Your search keyword '"López-Soop G"' showing total 5 results

1. P11-02: Online methods and tools for assessing chemical exposure in humans: a systematic scoping review for the ONTOX project

Author

Kalyva, M.E., primary, Vist, G.E., additional, Diemar, M.G., additional, López Soop, G., additional, Bozada, T.J., additional, Luechtefeld, T., additional, Roggen, E.L., additional, Dirven, H., additional, Vinken, M., additional, and Hus⊘y, T., additional

Published

2023

2. Accessible methods and tools to estimate chemical exposure in humans to support risk assessment: A systematic scoping review.

Author

Kalyva ME, Vist GE, Diemar MG, López-Soop G, Bozada TJ, Luechtefeld T, Roggen EL, Dirven H, Vinken M, and Husøy T

Subjects

Humans, Environmental Monitoring methods, Machine Learning, Pesticides toxicity, Risk Assessment methods, Environmental Exposure statistics & numerical data, Environmental Pollutants

Abstract

Exposure assessment is a crucial component of environmental health research, providing essential information on the potential risks associated with various chemicals. A systematic scoping review was conducted to acquire an overview of accessible human exposure assessment methods and computational tools to support and ultimately improve risk assessment. The systematic scoping review was performed in Sysrev, a web platform that introduces machine learning techniques into the review process aiming for increased accuracy and efficiency. Included publications were restricted to a publication date after the year 2000, where exposure methods were properly described. Exposure assessments methods were found to be used for a broad range of environmental chemicals including pesticides, metals, persistent chemicals, volatile organic compounds, and other chemical classes. Our results show that after the year 2000, for all the types of exposure routes, probabilistic analysis, and computational methods to calculate human exposure have increased. Sixty-three mathematical models and toolboxes were identified that have been developed in Europe, North America, and globally. However, only twelve occur frequently and their usefulness were associated with exposure route, chemical classes and input parameters used to estimate exposure. The outcome of the combined associations can function as a basis and/or guide for decision making for the selection of most appropriate method and tool to be used for environmental chemical human exposure assessments in Ontology-driven and artificial intelligence-based repeated dose toxicity testing of chemicals for next generation risk assessment (ONTOX) project and elsewhere. Finally, the choice of input parameters used in each mathematical model and toolbox shown by our analysis can contribute to the harmonization process of the exposure models and tools increasing the prospect for comparison between studies and consistency in the regulatory process in the future., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

3. AKAP95 interacts with nucleoporin TPR in mitosis and is important for the spindle assembly checkpoint.

Author

López-Soop G, Rønningen T, Rogala A, Richartz N, Blomhoff HK, Thiede B, Collas P, and Küntziger T

Subjects

Chromosome Segregation genetics, HeLa Cells, Humans, Mitosis genetics, Nuclear Pore genetics, Nuclear Pore metabolism, Nuclear Pore Complex Proteins metabolism, Protein Binding, Spindle Apparatus genetics, Spindle Apparatus metabolism, A Kinase Anchor Proteins genetics, M Phase Cell Cycle Checkpoints genetics, Nuclear Pore Complex Proteins genetics, Proteomics, Proto-Oncogene Proteins genetics

Abstract

Faithful chromosome segregation during mitosis relies on a proofreading mechanism that monitors proper kinetochore-microtubule attachments. The spindle assembly checkpoint (SAC) is based on the concerted action of numerous components that maintain a repressive signal inhibiting transition into anaphase until all chromosomes are attached. Here we show that A-Kinase Anchoring Protein 95 (AKAP95) is necessary for proper SAC function. AKAP95-depleted HeLa cells show micronuclei formed from lagging chromosomes at mitosis. Using a BioID proximity-based proteomic screen, we identify the nuclear pore complex protein TPR as a novel AKAP95 binding partner. We show interaction between AKAP95 and TPR in mitosis, and an AKAP95-dependent enrichment of TPR in the spindle microtubule area in metaphase, then later in the spindle midzone area. AKAP95-depleted cells display faster prometaphase to anaphase transition, escape from nocodazole-induced mitotic arrest and show a partial delocalization from kinetochores of the SAC component MAD1. Our results demonstrate an involvement of AKAP95 in proper SAC function likely through its interaction with TPR.

Published

2017

4. Early down-regulation of PKCδ as a pro-survival mechanism in Huntington's disease.

Author

Rué L, Alcalá-Vida R, López-Soop G, Creus-Muncunill J, Alberch J, and Pérez-Navarro E

Subjects

Animals, Apoptosis, Cell Nucleus enzymology, Cerebral Cortex enzymology, Corpus Striatum enzymology, Cytoplasm enzymology, Disease Models, Animal, Disease Progression, Down-Regulation, Female, Gene Expression Profiling, Hippocampus enzymology, Humans, Huntingtin Protein, Huntington Disease pathology, Lamin Type B metabolism, Male, Mice, Mice, Transgenic, Nerve Tissue Proteins biosynthesis, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neurons enzymology, Nuclear Proteins metabolism, Phosphorylation, Protein Kinase C beta analysis, Protein Kinase C-alpha analysis, Protein Kinase C-delta biosynthesis, Protein Kinase C-delta genetics, Protein Processing, Post-Translational, Putamen enzymology, RNA, Small Interfering pharmacology, Recombinant Fusion Proteins metabolism, Ubiquitination, Huntington Disease enzymology, Nerve Tissue Proteins physiology, Protein Kinase C-delta physiology

Abstract

A balance between cell survival and apoptosis is crucial to avoid neurodegeneration. Here, we analyzed whether the pro-apoptotic protein PKCδ, and the pro-survival PKCα and βII, were dysregulated in the brain of R6/1 mouse model of Huntington's disease (HD). Protein levels of the three PKCs examined were reduced in all the brain regions analyzed being PKCδ the most affected isoform. Interestingly, PKCδ protein levels were also decreased in the striatum and cortex of R6/2 and Hdh(Q111/Q111) mice, and in the putamen of HD patients. Nuclear PKCδ induces apoptosis, but we detected reduced PKCδ in both cytoplasmic and nuclear enriched fractions from R6/1 mouse striatum, cortex and hippocampus. In addition, we show that phosphorylation and ubiquitination of PKCδ are increased in 30-week-old R6/1 mouse brain. All together these results suggest a pro-survival role of reduced PKCδ levels in response to mutant huntingtin-induced toxicity. In fact, we show that over-expression of PKCδ increases mutant huntingtin-induced cell death in vitro, whereas over-expression of a PKCδ dominant negative form or silencing of endogenous PKCδ partially blocks mutant huntingtin-induced cell death. Finally, we show that the analysis of lamin B protein levels could be a good marker of PKCδ activity, but it is not involved in PKCδ-mediated cell death in mutant huntingtin-expressing cells. In conclusion, our results suggest that neurons increase the degradation of PKCδ as a compensatory pro-survival mechanism in response to mutant huntingtin-induced toxicity that can help to understand why cell death appears late in the disease.

Published

2014

5. Brain region- and age-dependent dysregulation of p62 and NBR1 in a mouse model of Huntington's disease.

Author

Rué L, López-Soop G, Gelpi E, Martínez-Vicente M, Alberch J, and Pérez-Navarro E

Subjects

Age Factors, Animals, Cell Nucleus metabolism, Cytoplasm metabolism, Disease Models, Animal, Disease Progression, Humans, Huntingtin Protein, Inclusion Bodies metabolism, Intracellular Signaling Peptides and Proteins, Karyopherins metabolism, Male, Mice, Mice, Transgenic, Nerve Tissue Proteins metabolism, Neurons metabolism, Nuclear Proteins metabolism, Organ Specificity, Receptors, Cytoplasmic and Nuclear metabolism, Transcription Factor TFIIH, Exportin 1 Protein, Cerebral Cortex metabolism, Corpus Striatum metabolism, Hippocampus metabolism, Huntington Disease metabolism, Proteins metabolism, Transcription Factors metabolism

Abstract

Huntington's disease is characterized by the formation of protein aggregates, which can be degraded by macroautophagy. Here, we studied protein levels and intracellular distribution of p62 and NBR1, two macroautophagy cargo receptors, during disease progression. In R6/1 mice, p62 and NBR1 protein levels were decreased in all brain regions analyzed early in the disease, whereas at late stages they accumulated in the striatum and hippocampus, but not in the cortex. The accumulation of p62, but not NBR1, occurred in neuronal nuclei, where it co-localized with mutant huntingtin inclusions, both in R6/1 and Huntington's disease patients. Moreover, exportin-1 was selectively decreased in old R6/1 mice brain, and could worsen p62 nuclear accumulation. In conclusion, p62 interacts with mutant huntingtin and is retained in the nucleus along the progression of the disease, mostly in striatal and hippocampal neurons. Thus, cytoplasmic NBR1 might be important to maintain basal levels of selective macroautophagy in these neurons., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013