3,266 research outputs found
Statin-induced myopathic changes in primary human muscle cells and reversal by a prostaglandin F2 alpha analogue
Statin-related muscle side effects are a constant healthcare problem since patient compliance is dependent on side effects. Statins reduce plasma cholesterol levels and can prevent secondary cardiovascular diseases. Although statin-induced muscle damage has been studied, preventive or curative therapies are yet to be reported. We exposed primary human muscle cell populations (n = 22) to a lipophilic (simvastatin) and a hydrophilic (rosuvastatin) statin and analyzed their expressome. Data and pathway analyses included GOrilla, Reactome and DAVID. We measured mevalonate intracellularly and analyzed eicosanoid profiles secreted by human muscle cells. Functional assays included proliferation and differentiation quantification. More than 1800 transcripts and 900 proteins were differentially expressed after exposure to statins. Simvastatin had a stronger effect on the expressome than rosuvastatin, but both statins influenced cholesterol biosynthesis, fatty acid metabolism, eicosanoid synthesis, proliferation, and differentiation of human muscle cells. Cultured human muscle cells secreted ω-3 and ω-6 derived eicosanoids and prostaglandins. The ω-6 derived metabolites were found at higher levels secreted from simvastatin-treated primary human muscle cells. Eicosanoids rescued muscle cell differentiation. Our data suggest a new aspect on the role of skeletal muscle in cholesterol metabolism. For clinical practice, the addition of omega-n fatty acids might be suitable to prevent or treat statin-myopathy
Information Retrieval Systems Adapted to the Biomedical Domain
The terminology used in Biomedicine shows lexical peculiarities that have
required the elaboration of terminological resources and information retrieval
systems with specific functionalities. The main characteristics are the high
rates of synonymy and homonymy, due to phenomena such as the proliferation of
polysemic acronyms and their interaction with common language. Information
retrieval systems in the biomedical domain use techniques oriented to the
treatment of these lexical peculiarities. In this paper we review some of the
techniques used in this domain, such as the application of Natural Language
Processing (BioNLP), the incorporation of lexical-semantic resources, and the
application of Named Entity Recognition (BioNER). Finally, we present the
evaluation methods adopted to assess the suitability of these techniques for
retrieving biomedical resources.Comment: 6 pages, 4 table
Technical interoperability between semantic and descriptive standards: working with distributed thesauri through the Web
[Resumen]
La presente comunicación describe un caso práctico donde se utiliza la especificación técnica SRU (Search/
Retrieve URL) para acceder a vocabularios controlados remotos codificados en SKOS, concretamente a los
thesauri de Ingeniería publicados por el Ministerio de Fomento del Gobierno de España. SRU, diseñada
por la Library of Congress para facilitar el acceso a bases de datos bibliográficas, es el resultado de la
adaptación del protocolo Z39.50 a la World Wide Web. La comunicación propone un perfil de SRU
que permite a los usuarios encargados de describir recursos interactuar con repositorios SKOS desde
distintas herramientas de edición de metadatos. Los usuarios pueden consultar estos vocabularios y
asignar descriptores a los registros que estén creando, con independencia del sistema de descripción que
estén aplicando (EAD, MODS, MARCXML, etc.). Esta solución técnica también permite a los centros
exponer y compartir sus vocabularios controlados, con lo que se amplía su visibilidad y se potencia su uso
por otros centros y grupos de usuarios. Ampliar las posibilidades de reutilización de estos vocabularios
controlados justifica en gran medida los costes derivados de su conversión al formato SKOS. Por otra
parte, la utilización conjunta de protocolos técnicos abiertos y sistemas de metadatos públicos permite
establecer un contexto en el que los vocabularios controlados y los sistemas de clasificación compartidos
pueden llegar a constituir una capa de acceso unificada a repositorios y bases de datos distribuidos, donde
se describan distintos tipos de materiales (bibliográficos, archivísticos, museísticos, etc.), a pesar de ser
gestionadas por distintos centros e instituciones.[Abstract]
This paper describes a practical experience where the SRU (Search/Retrieve URL) technical specification
has been applied to access controlled vocabularies encoded in SKOS. The project has implemented in
SKOS the thesauri on Engineering published by Ministerio de Fomento del Gobierno de España. The author proposes an SRU/CQL profile to allow users in charge of describing archival materials to interact
with SKOS-based repositories from different archival description software tools. Users can access these
vocabularies and assign descriptors to descriptive records regardless the metadata standard they are
working with: EAD, MODS, MARCXML, etc. This technical solution gives centers the possibility of
exposing and sharing their controlled vocabularies, giving more visibility to their thesauri so other users
can take advantage of them. In addition, the use of open technical protocols, open metadata standards and
common vocabularies and classification systems ensures the possibility of building a unified access layer
to distributed repositories and databases managed by different centers and institutions
A novel 3D human glioblastoma cell culture system for modeling drug and radiation responses
Background. Glioblastoma (GBM) is the most common primary brain tumor, with dismal prognosis. The failure of drug–radiation
combinations with promising preclinical data to translate into effective clinical treatments may relate to the use of simplified
2-dimensional in vitro GBM cultures.
Methods. We developed a customized 3D GBM culture system based on a polystyrene scaffold (Alvetex) that recapitulates key
histological features of GBM and compared it with conventional 2D cultures with respect to their response to radiation and to
molecular targeted agents for which clinical data are available.
Results. In 3 patient-derived GBM lines, no difference in radiation sensitivity was observed between 2D and 3D cultures, as
measured by clonogenic survival. Three different molecular targeted agents, for which robust clinical data are available were
evaluated in 2D and 3D conditions: (i) temozolomide, which improves overall survival and is standard of care for GBM, exhibited
statistically significant effects on clonogenic survival in both patient-derived cell lines when evaluated in the 3D model compared
with only one cell line in 2D cells; (ii) bevacizumab, which has been shown to increase progression-free survival when added to
standard chemoradiation in phase III clinical trials, exhibited marked radiosensitizing activity in our 3D model but had no effect
on 2D cells; and (iii) erlotinib, which had no efficacy in clinical trials, displayed no activity in our 3D GBM model, but radiosensitized
2D cells.
Conclusions. Our 3D model reliably predicted clinical efficacy, strongly supporting its clinical relevance and potential value in
preclinical evaluation of drug–radiation combinations for GBM
A proteomic atlas of senescence-associated secretomes for aging biomarker development.
The senescence-associated secretory phenotype (SASP) has recently emerged as a driver of and promising therapeutic target for multiple age-related conditions, ranging from neurodegeneration to cancer. The complexity of the SASP, typically assessed by a few dozen secreted proteins, has been greatly underestimated, and a small set of factors cannot explain the diverse phenotypes it produces in vivo. Here, we present the "SASP Atlas," a comprehensive proteomic database of soluble proteins and exosomal cargo SASP factors originating from multiple senescence inducers and cell types. Each profile consists of hundreds of largely distinct proteins but also includes a subset of proteins elevated in all SASPs. Our analyses identify several candidate biomarkers of cellular senescence that overlap with aging markers in human plasma, including Growth/differentiation factor 15 (GDF15), stanniocalcin 1 (STC1), and serine protease inhibitors (SERPINs), which significantly correlated with age in plasma from a human cohort, the Baltimore Longitudinal Study of Aging (BLSA). Our findings will facilitate the identification of proteins characteristic of senescence-associated phenotypes and catalog potential senescence biomarkers to assess the burden, originating stimulus, and tissue of origin of senescent cells in vivo
CD5L promotes M2 macrophage polarization through autophagy-mediated upregulation of ID3
CD5L (CD5 molecule-like) is a secreted glycoprotein that controls key mechanisms in inflammatory responses, with involvement in processes such as infection, atherosclerosis, and cancer. In macrophages, CD5L promotes an anti-inflammatory cytokine profile in response to TLR activation. In the present study, we questioned whether CD5L is able to influence human macrophage plasticity, and drive its polarization toward any specific phenotype. We compared CD5L-induced phenotypic and functional changes to those caused by IFN/LPS, IL4, and IL10 in human monocytes. Phenotypic markers were quantified by RT-qPCR and flow cytometry, and a mathematical algorithm was built for their analysis. Moreover, we compared ROS production, phagocytic capacity, and inflammatory responses to LPS. CD5L drove cells toward a polarization similar to that induced by IL10. Furthermore, IL10- and CD5L-treated macrophages showed increased LC3-II content and colocalization with acidic compartments, thereby pointing to the enhancement of autophagy-dependent processes. Accordingly, siRNA targeting ATG7 in THP1 cells blocked CD5L-induced CD163 and Mer tyrosine kinase mRNA and efferocytosis. In these cells, gene expression profiling and validation indicated the upregulation of the transcription factor ID3 by CD5L through ATG7. In agreement, ID3 silencing reversed polarization by CD5L. Our data point to a significant contribution of CD5L-mediated autophagy to the induction of ID3 and provide the first evidence that CD5L drives macrophage polarization.Peer ReviewedPostprint (published version
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LSD1-mediated enhancer silencing attenuates retinoic acid signalling during pancreatic endocrine cell development.
Developmental progression depends on temporally defined changes in gene expression mediated by transient exposure of lineage intermediates to signals in the progenitor niche. To determine whether cell-intrinsic epigenetic mechanisms contribute to signal-induced transcriptional responses, here we manipulate the signalling environment and activity of the histone demethylase LSD1 during differentiation of hESC-gut tube intermediates into pancreatic endocrine cells. We identify a transient requirement for LSD1 in endocrine cell differentiation spanning a short time-window early in pancreas development, a phenotype we reproduced in mice. Examination of enhancer and transcriptome landscapes revealed that LSD1 silences transiently active retinoic acid (RA)-induced enhancers and their target genes. Furthermore, prolonged RA exposure phenocopies LSD1 inhibition, suggesting that LSD1 regulates endocrine cell differentiation by limiting the duration of RA signalling. Our findings identify LSD1-mediated enhancer silencing as a cell-intrinsic epigenetic feedback mechanism by which the duration of the transcriptional response to a developmental signal is limited
The Split in the Western Intellectual Tradition: the Controversy Over Knowing and What Can Be Known
The Western intellectual tradition split over issues concerning the role of reason in revealing the nature of Being and the role of knowledge in contributing to integral being. Throughout human history this had traditionally been the concern of religion. In spite of a shift away from religion and greater confidence in an empirical approach to ultimate questions, the problem remains. Kant attempted to resolve the issue but was unsuccessful. The unresolved controversy subsequently led to the “Continental Divide” (which became a crisis for Western Civilization). This article analyzes the issue and points out why complementarity has been successful in reconciling the controversy
Regulation of Zn and Fe transporters by the GPC1 gene during early wheat monocarpic senescence
BACKGROUND: During wheat senescence, leaf components are degraded in a coordinated manner, releasing amino acids and micronutrients which are subsequently transported to the developing grain. We have previously shown that the simultaneous downregulation of Grain Protein Content (GPC) transcription factors, GPC1 and GPC2, greatly delays senescence and disrupts nutrient remobilization, and therefore provide a valuable entry point to identify genes involved in micronutrient transport to the wheat grain.
RESULTS: We generated loss-of-function mutations for GPC1 and GPC2 in tetraploid wheat and showed in field trials that gpc1 mutants exhibit significant delays in senescence and reductions in grain Zn and Fe content, but that mutations in GPC2 had no significant effect on these traits. An RNA-seq study of these mutants at different time points showed a larger proportion of senescence-regulated genes among the GPC1 (64%) than among the GPC2 (37%) regulated genes. Combined, the two GPC genes regulate a subset (21.2%) of the senescence-regulated genes, 76.1% of which are upregulated at 12 days after anthesis, before the appearance of any visible signs of senescence. Taken together, these results demonstrate that GPC1 is a key regulator of nutrient remobilization which acts predominantly during the early stages of senescence. Genes upregulated at this stage include transporters from the ZIP and YSL gene families, which facilitate Zn and Fe export from the cytoplasm to the phloem, and genes involved in the biosynthesis of chelators that facilitate the phloem-based transport of these nutrients to the grains.
CONCLUSIONS: This study provides an overview of the transport mechanisms activated in the wheat flag leaf during monocarpic senescence. It also identifies promising targets to improve nutrient remobilization to the wheat grain, which can help mitigate Zn and Fe deficiencies that afflict many regions of the developing world.Fil: Pearce, Stephen. University of California; Estados UnidosFil: Tabbita, Facundo. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Instituto Nacional de Tecnología Agropecuaria. Centro de Investigación de Recursos Naturales. Instituto de Recursos Biológicos; ArgentinaFil: Cantu, Dario. University of California; Estados UnidosFil: Buffalo, Vince. University of California; Estados UnidosFil: Avni, Raz. Tel Aviv University; IsraelFil: Vazquez Gross, Hans. University of California; Estados UnidosFil: Zhao, Rongrong. China Agricultural University; ChinaFil: Conley, Christopher J.. University of California; Estados UnidosFil: Distelfeld, Assaf. Faculty Of Life Sciences, Department Of Molecular Biolo;Fil: Dubcovsky, Jorge. University of California; Estados Unidos. Howard Hughes Medical Institute ; Estados Unidos. Gordon & Betty Moore Foundation Investigator; Estados Unido
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