Juan Ángel Fresno Vara scite author profile

Reactive Oxygen Species (ROS) result from cell metabolism as well as from extracellular processes. ROS exert some functions necessary for cell homeostasis maintenance. When produced in excess they play a role in the causation of cancer. ROS mediated lipid peroxides are of critical importance because they participate in chain reactions that amplify damage to biomolecules including DNA. DNA attack gives rise to mutations that may involve tumor suppressor genes or oncogenes, and this is an oncogenic mechanism. On the other hand, ROS production is a mechanism shared by many chemotherapeutic drugs due to their implication in apoptosis control. The ROS mediated cell responses depend on the duration and intensity of the cells exposing to the increased ROS environment. Thus the status redox is of great importance for oncogenetic process activation and it is also implicated in tumor susceptibility to specific chemotherapeutic drugs. Phospholipid Hydroperoxide Glutathione Peroxidase (PH-GPx) is an antioxidant enzyme that is able to directly reduce lipid peroxides even when they are bound to cellular membranes. This article will review the relevance of oxidative stress, particularly of lipid peroxidation, in cell response with special focus in carcinogenesis and cancer therapy that suggests PH-GPx as a potentially important enzyme involved in the control of this processes.

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MicroRNA Expression Profiling of Peripheral Blood Samples Predicts Resistance to First-line Sunitinib in Advanced Renal Cell Carcinoma Patients

Gámez‐Pozo

Antón-Aparicio

Bayona

et al. 2012

Neoplasia

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Stimulation of c-Src by prolactin is independent of Jak2

Vara

Carretero

Gerónimo

et al. 1999

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Interaction of prolactin (PRL) with its receptor (PRLR) leads to activation of Jak and Src family tyrosine kinases. The PRL/growth hormone/cytokine receptor family conserves a proline-rich sequence in the cytoplasmic juxtamembrane region (Box 1) required for association and subsequent activation of Jaks. In the present work, we studied the mechanisms underlying c-Src kinase activation by PRL and the role that Jak2 plays in this process. PRL addition to chicken embryo fibroblasts (CEF) expressing the rat PRLR long form resulted in activation of c-Src and Jak2 and in tyrosine phosphorylation of the receptor. Receptor phosphorylation was due to associated Jak2, since in cells expressing either a Box 1 mutated PRLR (PRLR4P-A), which is unable to interact with Jak2, or a kinase-domain-deleted Jak2 (Jak2∆k), PRL did not stimulate receptor phosphorylation. Interestingly, addition of PRL to cells expressing PRLR4P-A resulted in an activation of c-Src equivalent to that observed with the wild-type receptor. These findings indicate that PRL-mediated stimulation of c-Src was independent of Jak2 activation and of receptor phosphorylation. Our results suggest that PRL-activated Src could send signals to downstream cellular targets independently of Jak2.

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Molecular characterization of breast cancer cell response to metabolic drugs

Trilla-Fuertes

Gámez‐Pozo

Arevalillo

et al. 2017

Preprint

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Metabolic reprogramming is a hallmark of cancer. We and other authors have previously shown that breast cancer subtypes present metabolism differences. In this study, breast cancer cell lines were treated with metformin and rapamycin. The response was heterogeneous across various breast cancer cells, leading to cell cycle disruption in specific conditions. The molecular effects of these treatments were characterized using sublethal doses, SNP genotyping and mass spectrometry-based proteomics. Protein expression was analyzed using probabilistic graphical models, showing that treatments elicit various responses in some biological processes, providing insights into cell responses to metabolism drugs. Moreover, a flux balance analysis approach using protein expression values was applied, showing that predicted growth rates were comparable with cell viability measurements and suggesting an increase in reactive oxygen species response enzymes due to metformin treatment. In addition, a method to assess flux differences in whole pathways was proposed. Our results show that these various approaches provide complementary information, which can be used to suggest hypotheses about the drugs’ mechanisms of action and the response to drugs that target metabolism.

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Prolactin receptor is associated with c-src kinase in rat liver.

Berlanga

Vara

Martı́n-Pérez

et al. 1995

Molecular Endocrinology

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The mechanism of action of the pituitary hormone PRL was studied in hepatocytes of lactating rats. PRL receptor immune complexes obtained from liver lysates have an associated tyrosine kinase activity. The tyrosine kinase has been identified in isolated hepatocytes as pp60c-src. Incubation of hepatocytes with PRL induces the association of PRL receptor with pp60c-src and the resultant stimulation of its tyrosine kinase activity. Furthermore, PRL stimulates the gene expression of c-fos, c-jun, and c-src. All of these findings support the idea that the pp60c-src tyrosine kinase participates in the early steps of the PRL intracellular signaling that promotes cell growth in liver cells.

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Stimulation of c-Src by prolactin is independent of Jak2

et al. 2000

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Interaction of prolactin (PRL) with its receptor (PRLR) leads to activation of Jak and Src family tyrosine kinases. The PRL/growth hormone/cytokine receptor family conserves a proline-rich sequence in the cytoplasmic juxtamembrane region (Box 1) required for association and subsequent activation of Jaks. In the present work, we studied the mechanisms underlying c-Src kinase activation by PRL and the role that Jak2 plays in this process. PRL addition to chicken embryo fibroblasts (CEF) expressing the rat PRLR long form resulted in activation of c-Src and Jak2 and in tyrosine phosphorylation of the receptor. Receptor phosphorylation was due to associated Jak2, since in cells expressing either a Box 1 mutated PRLR (PRLR(4P-A)), which is unable to interact with Jak2, or a kinase-domain-deleted Jak2 (Jak2Deltak), PRL did not stimulate receptor phosphorylation. Interestingly, addition of PRL to cells expressing PRLR(4P-A) resulted in an activation of c-Src equivalent to that observed with the wild-type receptor. These findings indicate that PRL-mediated stimulation of c-Src was independent of Jak2 activation and of receptor phosphorylation. Our results suggest that PRL-activated Src could send signals to downstream cellular targets independently of Jak2.

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Bayesian networks established functional differences between breast cancer subtypes

Trilla-Fuertes¹,

Gámez‐Pozo

Arevalillo

et al. 2020

PLoS ONE

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Breast cancer is a heterogeneous disease. In clinical practice, tumors are classified as hormonal receptor positive, Her2 positive and triple negative tumors. In previous works, our group defined a new hormonal receptor positive subgroup, the TN-like subtype, which had a prognosis and a molecular profile more similar to triple negative tumors. In this study, proteomics and Bayesian networks were used to characterize protein relationships in 96 breast tumor samples. Components obtained by these methods had a clear functional structure. The analysis of these components suggested differences in processes such as mitochondrial function or extracellular matrix between breast cancer subtypes, including our new defined subtype TN-like. In addition, one of the components, mainly related with extracellular matrix processes, had prognostic value in this cohort. Functional approaches allow to build hypotheses about regulatory mechanisms and to establish new relationships among proteins in the breast cancer context.

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Molecular characterization of triple negative breast cancer formaldehyde‐fixed paraffin‐embedded samples by data‐independent acquisition proteomics

Adrián

Trilla-Fuertes²,

Gámez‐Pozo

et al. 2021

Proteomics

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Triple negative breast cancer accounts for 15%–20% of all breast carcinomas and is clinically characterized by an aggressive phenotype and poor prognosis. Triple negative tumors do not benefit from targeted therapies, so further characterization is needed to define subgroups with potential therapeutic value. In this work, the proteomes of 125 formalin‐fixed paraffin‐embedded samples from patients diagnosed with non‐metastatic triple negative breast cancer were analyzed using data‐independent acquisition + in a LTQ‐Orbitrap Fusion Lumos mass spectrometer coupled to an EASY‐nLC 1000. 1206 proteins were identified in at least 66% of the samples. Hierarchical clustering, probabilistic graphical models and Significance Analysis of Microarrays were combined to characterize proteomics‐based molecular groups. Two molecular groups were defined with differences in biological processes such as glycolysis, translation and immune response. These two molecular groups showed also several differentially expressed proteins. This clinically homogenous dataset may serve to design new therapeutic strategies in the future.

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