Marta Rafel scite author profile

Cyclin D1 (Ccnd1) together with its binding partner Cdk4 act as a transcriptional regulator to control cell proliferation and migration, and abnormal Ccnd1·Cdk4 expression promotes tumour growth and metastasis. While different nuclear Ccnd1·Cdk4 targets participating in cell proliferation and tissue development have been identified, little is known about how Ccnd1·Cdk4 controls cell adherence and invasion. Here, we show that the focal adhesion component paxillin is a cytoplasmic substrate of Ccnd1·Cdk4. This complex phosphorylates a fraction of paxillin specifically associated to the cell membrane, and promotes Rac1 activation, thereby triggering membrane ruffling and cell invasion in both normal fibroblasts and tumour cells. Our results demonstrate that localization of Ccnd1·Cdk4 to the cytoplasm does not simply act to restrain cell proliferation, but constitutes a functionally relevant mechanism operating under normal and pathological conditions to control cell adhesion, migration and metastasis through activation of a Ccnd1·Cdk4-paxillin-Rac1 axis.

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EU-OSTID: A Collection of Transposon Insertional Mutants for Functional Genomics in Rice

Enckevort¹,

Droc

Piffanelli

et al. 2005

Plant Mol Biol

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A collection of 1373 unique flanking sequence tags (FSTs), generated from Ac/Ds and Ac transposon lines for reverse genetics studies, were produced in japonica and indica rice, respectively. The Ds and Ac FSTs together with the original T-DNAs were assigned a position in the rice genome sequence represented as assembled pseudomolecules, and found to be distributed evenly over the entire rice genome with a distinct bias for predicted gene-rich regions. The bias of the Ds and Ac transposon inserts for genes was exemplified by the presence of 59% of the inserts in genes annotated on the rice chromosomes and 41% present in genes transcribed as disclosed by their homology to cDNA clones. In a screen for inserts in a set of 75 well annotated transcription factors, including homeobox-containing genes, we found six Ac/Ds inserts. This high frequency of Ds and Ac inserts in genes suggests that saturated knockout mutagenesis in rice using this strategy will be efficient and possible with a lower number of inserts than expected. These FSTs and the corresponding plant lines are publicly available through OrygenesDB database and from the EU consortium members.

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Protein Kinase KIS Localizes to RNA Granules and Enhances Local Translation

Cambray

Pedraza

Rafel

et al. 2009

Molecular and Cellular Biology

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The regulation of mRNA transport is a fundamental process for cytoplasmic sorting of transcripts and spatially controlled translational derepression once properly localized. There is growing evidence that translation is locally modulated as a result of specific synaptic inputs. However, the underlying molecular mechanisms that regulate this translational process are just emerging. We show that KIS, a serine/threonine kinase functionally related to microtubule dynamics and axon development, interacts with three proteins found in RNA granules: KIF3A, NonO, and eEF1A. KIS localizes to RNA granules and colocalizes with the KIF3A kinesin and the ␤-actin mRNA in cultured cortical neurons. In addition, KIS is found associated with KIF3A and 10 RNP-transported mRNAs in brain extracts. The results of knockdown experiments indicate that KIS is required for normal neurite outgrowth. More important, the kinase activity of KIS stimulates 3 untranslated region-dependent local translation in neuritic projections. We propose that KIS is a component of the molecular device that modulates translation in RNA-transporting granules as a result of local signals.There are two important reasons why proteins are localized through their mRNAs rather than directly. First, mRNA localization not only targets the protein to the correct region of the cell but also prevents its expression elsewhere. The second reason for localizing a protein through its mRNA is that it devolves the control of protein expression to individual regions of the cytoplasm. This allows a cell to respond rapidly to a local requirement for the protein and makes it possible to regulate gene expression independently in different subcompartments of the cell (21, 32, 37). These factors are particularly important in large and highly polarized cells, such as neurons, where translation of localized mRNAs in growth cones seems to be important for axon guidance, whereas local control of protein synthesis in dendrites contributes to synaptic plasticity (6, 36). Localized mRNAs are usually transported in large ribonucleoprotein particles (RNPs), which have been referred to as RNA granules. It is thought that this structure serves to prevent premature mRNA translation/degradation during transport and that mRNAs might be released into a translationally competent form by locally originated signals (23, 33). RNPs vary in composition and include multiple mRNAs, ribosomes, and regulatory proteins, as well as molecular-motor proteins (2). Two studies using different approaches have attempted a molecular characterization of RNPs isolated from neural tissue. The first study used kinesin KIF5A in an affinity purification approach and identified a large number of proteins in granules from the adult mouse brain, including known regulators of mRNA transport (Pur␣ and Staufen1) and eukaryotic translation factors (eIF2A and eEF1A), as well as CaMKII␣ and Arc mRNAs (19). The second study (9) isolated a fraction enriched in RNPs from embryonic rat brains and demonstrated the presence of the ␤-act...

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Polyphosphate is a key factor for cell survival after DNA damage in eukaryotic cells

et al. 2017

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Cyclin D1 localizes in the cytoplasm of keratinocytes during skin differentiation and regulates cell–matrix adhesion

et al. 2013

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the function of Cyclin D1 (CycD1) has been widely studied in the cell nucleus as a regulatory subunit of the cyclindependent kinases Cdk4/6 involved in the control of proliferation and development in mammals. CycD1 has been also localized in the cytoplasm, where its function nevertheless is poorly characterized. In this work we have observed that in normal skin as well as in primary cultures of human keratinocytes, cytoplasmic localization of CycD1 correlated with the degree of differentiation of the keratinocyte. In these conditions, CycD1 co-localized in cytoplasmic foci with exocyst components (Sec6) and regulators (ralA), and with β1 integrin, suggesting a role for CycD1 in the regulation of keratinocyte adhesion during differentiation. Consistent with this hypothesis, CycD1 overexpression increased β1 integrin recycling and drastically reduced the ability of keratinocytes to adhere to the extracellular matrix. We propose that localization of CycD1 in the cytoplasm during skin differentiation could be related to the changes in detachment ability of keratinocytes committed to differentiation.Cyclin D1 localizes in the cytoplasm of keratinocytes during skin differentiation and regulates cell-matrix adhesion

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Mixed Lineage Kinase Phosphorylates Transcription Factor E47 and Inhibits TrkB Expression to Link Neuronal Death and Survival Pathways

Pedraza¹,

Rafel

Navarro

et al. 2009

Journal of Biological Chemistry

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E47 is a basic helix-loop-helix transcription factor involved in neuronal differentiation and survival. We had previously shown that the basic helix-loop-helix protein E47 binds to E-box sequences within the promoter of the TrkB gene and activates its transcription. Proper expression of the TrkB receptor plays a key role in development and function of the vertebrate nervous system, and altered levels of TrkB have been associated with important human diseases. Here we show that E47 interacts with MLK2, a mixed lineage kinase (MLK) involved in JNK-mediated activation of programmed cell death. MLK2 enhances phosphorylation of the AD2 activation domain of E47 in vivo in a JNK-independent manner and phosphorylates in vitro defined serine and threonine residues within a loop-helix structure of AD2 that also contains a putative MLK docking site. Although these residues are essential for MLK2-mediated inactivation of E47, inhibition of MLKs by CEP11004 causes up-regulation of TrkB at a transcriptional level in cerebellar granule neurons and differentiating neuroblastoma cells. These findings allow us to propose a novel mechanism by which MLK regulates TrkB expression through phosphorylation of an activation domain of E47. This molecular link would explain why MLK inhibitors not only prevent activation of cell death processes but also enhance cell survival signaling as a key aspect of their neuroprotective potential.

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Erk1/2 Activation in Stromal Fibroblasts From Sporadic Basal Cell Carcinomas

Aguayo

Rafel

Santacana

et al. 2015

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β-catenin and cyclin D1 expression in Gli1-independent basal cell carcinomas

Aguayo¹,

Rafel²,

Santacana³

et al. 2013

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Marta Rafel

Cytoplasmic cyclin D1 regulates cell invasion and metastasis through the phosphorylation of paxillin

EU-OSTID: A Collection of Transposon Insertional Mutants for Functional Genomics in Rice

Protein Kinase KIS Localizes to RNA Granules and Enhances Local Translation

Polyphosphate is a key factor for cell survival after DNA damage in eukaryotic cells

Cyclin D1 localizes in the cytoplasm of keratinocytes during skin differentiation and regulates cell–matrix adhesion

Mixed Lineage Kinase Phosphorylates Transcription Factor E47 and Inhibits TrkB Expression to Link Neuronal Death and Survival Pathways

Erk1/2 Activation in Stromal Fibroblasts From Sporadic Basal Cell Carcinomas

β-catenin and cyclin D1 expression in Gli1-independent basal cell carcinomas

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