Rosario Perona scite author profile

The Rho family of small GTPases are critical elements involved in the regulation of signal transduction cascades from extracellular stimuli to the cell nucleus, including the JNK/SAPK signaling pathway, the c-/os serum response factor, and the p70 S6 kinase. Here we report a novel signaling pathway activated by the Rho proteins that may be responsible for their biological activities, including cytoskeleton organization, transformation, apoptosis, and metastasis. The human RhoA, CDC42, and Rac-1 proteins efficiently induce the transcriptional activity of nuclear factor KB (NF-KB) by a mechanism that involves phosphorylation of iKBa and translocation of p50/p50 and p50/p65 dimers to the nucleus, but independent of the Ras GTPase and the Raf-1 kinase. We also show that activation of NF-KB by TNFa depends on CDC42 and RhoA, but not Rac-1 proteins, because this activity is drastically inhibited by their respective dominant-negative mutants. In contrast, activation of NF-KB by UV light was not affected by Rho, CDC42, or Rac-1 dominant-negative mutants. Thus, members of the Rho family of GTPases are involved specifically in the regulation of NF-KB-dependent transcription.

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Cisplatin induces a persistent activation of JNK that is related to cell death

Sánchez‐Pérez

1998

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Genotoxic stress triggers signalling pathways that either mediate cell killing or protection of a ected cells. While induction of p53 is observed for most of the genotoxins, activation of MAPK/SAPK cascades is not a general response. The role of MAPK/SAPK activation on cell fate, seems to be dependent, in some systems, on the balanced response among both cascades. We have here examined the e ect of cis and trans-DDP on the activation of ERK and JNK activities. While no signi®cant induction of ERK was observed with the compounds, both of them are able to strongly activate JNK. Trans-DDP response is rapid and transient while the cis-DDP one is slow and persistent. In contrast with the observed nuclear translocation of JNK in response to U.V. light, none of the platinum compounds induces translocation, on the contrary, activation of JNK occurs in both the nuclear and cytoplasmic compartments. Inhibition of tyrosine phosphatases by orthovanadate pretreatment prolongs the time of JNK induction in response to both platinum compounds. The positive modulation of JNK activation correlates with an increase in toxicity that, for cis-DDP corresponds to a tenfold decrease in the IC 50 . A strong increase in MKP-1 levels was observed only in response to trans-DDP suggesting the involvement of this activity in the downregulation of JNK activity in response to this compound. Altogether the results suggest that the prolonged activation of JNK in response to cis-DDP contributes to cell death induction.

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Multiple Signalling Pathways Lead to the Activation of the Nuclear Factor κB by the Rho Family of GTPases

Montaner¹,

Perona²,

Saniger³

et al. 1998

Journal of Biological Chemistry

214

163

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Regulation of Cu/Zn-Superoxide Dismutase Expression via the Phosphatidylinositol 3 Kinase/Akt Pathway and Nuclear Factor-κB

Rojo¹,

Salinas²,

Martı́n³

et al. 2004

J. Neurosci.

197

133

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A mutation in the POT1 gene is responsible for cardiac angiosarcoma in TP53-negative Li–Fraumeni-like families

et al. 2015

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Cardiac angiosarcoma (CAS) is a rare malignant tumour whose genetic basis is unknown. Here we show, by whole-exome sequencing of a TP53-negative Li–Fraumeni-like (LFL) family including CAS cases, that a missense variant (p.R117C) in POT1 (protection of telomeres 1) gene is responsible for CAS. The same gene alteration is found in two other LFL families with CAS, supporting the causal effect of the identified mutation. We extend the analysis to TP53-negative LFL families with no CAS and find the same mutation in a breast AS family. The mutation is recently found once in 121,324 studied alleles in ExAC server but it is not described in any other database or found in 1,520 Spanish controls. In silico structural analysis suggests how the mutation disrupts POT1 structure. Functional and in vitro studies demonstrate that carriers of the mutation show reduced telomere-bound POT1 levels, abnormally long telomeres and increased telomere fragility.

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Increased pH and tumorigenicity of fibroblasts expressing a yeast proton pump

Perona¹,

Serrano²

1988

Nature

188

110

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A common early response of eukaryotic cells to stimuli which activate their proliferation is an increase in intracellular pH (ref. 1). In animal cells this is caused by the activation of an Na+/H+ exchange system; in fungi and plants an H+-pumping ATPase is involved. The critical question is whether this intracellular alkalinization is merely coincident with the activation of cell proliferation or whether it is a regulatory signal. To increase intracellular pH bypassing the usual physiological stimuli (growth factors, hormones etc.) alkaline media or ammonia have been used in the past. Both approaches suffer from long-term toxicity effects and cannot be used in tumorigenic assays with whole organisms. We introduce here a more specific approach which involves expressing the gene for the yeast plasma membrane H+-ATPase in fibroblasts. The resulting cells have an elevated intracellular pH and acquire tumorigenic properties, suggesting that the yeast ATPase gene behaves as an oncogene in mammalian cells. These experiments support a crucial role of intracellular pH in the growth control of animal cells.

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Simultaneous Tyrosine and Serine Phosphorylation of STAT3 Transcription Factor Is Involved in Rho A GTPase Oncogenic Transformation

Aznar¹,

Valerón²,

Rincón³

et al. 2001

MBoC

100

104

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Stats (signal transducers and activators of transcription) are latent cytoplasmic transcription factors that on a specific stimulus migrate to the nucleus and exert their transcriptional activity. Here we report a novel signaling pathway whereby RhoA can efficiently modulate Stat3 transcriptional activity by inducing its simultaneous tyrosine and serine phosphorylation. Tyrosine phosphorylation is exerted via a member of the Src family of kinases (SrcFK) and JAK2, whereas the JNK pathway mediates serine phosphorylation. Furthermore, cooperation of both tyrosine as well as serine phosphorylation is necessary for full activation of Stat3. Induction of Stat3 activity depends on the effector domain of RhoA and correlates with induction of both Src Kinase-related and JNK activities. Activation of Stat3 has biological implications. Coexpression of an oncogenic version of RhoA along with the wild-type, nontransforming Stat3 gene, significantly enhances its oncogenic activity on human HEK cells, suggesting that Stat3 is an essential component of RhoA-mediated transformation. In keeping with this, dominant negative Stat3 mutants or inhibition of its tyrosine or serine phosphorylation completely abrogate RhoA oncogenic potential. Taken together, these results indicate that Stat3 is an important player in RhoA-mediated oncogenic transformation, which requires simultaneous phosphorylation at both tyrosine and serine residues by specific signaling events triggered by RhoA effectors.

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Implications of Oxidative Stress and Cell Membrane Lipid Peroxidation in Human Cancer (Spain)

Cejas

Casado

Belda-Iniesta

et al. 2004

Cancer Causes Control

151

100

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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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Rosario Perona

Activation of the nuclear factor-kappaB by Rho, CDC42, and Rac-1 proteins.

Cisplatin induces a persistent activation of JNK that is related to cell death

Multiple Signalling Pathways Lead to the Activation of the Nuclear Factor κB by the Rho Family of GTPases

Regulation of Cu/Zn-Superoxide Dismutase Expression via the Phosphatidylinositol 3 Kinase/Akt Pathway and Nuclear Factor-κB

A mutation in the POT1 gene is responsible for cardiac angiosarcoma in TP53-negative Li–Fraumeni-like families

Increased pH and tumorigenicity of fibroblasts expressing a yeast proton pump

Simultaneous Tyrosine and Serine Phosphorylation of STAT3 Transcription Factor Is Involved in Rho A GTPase Oncogenic Transformation

Implications of Oxidative Stress and Cell Membrane Lipid Peroxidation in Human Cancer (Spain)

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