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3. Author Correction: Hsp70 and Hsp40 inhibit an inter-domain interaction necessary for transcriptional activity in the androgen receptor.

Author

Eftekharzadeh, Bahareh, Banduseela, Varuna C, Chiesa, Giulio, Martínez-Cristóbal, Paula, Rauch, Jennifer N, Nath, Samir R, Schwarz, Daniel MC, Shao, Hao, Marin-Argany, Marta, Di Sanza, Claudio, Giorgetti, Elisa, Yu, Zhigang, Pierattelli, Roberta, Felli, Isabella C, Brun-Heath, Isabelle, García, Jesús, Nebreda, Ángel R, Gestwicki, Jason E, Lieberman, Andrew P, and Salvatella, Xavier

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2019

4. Hsp70 and Hsp40 inhibit an inter-domain interaction necessary for transcriptional activity in the androgen receptor.

Author

Eftekharzadeh, Bahareh, Banduseela, Varuna C, Chiesa, Giulio, Martínez-Cristóbal, Paula, Rauch, Jennifer N, Nath, Samir R, Schwarz, Daniel MC, Shao, Hao, Marin-Argany, Marta, Di Sanza, Claudio, Giorgetti, Elisa, Yu, Zhigang, Pierattelli, Roberta, Felli, Isabella C, Brun-Heath, Isabelle, García, Jesús, Nebreda, Ángel R, Gestwicki, Jason E, Lieberman, Andrew P, and Salvatella, Xavier

Subjects
Animals, Mice, Transgenic, Humans, Mice, Receptors, Androgen, Androgens, Ligands, Nuclear Magnetic Resonance, Biomolecular, Solubility, Male, HSP70 Heat-Shock Proteins, HSP40 Heat-Shock Proteins, Protein Multimerization, Gene Knock-In Techniques, HEK293 Cells, Protein Aggregates, Protein Domains, Transgenic, Nuclear Magnetic Resonance, Biomolecular, Receptors, Androgen
Abstract

Molecular chaperones such as Hsp40 and Hsp70 hold the androgen receptor (AR) in an inactive conformation. They are released in the presence of androgens, enabling transactivation and causing the receptor to become aggregation-prone. Here we show that these molecular chaperones recognize a region of the AR N-terminal domain (NTD), including a FQNLF motif, that interacts with the AR ligand-binding domain (LBD) upon activation. This suggests that competition between molecular chaperones and the LBD for the FQNLF motif regulates AR activation. We also show that, while the free NTD oligomerizes, binding to Hsp70 increases its solubility. Stabilizing the NTD-Hsp70 interaction with small molecules reduces AR aggregation and promotes its degradation in cellular and mouse models of the neuromuscular disorder spinal bulbar muscular atrophy. These results help resolve the mechanisms by which molecular chaperones regulate the balance between AR aggregation, activation and quality control.

Published
2019

11. Characterization of p38α autophosphorylation inhibitors that target the non-canonical activation pathway

Author

González, Díaz, Lucía, Pous, Joan, Baginski, Blazej, Duran-Corbera, Anna, Scarpa, Margherita, Brun-Heath, Isabelle, Igea, Ana, Martin-Malpartida, Pau, Ruiz, Lidia, Pallara, Chiara, Esguerra, Mauricio, Colizzi, Francesco, Mayor-Ruiz, Cristina, Biondi, Ricardo M., Soliva, Robert, Macías, María J., Orozco, Modesto, Nebreda, Ángel R., Ministerio de Ciencia, Innovación y Universidades (España), Fundación 'la Caixa', European Research Council, European Commission, Fundación BBVA, Agencia Estatal de Investigación (España), and Institució Catalana de Recerca i Estudis Avancats

Abstract

16 pages, 10 figures, supplementary information https://doi.org/10.1038/s41467-023-39051-x.-- Data availability: The diffraction data and coordinates of the p38α complexes bound to NC-p38i compounds have been deposited in the Protein Data Bank under accession codes 7PVU, 7Z6I and 7Z9T. We have also used the following PDB structures: 4LOO, 1A9U, 3COI, 7N8T, 2ZOQ, 1PME, 3GC9, 1CM8, 4UX9. Source data are provided with this paper, p38α is a versatile protein kinase that can control numerous processes and plays important roles in the cellular responses to stress. Dysregulation of p38α signaling has been linked to several diseases including inflammation, immune disorders and cancer, suggesting that targeting p38α could be therapeutically beneficial. Over the last two decades, numerous p38α inhibitors have been developed, which showed promising effects in pre-clinical studies but results from clinical trials have been disappointing, fueling the interest in the generation of alternative mechanisms of p38α modulation. Here, we report the in silico identification of compounds that we refer to as non-canonical p38α inhibitors (NC-p38i). By combining biochemical and structural analyses, we show that NC-p38i efficiently inhibit p38α autophosphorylation but weakly affect the activity of the canonical pathway. Our results demonstrate how the structural plasticity of p38α can be leveraged to develop therapeutic opportunities targeting a subset of the functions regulated by this pathway, This work was supported by grants from the Spanish Ministerio de Ciencia e Innovación (MICINN, PID2019-109521RB-I00 and PID2021-122478NB-I00), the BioMedTec program of IRB-Fundació La Caixa, the European Research Council (Proof of Concept p38_InTh-825763), AGAUR (2016 LLAV 00043 and 2019 PROD 00138 supported by FEDER, and 2017 SGR-557, 2017 SGR-50, 2021 SGR-909, and 2021 SGR-866), BBVA Foundation, and the European Union’s Horizon 2020 research and innovation program (euCanSHare 825903 and BioExcel-3 101093290). L.G. and B.B. were funded by predoctoral contracts from MICINN (BES-2016-077122) and the Marie Skłodowska-Curie COFUND action of IRB Barcelona and the PREBIST Predoc Programme (PREBIST_754558), respectively. F.C. is a Ramon y Cajal Fellow (RYC2019-026768-I). Access to ALBA was granted through the BAG proposals 2018092972 and 2020094472. We gratefully acknowledge institutional funding from IRB Barcelona, the CERCA Programme of the Catalan Government, and the MICINN through the Centres of Excellence Severo Ochoa award. M.J.M. and A.R.N. are supported by the Institució Catalana de Recerca i Estudis Avancats (ICREA), With the institutional support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S)

Published
2023

24. Aging increases hippocampal DUSP2 by a membrane cholesterol loss-mediated RTK/p38MAPK activation mechanism

Author

Ministerio de Economía y Competitividad (España), Martín-Segura, Adrián, Casadomé-Perales, Álvaro, Fazzari, Pietro, Mas, José Manuel, Artigas, Laura, Valls, Raquel, Nebreda, Ángel R., Dotti, Carlos G., Ministerio de Economía y Competitividad (España), Martín-Segura, Adrián, Casadomé-Perales, Álvaro, Fazzari, Pietro, Mas, José Manuel, Artigas, Laura, Valls, Raquel, Nebreda, Ángel R., and Dotti, Carlos G.

Abstract

Numerous studies suggest that the increased activity of p38MAPK plays an important role in the abnormal immune and inflammatory response observed in the course of neurodegenerative diseases such as Alzheimer's disease. On the other hand, High levels of p38MAPK are present in the brain during normal aging, suggesting the existence of mechanisms that keep the p38MAPK-regulated pro-inflammatory activity within physiological limits. In this study, we show that high p38MAPK activity in the hippocampus of old mice is in part due to the reduction in membrane cholesterol that constitutively occurs in the aging brain. Mechanistically, membrane cholesterol reduction increases p38MAPK activity through the stimulation of a subset of tyrosine kinase receptors (RTKs). In turn, activated p38MAPK increases the expression and activity of the phosphatase DUSP2, which is known to reduce the activity of different MAPKs, including p38MAPK. These results suggest that the loss of membrane cholesterol that constitutively occurs with age takes part in a negative-feedback loop that keeps p38MAPK activity levels within physiological range. Thus, conditions that increase p38MAPK activity such as cellular stressors or that inhibit DUSP2 will amplify inflammatory activity with its consequent deleterious functional changes.

Published
2019

27. Regulation of Androgen Receptor Activity by Transient Interactions of Its Transactivation Domain with General Transcription Regulators

Author

De Mol, Eva, primary, Szulc, Elzbieta, additional, Di Sanza, Claudio, additional, Martínez-Cristóbal, Paula, additional, Bertoncini, Carlos W., additional, Fenwick, R. Bryn, additional, Frigolé-Vivas, Marta, additional, Masín, Marianela, additional, Hunter, Irene, additional, Buzón, Víctor, additional, Brun-Heath, Isabelle, additional, García, Jesús, additional, De Fabritiis, Gianni, additional, Estébanez-Perpiñá, Eva, additional, McEwan, Iain J., additional, Nebreda, Ángel R., additional, and Salvatella, Xavier, additional

Published
2018
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29. A combination of neutral loss and targeted product ion scanning with two enzymatic digestions facilitates the comprehensive mapping of phosphorylation sites

Author

Casado-Vela, Juan [0000-0001-5924-6601], Nebreda, Ángel R. [https://orcid.org/0000-0002-7631-4060], Casal, J. Ignacio [0000-0003-1085-2840], Casado-Vela, Juan, Ruiz, Edgar J., Nebreda, Ángel R., Casal, J. Ignacio, Casado-Vela, Juan [0000-0001-5924-6601], Nebreda, Ángel R. [https://orcid.org/0000-0002-7631-4060], Casal, J. Ignacio [0000-0003-1085-2840], Casado-Vela, Juan, Ruiz, Edgar J., Nebreda, Ángel R., and Casal, J. Ignacio

Abstract

We propose here a new strategy for the exhaustive mapping of phosphorylation sites in the Xenopus laevis Cdc25 phosphatase, which regulates cell cycle progression in eukaryotic cells. Two different MS analyses in a linear IT were used to identify the phosphorylated residues. First, a data‐dependent neutral loss (DDNL) analysis triggered the fragmentation of peptides that show enhanced neutral loss of phosphoric acid. Second, a targeted product ion scanning (TPIS) mass analysis was carried out in which MS2 events are triggered for specific m/z values. Full coverage of the protein sequence was obtained by combining the two analyses with two enzymatic digestions, trypsin and chymotrypsin, yielding a comprehensive map of the phosphorylation sites. Previous reports have shown Cdc25C to be phosphorylated by Cdc2–cyclin B at four residues (Thr48, Thr67, Thr138 and Ser205). By using this combination of scan modes, we have identified four additional phosphorylation sites (Thr86, Ser99, Thr112 and Ser163) in a recombinant Cdc25C protein containing 198 residues of the NH2‐terminal noncatalytic domain. The sensitivity of this combined approach makes it extremely useful for the comprehensive characterization of phosphorylation sites, virtually permitting complete coverage of the protein sequence with peptides within the mass detection range of the linear IT.

Published
2007

30. Proteomic analysis of p38alpha mitogen-activated protein kinase-regulated changes in membrane fractions of RAS-transformed fibroblasts

Author

Fundación Científica Asociación Española Contra el Cáncer, Cuadrado, Ana [0000-0002-9752-5932], Nebreda, Ángel R. [0000-0002-7631-4060], Casal, J. Ignacio [0000-0003-1085-2840], Alfonso, Patricia, Dolado, Ignacio, Swat, Aneta, Núñez, Antonio, Cuadrado, Ana, Nebreda, Ángel R., Casal, J. Ignacio, Fundación Científica Asociación Española Contra el Cáncer, Cuadrado, Ana [0000-0002-9752-5932], Nebreda, Ángel R. [0000-0002-7631-4060], Casal, J. Ignacio [0000-0003-1085-2840], Alfonso, Patricia, Dolado, Ignacio, Swat, Aneta, Núñez, Antonio, Cuadrado, Ana, Nebreda, Ángel R., and Casal, J. Ignacio

Abstract

Oncogenic Ras signaling has been long known to play an important role in tumorigenesis and human cancer. In this report, we have used the sensitive 2-D-DIGE coupled to MS for the identification of proteins differentially expressed at the cell membrane level between oncogenic H-RasV12-transformed wild-type and p38alpha-deficient mouse embryo fibroblasts (MEFs). Following trifluoroethanol solubilization, 76 proteins were found to be differentially regulated. After PMF, 63 spots containing 42 different proteins were unequivocally identified by MALDI-TOF MS coupled with database interrogation. As expected, many of them were membrane proteins. Six proteins were selected for further validation studies based on their potential functional link with malignant transformation and signal transduction. These were prohibitin (PHB), protein disulfide isomerase 3 (PDIA3), focal adhesion kinase 2 (FAK2), c-GMP dependent protein kinase 2 (KGP2), NADH-ubiquinone oxidoreductase 30 kDa subunit (NUGM) and translationally controlled tumor protein (TCTP). All these proteins were up-regulated in the membranes of H-RasV12-transformed p38alpha-/-cells, except for prohibitin, which was down-regulated. An excellent correlation was found between DIGE results and Western blot studies, indicating the reliability of the 2-D-DIGE analysis. The available evidence about the putative function of the identified proteins supports the emerging role of p38alpha as a negative regulator of tumorigenesis. Further studies are in progress to elucidate the implications of these findings in the regulation of H-Ras-induced transformation by p38alpha signaling.

Published
2006

31. The p57 CDKi integrates stress signals into cell-cycle progression to promote cell survival upon stress

Author

Joaquin i Caudet, Manel, Gubern, Albert, González Nuñez, Daniel, Ruiz, E. Josué, Ferreiro Neira, Isabel, Nadal Clanchet, Eulàlia de, Nebreda, Ángel R., and Posas Garriga, Francesc

Subjects
Ionomycin, Estrès oxidatiu -- Fisiologia patològica, Osmosi, p57 CDKi, Cell cycle, Cell stress, p38 Mitogen-Activated Protein Kinases, Article, Cell survival, Calcium Ionophores, Mice, Oxidative Stress, Fosforilació, HEK293 Cells, Osmotic Pressure, p38 SAPK, Animals, Humans, Phosphorylation, Cyclin-Dependent Kinase Inhibitor p57, Signal Transduction
Abstract

The p57 CDKi integrates stress signals into cell-cycle progression to promote cell survival upon stress The stress-activated protein kinase p38 phosphorylates p57/Kip2, resulting in enhanced CDK2 inhibition and a cell-cycle delay that helps cells to survive under stress., The p57Kip2 cyclin-dependent kinase inhibitor (CDKi) has been implicated in embryogenesis, stem-cell senescence and pathologies, but little is known of its role in cell cycle control. Here, we show that p57Kip2 is targeted by the p38 stress-activated protein kinase (SAPK). Phosphorylation of p57Kip2 at T143 by p38 enhances its association with and inhibition of Cdk2, which results in cell-cycle delay upon stress. Genetic inactivation of the SAPK or the CDKi abolishes cell-cycle delay upon osmostress and results in decreased cell viability. Oxidative stress and ionomycin also induce p38-mediated phosphorylation of p57 and cells lacking p38 or p57 display reduced viability to these stresses. Therefore, cell survival to various stresses depends on p57 phosphorylation by p38 that inhibits CDK activity. Together, these findings provide a novel molecular mechanism by which cells can delay cell cycle progression to maximize cell survival upon stress.

Published
2012

38. A novel p34cdc2-binding and activating protein that is necessary and sufficient to trigger G2/M progression in Xenopus oocytes

Author

Ferby, Ingvar, Blazquez, Montserrat, Palmer, Amparo, Eritja Casadellà, Ramón, Nebreda, Ángel R., Ferby, Ingvar, Blazquez, Montserrat, Palmer, Amparo, Eritja Casadellà, Ramón, and Nebreda, Ángel R.

Abstract

The activation of maturation-promoting factor (MPF) is required for G2/M progression in eukaryotic cells. Xenopus oocytes are arrested in G2 and are induced to enter M phase of meiosis by progesterone stimulation. This process is known as meiotic maturation and requires the translation of specific maternal mRNAs stored in the oocytes. We have used an expression cloning strategy to functionally identify proteins involved in G2/M progression in Xenopus oocytes. Here we report the cloning of two novel cDNAs that when expressed in oocytes induce meiotic maturation efficiently. The two cDNAs encode proteins of 33 kD that are 88% identical and have no significant homologies to other sequences in databases. These proteins, which we refer to as p33ringo (rapid inducer of G2/M progression in oocytes), induce very rapid MPF activation in cycloheximide-treated oocytes. Conversely, ablation of endogenous p33ringo mRNAs using antisense oligonucleotides inhibits progesterone-induced maturation, suggesting that synthesis of p33ringo is required for this process. We also show that p33ringo binds to and activates the kinase activity of p34cdc2 but does not associate with p34cdc2/cyclin B complexes. Our results identify a novel p34cdc2 binding and activating protein that regulates the G2/M transition during oocyte maturation.

Published
1999

39. Whole genome analysis of p38 SAPK-mediated gene expression upon stress

Author

Lopez-Bigas Nuria, Pisano David G, Domínguez Orlando, Lombardía Luís, Barragan Montserrat, Gomez-Lopez Gonzalo, Islam Abul, Joaquin Manel, Ferreiro Isabel, Nebreda Angel R, and Posas Francesc

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Cells have the ability to respond and adapt to environmental changes through activation of stress-activated protein kinases (SAPKs). Although p38 SAPK signalling is known to participate in the regulation of gene expression little is known on the molecular mechanisms used by this SAPK to regulate stress-responsive genes and the overall set of genes regulated by p38 in response to different stimuli. Results Here, we report a whole genome expression analyses on mouse embryonic fibroblasts (MEFs) treated with three different p38 SAPK activating-stimuli, namely osmostress, the cytokine TNFα and the protein synthesis inhibitor anisomycin. We have found that the activation kinetics of p38α SAPK in response to these insults is different and also leads to a complex gene pattern response specific for a given stress with a restricted set of overlapping genes. In addition, we have analysed the contribution of p38α the major p38 family member present in MEFs, to the overall stress-induced transcriptional response by using both a chemical inhibitor (SB203580) and p38α deficient (p38α-/-) MEFs. We show here that p38 SAPK dependency ranged between 60% and 88% depending on the treatments and that there is a very good overlap between the inhibitor treatment and the ko cells. Furthermore, we have found that the dependency of SAPK varies depending on the time the cells are subjected to osmostress. Conclusions Our genome-wide transcriptional analyses shows a selective response to specific stimuli and a restricted common response of up to 20% of the stress up-regulated early genes that involves an important set of transcription factors, which might be critical for either cell adaptation or preparation for continuous extra-cellular changes. Interestingly, up to 85% of the up-regulated genes are under the transcriptional control of p38 SAPK. Thus, activation of p38 SAPK is critical to elicit the early gene expression program required for cell adaptation to stress.

Published
2010
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