Lope), Las casa de desempeños (The House of Desires, Sor Juana Inés de la Cruz) and Pedro de Urdemales (Pedro the Great Pretender, Miguel de Cervantes). My objective is to analyze the dramatic texts in terms of contemporary production challenges, and to compare the production styles of the CNTC and the RSC. Two distinct production approaches emerge. The work of Vasco tends to emphasize a directorial concept that aims to make the plays relevant to contemporary audiences while the work by Boswell and his colleagues, building on the RSC\u27s tradition of training actors to speak verse, focuses more closely on the text and the creation of emotionally compelling characters

The Boss's Dilemma: Mark Twain and the Relation of Technology and Society

Thesis advisor: Susan M. ShellMark Twain's understanding of the relationship between technology and society is complicated, and delivered through many of his individual works, including A Connecticut Yankee and The American Claimant. Through a close reading of Connecticut Yankee with additional support from The American Claimant I am to develop a fuller understanding of this relationship and how Twain's thought reflects on modern society.Thesis (MA) — Boston College, 2012.Submitted to: Boston College. Graduate School of Arts and Sciences.Discipline: Political Science

Notch1 signaling is mediated by importins alpha 3, 4, and 7

The Notch signaling pathway is an important regulation system for the development and self-renewal of different tissues. A specific feature of this signaling cascade is the function of Notch as a surface receptor and regulator of gene expression. Hence, Notch activation and signal transduction requires the proteolytic release of the Notch intracellular domain (NICD), which activates the transcription of cell-specific genes after its transport into the nucleus. To date, little is known about the mechanisms that mediate NICD nuclear import. We here show that transport of NICD into the nucleus is mediated by the canonical importin α/β1 pathway. GST pull-down experiments revealed that NICD binds via one of its four potential nuclear localization signals to importins α3, α4, and α7, but not to α1 and α5. siRNA-mediated knockdown experiments showed that importins α3, α4 (and to a lesser extent, α7) mediate nuclear import of NICD and thus are directly involved in Notch signaling

Direct transport across the plasma membrane of mammalian cells of Leishmania HASPB as revealed by a CHO export mutant

Leishmania HASPB is a lipoprotein that is exported to the extracellular space from both Leishmania parasites and mammalian cells via an unconventional secretory pathway. Exported HASPB remains anchored in the outer leaflet of the plasma membrane mediated by myristate and palmitate residues covalently attached to the N-terminal SH4 domain of HASPB. HASPB targeting to the plasma membrane depends on SH4 acylation that occurs at intracellular membranes. How acylated HASPB is targeted to the plasma membrane and, in particular, the subcellular site of HASPB membrane translocation is unknown. In order to address this issue, we screened for clonal CHO mutants that are incapable of exporting HASPB. A detailed characterization of such a CHO mutant cell line revealed that the expression level of the HASPB reporter molecule is unchanged compared to CHO wild-type cells; that it is both myristoylated and palmitoylated; and that it is mainly localized to the plasma membrane as judged by confocal microscopy and subcellular fractionation. However, based on a quantitative flow cytometry assay and a biochemical biotinylation assay of surface proteins, HASPB transport to the outer leaflet of the plasma membrane is largely reduced in this mutant. From these data, we conclude that the subcellular site of HASPB membrane translocation is the plasma membrane as the reporter molecule accumulates in this location when export is blocked. Thus, these results allow us to define a two-step process of HASPB cell surface biogenesis in which SH4 acylation of HASPB firstly mediates intracellular targeting to the plasma membrane. In a second step, the plasma membrane-resident machinery, which is apparently disrupted in the CHO mutant cell line, mediates membrane translocation of HASPB. Intriguingly, the angiogenic growth factor FGF-2, another protein secreted by unconventional means, is shown to be secreted normally from the HASPB export mutant cell line. These observations demonstrate that the export machinery component defective in the export mutant cell line functions specifically in the HASPB export pathway

Nuclear egress of TDP-43 and FUS occurs independently of Exportin-1/CRM1

TDP-43 and FUS are nuclear proteins with multiple functions in mRNA processing. They play key roles in ALS (amyotrophic lateral sclerosis) and FTD (frontotemporal dementia), where they are partially lost from the nucleus and aggregate in the cytoplasm of neurons and glial cells. Defects in nucleocytoplasmic transport contribute to this pathology, hence nuclear import of both proteins has been studied in detail. However, their nuclear export routes remain poorly characterized and it is unclear whether aberrant nuclear export contributes to TDP-43 or FUS pathology. Here we show that predicted nuclear export signals in TDP-43 and FUS are non-functional and that both proteins are exported independently of the export receptor CRM1/Exportin-1. Silencing of Exportin-5 or the mRNA export factor Aly/REF, as well as mutations that abrogate RNA-binding do not impair export of TDP-43 and FUS. However, artificially enlarging TDP-43 or FUS impairs their nuclear egress, suggesting that they could leave the nucleus by passive diffusion. Finally, we found that inhibition of transcription causes accelerated nuclear egress of TDP-43, suggesting that newly synthesized RNA retains TDP-43 in the nucleus, limiting its egress into the cytoplasm. Our findings implicate reduced nuclear retention as a possible factor contributing to mislocalization of TDP-43 in ALS/FTD

A Winged-Helix Transcription Factor Foxg1 Induces Expression of Mss4 Gene in Rat Hippocampal Progenitor Cells

Foxg1 (previously named BF1) is a winged-helix transcription factor with restricted expression pattern in the telencephalic neuroepithelium of the neural tube and in the anterior half of the developing optic vesicle. Previous studies have shown that the targeted disruption of the Foxg1 gene leads to hypoplasia of the cerebral hemispheres with severe defect in the structures of the ventral telencephalon. To further investigate the molecular mechanisms by which Foxg1 plays essential roles during brain development, we have adopted a strategy to isolate genes whose expression changes immediately after introduction of Foxg1 in cultured neural precursor cell line, HiB5. Here, we report that seventeen genes were isolated by ordered differential displays that are up-regulated by over-expression of Foxg1, in cultured neuronal precursor cells. By nucleotide sequence comparison to known genes in the GeneBank database, we find that nine of these clones represent novel genes whose DNA sequences have not been reported. The results suggest that these genes are closely related to developmental regulation of Foxg1