Your search keyword '"Javier Quilez"' showing total 9 results

1. Global signalling network analysis of luminal T47D breast cancer cells in response to progesterone

Author

Roni H. G. Wright, Viviana Vastolo, Javier Quilez Oliete, José Carbonell-Caballero, and Miguel Beato

Subjects

progesterone, breast cancer, phosphoproteome, signalling, MAPK/ERK signalling, chromatin, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

BackgroundBreast cancer cells enter into the cell cycle following progestin exposure by the activation of signalling cascades involving a plethora of enzymes, transcription factors and co-factors that transmit the external signal from the cell membrane to chromatin, ultimately leading to a change of the gene expression program. Although many of the events within the signalling network have been described in isolation, how they globally team up to generate the final cell response is unclear.MethodsIn this study we used antibody microarrays and phosphoproteomics to reveal a dynamic global signalling map that reveals new key regulated proteins and phosphor-sites and links between previously known and novel pathways. T47D breast cancer cells were used, and phospho-sites and pathways highlighted were validated using specific antibodies and phenotypic assays. Bioinformatic analysis revealed an enrichment in novel signalling pathways, a coordinated response between cellular compartments and protein complexes.ResultsDetailed analysis of the data revealed intriguing changes in protein complexes involved in nuclear structure, epithelial to mesenchyme transition (EMT), cell adhesion, as well as transcription factors previously not associated with breast cancer cell proliferation. Pathway analysis confirmed the key role of the MAPK signalling cascade following progesterone and additional hormone regulated phospho-sites were identified. Full network analysis shows the activation of new signalling pathways previously not associated with progesterone signalling in T47D breast cancer cells such as ERBB and TRK. As different post-translational modifications can mediate complex crosstalk mechanisms and massive PARylation is also rapidly induced by progestins, we provide details of important chromatin regulatory complexes containing both phosphorylated and PARylated proteins.ConclusionsThis study contributes an important resource for the scientific community, as it identifies novel players and connections meaningful for breast cancer cell biology and potentially relevant for cancer management.

Published

2022

2. Chromatin topology defines estradiol-primed progesterone receptor and PAX2 binding in endometrial cancer cells

Author

Alejandro La Greca, Nicolás Bellora, François Le Dily, Rodrigo Jara, Ana Silvina Nacht, Javier Quilez Oliete, José Luis Villanueva, Enrique Vidal, Gabriela Merino, Cristóbal Fresno, Inti Tarifa Reischle, Griselda Vallejo, Guillermo Vicent, Elmer Fernández, Miguel Beato, and Patricia Saragüeta

Subjects

progesterone receptor, PAX2, estrogen receptor, gene regulation, ChIPseq, Medicine, Science, Biology (General), QH301-705.5

Abstract

Estrogen (E2) and Progesterone (Pg), via their specific receptors (ERalpha and PR), are major determinants in the development and progression of endometrial carcinomas, However, their precise mechanism of action and the role of other transcription factors involved are not entirely clear. Using Ishikawa endometrial cancer cells, we report that E2 treatment exposes a set of progestin-dependent PR binding sites which include both E2 and progestin target genes. ChIP-seq results from hormone-treated cells revealed a non-random distribution of PAX2 binding in the vicinity of these estrogen-promoted PR sites. Altered expression of hormone regulated genes in PAX2 knockdown cells suggests a role for PAX2 in fine-tuning ERalpha and PR interplay in transcriptional regulation. Analysis of long-range interactions by Hi-C coupled with ATAC-seq data showed that these regions, that we call ‘progestin control regions’ (PgCRs), exhibited an open chromatin state even before hormone exposure and were non-randomly associated with regulated genes. Nearly 20% of genes potentially influenced by PgCRs were found to be altered during progression of endometrial cancer. Our findings suggest that endometrial response to progestins in differentiated endometrial tumor cells results in part from binding of PR together with PAX2 to accessible chromatin regions. What maintains these regions open remains to be studied.

Published

2022

3. CRAM compression: practical across-technologies considerations for large-scale sequencing projects

Author

Ayesha Al Ali, Palani Kannan Kandavel, Hakeem Al Mabrazi, George Carvalho, Vinay Kusuma, Gurunath Katagi, Santosh Elavalli, Ayman Yousif, Mohammad Riyaz Akhter, Joseph Mafofo, Tiago Magalhaes, and Javier Quilez

Abstract

CRAM is an efficient format to store high-throughput sequencing data and it has been widely adopted. We thus plan to use CRAM for the Emirati Genome Program, which aims to sequence the genomes of ~1 million nationals in the United Arab Emirates using short- and long-read sequencing technologies (Illumina, MGI and Oxford Nanopore Sequencing). We conducted a pilot study on the three technologies before start using CRAM at scale. We found CRAM achieved 40–70% compression depending on the sequencing platform. As expected, CRAM compression was data lossless and did not alter variant calls. In our cloud, we observed compression speeds 0.7–1.4 GB per minute, varying on the sequencing platform too. This translates into ~1–2 hours using a single CPU to compress a ~30X human whole-genome sequencing sample. Despite its wide use, we found little publicly available information about CRAM compression rate, speed, losslessness and parallelization, especially across many sequencing platforms. This work will have direct application for Emirati Genome Program and provide practical considerations for other large-scale sequencing efforts.

Published

2022

4. Global signalling network analysis of luminal T47D breast cancer cells in response to progesterone

Author

Wright, Roni H. G., primary, Vastolo, Viviana, additional, Oliete, Javier Quilez, additional, Carbonell-Caballero, José, additional, and Beato, Miguel, additional

Published

2022

5. Global Analysis of The Signalling Network of Breast Cancer Cells In Response To Progesterone

Author

Roni H. G. Wright, Viviana Vastolo, Javier Quilez Oliete, Jose Carbonell-Caballero, and Miguel Beato

Abstract

Background: Breast cancer cells enter into the cell cycle following progestin exposure by the activation of signalling cascades involving a plethora of enzymes, transcription factors and co-factors that transmit the external signal from the cell membrane to chromatin, ultimately leading to a change of the gene expression program. Although many of the events within the signalling network have been described in isolation, how they globally team up to generate the final cell response is unclear. Methods: In this study we used antibody microarrays and phosphoproteomics to reveal a dynamic global signalling map that reveals new key regulated proteins and phosphor-sites and links between previously known and novel pathways. T47D breast cancer cells were used, and phosphosites and pathways highlighted were validated using specific antibodies and phenotypic assays. Bioinformatic analysis revealed an enrichment in novel signalling pathways, a coordinated response between cellular compartments and protein complexes. Results: Detailed analysis of the data revealed intriguing changes in protein complexes involved in nuclear structure, epithelial to mesenchyme transition (EMT), cell adhesion, as well as transcription factors previously not associated with breast cancer proliferation. Pathway analysis confirmed the key role of MAPK following progesterone and additional hormone regulated phosphosites were identified. Full network analysis shows the activation of new signalling pathways previously not associated with progesterone signalling in breast cancer cells such as ERBB and TRK. As different post-translational modifications can mediate complex crosstalk mechanisms and massive PARylation is also rapidly induced by progestins, we provide details of important chromatin regulatory complexes containing both phosphorylated and PARylated proteins. Conclusions: This study contributes an important resource for the scientific community, as it identifies novel players and connections meaningful for breast cancer cell biology and potentially relevant for cancer management.

Published

2021

6. Global Analysis of The Signalling Network of Breast Cancer Cells In Response To Progesterone.

Author

Wright, Roni H. G., primary, Vastolo, Viviana, additional, Oliete, Javier Quilez, additional, Carbonell-Caballero, Jose, additional, and Beato, Miguel, additional

Published

2021

7. Chromatin topology defines estradiolprimed progesterone receptor and PAX2 binding in endometrial cancer cells.

Author

La Greca, Alejandro, Bellora, Nicolás, Le Dily, François, Jara, Rodrigo, Nacht, Ana Silvina, Oliete, Javier Quilez, Villanueva, José Luis, Vidal, Enrique, Merino, Gabriela, Fresno, Cristóbal, Reischle, Inti Tarifa, Vallejo, Griselda, Vicent, Guillermo, Fernández, Elmer, Beato, Miguel, and Saragüeta, Patricia

Published

2022

8. Zinc Doping Enhances the Electrocatalytic Properties of Cobalt Borides for the Hydrogen Evolution Reaction

Author

Javier Quílez-Bermejo, Sergio García-Dalí, Raj Karthik, Rafael Canevesi, María T. Izquierdo, Mélanie Emo, Alain Celzard, and Vanessa Fierro

Subjects

Zn doping, cobalt borides, HER, water splitting, electrolyzer, General Works

Abstract

Electrochemical water splitting requires new, low-cost cathode electrodes for the hydrogen evolution reaction to enable the worldwide implementation of electrolyzers. Cobalt borides are proposed as one of the most promising materials to overcome the limitations of the commercial electrocatalysts, but the catalytic activity still needs to be improved to be competitive. Here, we report that the introduction of zinc into cobalt boride to produce a ternary cobalt boride is an efficient route to further improve the catalytic activity towards the hydrogen evolution reaction (HER) of cobalt boride. The ternary Co-Zn-B was prepared by an easy chemical reduction method to achieve superior HER electrocatalytic performance with a lower overpotential than the homologous Co-B. The larger surface area, structural order, crystallization degree and, in particular, the different surface chemistry seem to be key factors for this improvement.

Published

2022

9. Progress in the Use of Biosourced Phenolic Molecules for Electrode Manufacturing

Author

Javier Quílez-Bermejo, Sara Pérez-Rodríguez, Alain Celzard, and Vanessa Fierro

Subjects

biosourced, phenolic molecules, electrodes, carbon, energy storage, Technology

Abstract

In the era of renewable technologies and clean processes, carbon science must adapt to this new model of a green society. Carbon materials are often obtained from petroleum precursors through polluting processes that do not meet the requirements of sustainable and green chemistry. Biomass is considered the only renewable source for the production of carbon materials, as the carbon in biomass comes from the consumption of carbon dioxide from the atmosphere, resulting in zero net carbon dioxide emissions. In addition to being a green source of carbon materials, biomass has many advantages such as being a readily available, large and cheap feedstock, as well as the ability to create unique carbon-derived structures with well-developed porosity and heteroatom doping. All these positive aspects position biomass-derived carbon materials as attractive alternatives in multiple applications, from energy storage to electrocatalysis, via adsorption and biosensors, among others. This review focuses on the application of phenolic resins to the production of electrodes for energy storage and the slow but inexorable movement from petroleum-derived phenolic compounds to biosourced molecules (i.e., lignins, tannins, etc.) as precursors for these carbon materials. Important perspectives and challenges for the design of these biosourced electrodes are discussed.

Published

2022