83 research outputs found

    The structure of Erb1-Ytm1 complex reveals the functional importance of a high-affinity binding between two β-propellers during the assembly of large ribosomal subunits in eukaryotes

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    Ribosome biogenesis is one of the most essential pathways in eukaryotes although it is still not fully characterized. Given the importance of this process in proliferating cells, it is obvious that understanding the macromolecular details of the interactions that take place between the assembly factors, ribosomal proteins and nascent pre-rRNAs is essentially required for the development of new non-genotoxic treatments for cancer. Herein, we have studied the association between the WD40-repeat domains of Erb1 and Ytm1 proteins. These are essential factors for the biogenesis of 60S ribosomal subunits in eukaryotes that form a heterotrimeric complex together with the also essential Nop7 protein. We provide the crystal structure of a dimer formed by the C-terminal part of Erb1 and Ytm1 fromChaetomium thermophilum at 2.1 ˚ A resolution. Using a multidisciplinary approach we show that the -propeller domains of these proteins interact in a novel manner that leads to a high-affinity binding. We prove that a point mutation within the interface of the complex impairs the interaction between the two proteins and negatively affects growth and ribosome production in yeast. Our study suggests insights into the association of the Erb1-Ytm1 dimer with pre-ribosomal particle

    BRMS1 51-98 and BRMS1 51-84 are crystal oligomeric coiled- coils with different stoichiometry, which behave as disordered proteins in solution

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    ABSTRACT The Breast cancer metastasis suppressor 1 gene suppresses metastasis without affecting the primary tumour growth. Cellular localisation of BRMS1 appears to be important for exerting its effects on metastasis inhibition. We recently described a nucleo-cytoplasmic shuttling for BRMS1 and identified a nuclear export signal within the N-terminal coiled coil. The structure of these regions shows an antiparallel coiled coil capable of oligomerising, which compromises the accessibility to the nuclear export signal consensus residues. We have studied the structural and biophysical features of this region to further understand the contribution of the N-terminal coiled coil to the biological function of BRMS1. We have observed that residues 85 to 98 might be important in defining the oligomerisation state of the BRMS1 N-terminal coiled coil. In addition, we report the presence of a conformational dynamic equilibrium (oligomeric folded species ↔ oligomeric unfolded) in solution in the BRMS1 N-terminal coiled coil that might facilitate the nuclear export of BRMS1 to the cytoplasm.

    Binding of sulphonated indigo derivatives to RepA-WH1 inhibits DNA-induced protein amyloidogenesis

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    The quest for inducers and inhibitors of protein amyloidogenesis is of utmost interest, since they are key tools to understand the molecular bases of proteinopathies such as Alzheimer, Parkinson, Huntington and Creutzfeldt–Jakob diseases. It is also expected that such molecules could lead to valid therapeutic agents. In common with the mammalian prion protein (PrP), the N-terminal Winged-Helix (WH1) domain of the pPS10 plasmid replication protein (RepA) assembles in vitro into a variety of amyloid nanostructures upon binding to different specific dsDNA sequences. Here we show that di- (S2) and tetra-sulphonated (S4) derivatives of indigo stain dock at the DNA recognition interface in the RepA-WH1 dimer. They compete binding of RepA to its natural target dsDNA repeats, found at the repA operator and at the origin of replication of the plasmid. Calorimetry points to the existence of a major site, with micromolar affinity, for S4-indigo in RepA-WH1 dimers. As revealed by electron microscopy, in the presence of inducer dsDNA, both S2/S4 stains inhibit the assembly of RepA-WH1 into fibres. These results validate the concept that DNA can promote protein assembly into amyloids and reveal that the binding sites of effector molecules can be targeted to inhibit amyloidogenesis

    Distinct ubiquitin binding modes exhibited by SH3 domains: Molecular determinants and functional implications

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    SH3 domains constitute a new type of ubiquitin-binding domains. We previously showed that the third SH3 domain (SH3-C) of CD2AP binds ubiquitin in an alternative orientation. We have determined the structure of the complex between first CD2AP SH3 domain and ubiquitin and performed a structural and mutational analysis to decipher the determinants of the SH3-C binding mode to ubiquitin. We found that the Phe-to-Tyr mutation in CD2AP and in the homologous CIN85 SH3-C domain does not abrogate ubiquitin binding, in contrast to previous hypothesis and our findings for the first two CD2AP SH3 domains. The similar alternative binding mode of the SH3-C domains of these related adaptor proteins is characterised by a higher affinity to C-terminal extended ubiquitin molecules. We conclude that CD2AP/CIN85 SH3-C domain interaction with ubiquitin constitutes a new ubiquitin-binding mode involved in a different cellular function and thus changes the previously established mechanism of EGF-dependent CD2AP/CIN85 mono-ubiquitination. © 2013 Ortega Roldan et al

    Evaluation of Caspase-9b and PP2Acα2 as potential biomarkers for chronic lymphocytic leukemia

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    International audienceBackground: Disruption of alternative splicing in apoptotic factors has been associated to chronic lymphocytic leukemia among other cancers and hematological malignancies. The proapoptotic proteins Caspase-9 and PP2Acα are functionally related in a direct interaction, which constitutes a promising target for cancer therapy. Both proteins present aberrant mRNA splicing variants that are antiapoptotic (Caspase-9b) and catalytically inactive (PP2Acα2), respectively. Results: In this work we have analyzed the relative abundance of the aberrant spliced forms Caspase-9b and PP2Acα2 in several cell lines and chronic lymphocytic leukemia patients and correlated it with several parameters of the disease. Despite 40 % of the patients presented Caspase-9b dysregulation, there was no direct association between alterations in Caspase-9b relative abundance and the parameters analyzed in medical records. More importantly, PP2Acα2 dysregulation was observed in 88 % of CLL patients and was related with advanced stages of the malignancy. Conclusions: Caspase-9b dysregulation seemed to be associated with the disease, although the differences between healthy donors and CLL patients were not statistically significant. However, PP2Acα2 dysregulation was significantly different between healthy donors and CLL patients and correlated with Binet B and C stages; therefore, we propose the use of PP2Acα2 dysregulation as a potential biomarker for advanced stages of chronic lymphocytic leukemia

    Atypical polyproline recognition by the CMS N-terminal Src homology 3 domain

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    The CIN85/CMS (human homologs of mouse SH3KBP1/CD2AP) family of endocytic adaptor proteins has the ability to engage multiple effectors and couple cargo trafficking with the cytoskeleton. CIN85 and CMS (Cas ligand with multiple Src homology 3 (SH3) domains) facilitate the formation of large multiprotein complexes required for an efficient internalization of cell surface receptors. It has recently been shown that c-Cbl/Cbl-b could mediate the formation of a ternary complex between one c-Cbl/Cbl-b molecule and two SH3 domains of CIN85, important for the ability of Cbl to promote epidermal growth factor receptor down-regulation. To further investigate whether multimerization is conserved within the family of adaptor proteins, we have solved the crystal structures of the CMS N-terminal SH3 domain-forming complexes with Cbl-b- and CD2-derived peptides. Together with biochemical evidence, the structures support the notion that, despite clear differences in the interaction surface, both Cbl-b and CD2 can mediate multimerization of N-terminal CMS SH3 domains. Detailed analyses on the interacting surfaces also provide the basis for a differential Cbl-b molecular recognition of CMS and CIN85.This work was supported by Research Grant SAF2003-03860 of the “Ministerio de Ciencia y Tecnología,” Spain. The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked “advertisement” in accordance with 18 U.S.C. Section 1734 solely to indicate this fac

    Impact of economic crisis on profitability management business leisure sports facilities by size, an empirical study

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    Increasing the sport in the Spanish society has fueled the growth of turnover and number management companies sports facilities. Said growth is clearly judged from the economic analysis of financial ratios such as average profitability, and these are to a greater or lesser extent affected by a changing environment of economic crisis, according to the size of the organization. The objective of this research was to analyze the effect on evolution of average economic profitability of Management Organizations Sports Spanish before and after the crisis by size (micro, small, medium and large). For the analysis of this study, the accounting and financial information from the SABI data base of 1,670 companies registered under code 9311 NCEA between 2004-2012, of which a sample of 319 was selected was obtained According the findings, we can say that the economic crisis has affected the profitability of Management organizations Spanish sports differently depending on their size, it is found that midsize organizations are the most efficient in the use of their economic resources or in the profit of its assets, in terms of average values of economic profitability. However, that large, small and micro OGIDE show average values of lower economic returns to those obtained prior to the economic crisis of 2008

    Mip6 binds directly to the Mex67 UBA domain to maintain low levels of Msn2/4 stress dependent mRNAs

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    Abstract del trabajo presentado en 12ª Reunión de la Red Española de Levaduras. El Escorial, Madrid.11-13 de diciembre de 2019Pág. 44 del libro de abstracts que se adjunta. RNA-binding proteins (RBPs) participate in all steps of gene expression, underscoring their potential as regulators of RNA homeostasis. We structurally and functionally characterize Mip6, a four-RNA recognition motif (RRM)-containing RBP, as a functional and physical interactor of the export factor Mex67. Mip6-RRM4 directly interacts with the ubiquitin-associated (UBA) domain of Mex67 through a loop containing tryptophan 442. Mip6 shuttles between the nucleus and the cytoplasm in a Mex67-dependent manner and concentrates in cytoplasmic foci under stress. Photoactivatable ribonucleoside-enhanced crosslinking and immunoprecipitation experiments show preferential binding of Mip6 to mRNAs regulated by the stress-response Msn2/4 transcription factors. Consistent with this binding, MIP6 deletion affects their export and expression levels. Additionally, Mip6 interacts physically and/or functionally with proteins with a role in mRNA metabolism and transcription such as Rrp6, Xrn1, Sgf73, and Rpb1. These results reveal a novel role for Mip6 in the homeostasis of Msn2/4-dependent transcripts through its direct interaction with the Mex67 UBA domain

    CryoEM structures of the SARS-CoV-2 spike bound to antivirals

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    (Póster 63) Background: Single-particle cryoelectron microscopy (cryoEM) has played a key role in the fight against COVID-19. The molecular mechanisms for the action of some of the currently approved drugs targeting the SARS-CoV-2 RNA-dependent RNA polymerase, the fast developments of the current available vaccines and antibody therapies are examples of the impact of the knowledge gained from the cryoEM structures of SARS-CoV-2 proteins in complex with proteins (ACE2 or antibodies/nanobodies) or small compounds. Our aim is to use this technology to understand structurally how certain antiviral compounds and proteins targeting the spike may inhibit viral entry. Methods: 1) Production of wild-type and mutated spike and ACE2 proteins using baculovirus/insect cells. 2) Spike binding kinetics: protein-protein and protein-small compound interactions measured by BLI Biolayer interferometry (BLI) and/or microscale Thermophoresis (MST). 3) Buffer optimization for cryoEM grid preparation of spike variants by thermal shift assays and negative-staining electron microscopy (NSEM). These techniques are also used to adjust the molar ratio of spike:ACE2 and spike:small-compound complexes. 4) Structural characterization by cryoEM. Results: At IBV-CSIC we have created a pipeline for the production and characterization of several spike variants and ACE2 decoys. While this pipeline is described in detail in other oral/poster communications, this communication is centered around one of the pillars within this pipeline; the structural characterization of possible drug candidates bound to the SARS-CoV-2 spike by cryoEM. In this way, we have successfully solved structures of the spike bound to: A) protein inhibitors as ACE2 decoys; B) a small inhibitory compound; C) mixtures of proteins and small-compound (nanobody-heparan derivative) working cooperatively as inhibitors. These protein/drug candidates were previously selected based on the results obtained in our interactomics platform, whereas their concentration and the buffer conditions for cryoEM grids preparation were established based on thermal shift assays and NSEM. Conclusion: CryoEM is a powerful tool to directly visualize the effect caused by a potential drug on a protein target. In a short period of time we have developed this technique in our institute to be applied to the SARS-CoV-2 spike protein, not only to obtain high-resolution structures of SARS- CoV-2 spike variants of concern (see WP4) but also to obtain the structures of complexes of the spike with various inhibitory compounds of very different nature
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