Esteban Fernández Sánchez scite author profile

Background: Imbalanced TGF␤/BMP-mediated signaling has been identified as a principal stimulus of EndMT. Results: The EndMT master regulator SNAIL is a direct target of HIF1␣. Conclusion: Hypoxia-induced EndMT is mediated by HIF1␣ through direct targeting of SNAIL. Significance: This study provides conceptual clues of how endothelial cells undergoing EndMT relate to tip cells associated with sprouting angiogenesis in response to hypoxia.

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Role of melanocortin receptor accessory proteins in the function of zebrafish melanocortin receptor type 2

Agulleiro

Roy

Sánchez

et al. 2010

Molecular and Cellular Endocrinology

106

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In this paper, we identify three different MRAPs in zebrafish, zfMRAP1, zfMRAP2a and zfMRAP2b, and demonstrate that zfMC2R is not functional in the absence of MRAP expression. ZfMRAP1 expression was restricted to adipose tissue and the anterior kidney whereas MRAP2a and MRAP2b were expressed in all the tissues tested. Quantification of surface receptor and immunofluorescence studies indicated that the receptor is unable to translocate to membrane in the absence of MRAP isoforms. MRAP1 and MRAP2b are localized in the plasma membrane in the absence of zfMC2R expression but MRAP2b is retained in perinuclear position. MRAP1 and MRAP2a displayed an equivalent translocation capacity to the membrane of zfMC2R but only zfMRAP1 expression led to intracellular cAMP increases after ACTH stimulation. ZfMRAP2b had no effect on zfMC2R activity but both zfMRAP2 isoforms enhanced the zfMRAP1-assisted cAMP intracellular increase, suggesting an interaction between zfMRAP1 and zfMRAP2s when regulating zfMC2R activity.

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Cdc6 cooperates with Sic1 and Hct1 to inactivate mitotic cyclin-dependent kinases

Calzada

Sacristán

Sánchez

et al. 2001

Nature

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Exit from mitosis requires the inactivation of mitotic cyclin-dependent kinases (CDKs). In the budding yeast, Saccharomyces cerevisiae, inactivation of CDKs during late mitosis involves degradation of B-type cyclins as well as direct inhibition of cyclin-CDK complexes by the CDK-inhibitor protein Sic1 (refs 1,2,3). Several striking similarities exist between Sic1 and Cdc6, a DNA replication factor essential for the formation of pre-replicative complexes at origins of DNA replication. Transcription of both genes is activated during late mitosis by a process dependent on Swi5 (ref. 10). Like Sic1, Cdc6 binds CDK complexes in vivo and downregulates them in vitro. Here we show that Cdc6, like Sic1, also contributes to inactivation of CDKs during late mitosis in S. cerevisiae. Deletion of the CDK-interacting domain of Cdc6 does not inhibit the function of origins of DNA replication during S phase, but instead causes a delay in mitotic exit; this delay is accentuated in the absence of Sic1 or of cyclin degradation. By contributing to mitotic exit and inactivation of CDKs, Cdc6 helps to create the conditions that are required for its subsequent role in the formation of pre-replicative complexes at origins of DNA replication.

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Expression of long-chain polyunsaturated fatty acid (LC-PUFA) biosynthesis genes during zebrafish Danio rerio early embryogenesis

Monroig

Rotllant

Sánchez

et al. 2009

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

108

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Long-chain polyunsaturated fatty acids (LC-PUFAs) are essential in important physiological processes, many of which are particularly vital during embryonic development. This study investigated the expression of genes encoding enzymes involved in LC-PUFA biosynthesis, namely fatty acyl desaturase (Fad) and Elovl5- and Elovl2-like elongases, during early embryonic development of zebrafish. First, zebrafish elovl2 cDNA was isolated and functionally characterised in yeast, showing high specificity towards C20- and C22-PUFAs, compared to C18 substrates. Second, spatial-temporal expression for elovl2 and the previously cloned fad and elovl5 were studied during zebrafish early embryonic development. Temporal expression shows that all three genes are expressed from the beginning of embryogenesis (zygote), suggesting maternal mRNA transfer to the embryo. However, a complete activation of the biosynthetic pathway seems to be delayed until 12 hpf, when noticeable increases of fad and elovl2 transcripts were observed, in parallel with high docosahexaenoic acid levels in the embryo. Spatial expression was studied by whole-mount in situ hybridisation in 24 hpf embryos, showing that fad and elovl2 are highly expressed in the head area where neuronal tissues are developing. Interestingly, elovl5 shows specific expression in the pronephric ducts, suggesting an as yet unknown role in fatty acid metabolism during zebrafish early embryonic development. The yolk syncytial layer also expressed all three genes, suggesting an important role in remodelling of yolk fatty acids during zebrafish early embryogenesis. Tissue distribution in zebrafish adults demonstrates that the target genes are expressed in all tissues analysed, with liver, intestine and brain showing the highest expression.

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The Stability of the Cdc6 Protein Is Regulated by Cyclin-dependent Kinase/Cyclin B Complexes inSaccharomyces cerevisiae

Calzada¹,

Sánchez²,

Sánchez

et al. 2000

Journal of Biological Chemistry

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The Saccharomyces cerevisiae Cdc6 protein is necessary for the formation of prereplicative complexes that are a prerequisite for firing origins during DNA replication in the S phase. In budding yeast, the presence of Cdc6 protein is normally restricted to the G 1 phase of the cell cycle, at least partly because of its proteolytic degradation in the late G 1 /early S phase. Here we show that a Cdc28-dependent mechanism targets p57 CDC6 for degradation in mitotic-arrested budding yeast cells. Consistent with this observation, Cdc6 -7 and Cdc6 -8 proteins, mutants lacking Cdc28 phosphorylation sites, are stabilized relative to wild-type Cdc6. Our data also suggest a correlation between the absence of Cdc28/Clb kinase activity and Cdc6 protein stabilization, because a drop in Cdc28/Clb-associated kinase activity allows mitotic-arrested cells to accumulate Cdc6 protein. Finally, we also show that cdc28 temperature-sensitive G 1 mutants accumulate Cdc6 protein because of a post-transcriptional mechanism. Our data suggest that budding yeast cells target Cdc6 for degradation through a Cdc28-dependent mechanism in each cell cycle.

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Fish melanocortin system

Cerdá‐Reverter

Agulleiro

Guillot

et al. 2011

European Journal of Pharmacology

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Behind melanocortin antagonist overexpression in the zebrafish brain: A behavioral and transcriptomic approach

Guillot

Cortés

Navarro

et al. 2016

Hormones and Behavior

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Melanocortin signaling is regulated by the binding of naturally occurring antagonists, agoutisignaling protein (ASIP) and agouti-related protein (AGRP) that compete with melanocortin peptides by binding to melanocortin receptors.ASIP overexpression in transgenic zebrafish results in alterations of dorso-ventral pigment pattern.We further demonstrate that ASIP overexpression results in increased growth but not obesity. The differential growth is explained by increased food efficiency and food intake levels, mediated by a differential sensitivity of the satiety system. Brain transcriptome analysis unravels the flow of melanocortinergic information through the central pathways that controls the energy balance. These melanocortin-induced differences are both sex-dependent and independent. Our data also provide information on the transcriptomic differences between the male and female brain. Results provide direct evidences on the involvement of melanocortin systems in fish feeding behavior and growth by melanocortin-induced inhibitory actions on satiety neural circuits. The information provided herein will help to elucidate new central systems involved in control of obesity but should be of invaluable use for sustaining fish production systems.

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Phosphodiesterase inhibitor-dependent inverse agonism of agouti-related protein on melanocortin 4 receptor in sea bass (Dicentrarchus labrax)

Sánchez¹,

Rubio²,

Thompson³

et al. 2009

American Journal of Physiology-Regulatory, Integrative and Comp

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The melanocortin 4 receptor (MC4R) is a G protein-coupled receptor mainly expressed in the central nervous system of vertebrates. Activation of the MC4R leads to a decrease in food intake, whereas inactivating mutations are a genetic cause of obesity. The binding of agouti-related protein (AGRP) reduces not only agonist-stimulated cAMP production (competitive antagonist) but also the basal activity of the receptor, as an inverse agonist. Transgenic zebrafish overexpressing AGRP display increased food intake and linear growth, indicative of a physiological role for the melanocortin system in the control of the energy balance in fish. We report on the cloning, pharmacological characterization, tissue distribution, and detailed brain mapping of a sea bass (Dicentrarchus labrax) MC4R ortholog. Sea bass MC4R is profusely expressed within food intake-controlling pathways of the fish brain. However, the activity of the melanocortin system during progressive fasting does not depend on the hypothalamic/pituitary proopiomelanocortin (POMC) and MC4R expression, which suggests that sea bass MC4R is constitutively activated and regulated by AGRP binding. We demonstrate that AGRP acts as competitive antagonist and reduces MTII-induced cAMP production. AGRP also decreases the basal activity of the receptor as an inverse agonist. This observation suggests that MC4R is constitutively active and supports the evolutionary conservation of the AGRP/MC4R interactions. The inverse agonism, but not the competitive antagonism, depends on the presence of a phosphodiesterase inhibitor (IBMX). This suggests that inverse agonism and competitive antagonism operate through different intracellular signaling pathways, a view that opens up new targets for the treatment of melanocortin-induced metabolic syndrome.

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