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1.
Curr Biol ; 13(12): 1009-18, 2003 Jun 17.
Artigo em Inglês | MEDLINE | ID: mdl-12814546

RESUMO

BACKGROUND: The importance of endogenous antagonists in intracellular signal transduction pathways is becoming increasingly recognized. There is evidence in cultured mammalian cells that Pyst1/MKP3, a dual specificity protein phosphatase, specifically binds to and inactivates ERK1/2 mitogen-activated protein kinases (MAPKs). High-level Pyst1/Mkp3 expression has recently been found at many sites of known FGF signaling in mouse embryos, but the significance of this association and its function are not known. RESULTS: We have cloned chicken Pyst1/Mkp3 and show that high-level expression in neural plate correlates with active MAPK. We show that FGF signaling regulates Pyst1 expression in developing neural plate and limb bud by ablating and/or transplanting tissue sources of FGFs and by applying FGF protein or a specific FGFR inhibitor (SU5402). We further show by applying a specific MAP kinase kinase inhibitor (PD184352) that Pyst1 expression is regulated via the MAPK cascade. Overexpression of Pyst1 in chick embryos reduces levels of activated MAPK in neural plate and alters its morphology and retards limb bud outgrowth. CONCLUSIONS: Pyst1 is an inducible antagonist of FGF signaling in embryos and acts in a negative feedback loop to regulate the activity of MAPK. Our results demonstrate both the importance of MAPK signaling in neural induction and limb bud outgrowth and the critical role played by dual specificity MAP kinase phosphatases in regulating developmental outcomes in vertebrates.


Assuntos
Retroalimentação Fisiológica , Fatores de Crescimento de Fibroblastos/metabolismo , Proteínas Tirosina Fosfatases/metabolismo , Transdução de Sinais/fisiologia , Animais , Western Blotting , Embrião de Galinha , Primers do DNA , Fosfatase 6 de Especificidade Dupla , Eletroporação , Fatores de Crescimento de Fibroblastos/antagonistas & inibidores , Regulação da Expressão Gênica no Desenvolvimento , Heparina , Imuno-Histoquímica , Hibridização In Situ , Botões de Extremidades , Sistema de Sinalização das MAP Quinases/fisiologia , Quinases de Proteína Quinase Ativadas por Mitógeno/antagonistas & inibidores , Pirróis/metabolismo
2.
FEBS Lett ; 580(17): 4242-5, 2006 Jul 24.
Artigo em Inglês | MEDLINE | ID: mdl-16831426

RESUMO

Expression of the gene encoding the MKP-3/Pyst1 protein phosphatase, which inactivates ERK MAPK, is induced by FGF. However, which intracellular signalling pathway mediates this expression is unclear, with essential roles proposed for both ERK and PI(3)K in chick embryonic limb. Here, we report that MKP-3/Pyst1 expression is sensitive to inhibition of ERK or MAPKK, that endogenous MKP-3/Pyst1 co-localizes with activated ERK, and expression of MKP-3/Pyst1 in mice lacking PDK1, an essential mediator of PI(3)K signalling. We conclude that MKP-3/Pyst1 expression is mediated by ERK activation and that negative feedback control predominates in limiting the extent of FGF-induced ERK activity.


Assuntos
Fator de Crescimento Epidérmico/metabolismo , MAP Quinases Reguladas por Sinal Extracelular/metabolismo , Regulação da Expressão Gênica no Desenvolvimento/fisiologia , Regulação Enzimológica da Expressão Gênica/fisiologia , Sistema de Sinalização das MAP Quinases/fisiologia , Fosfoproteínas Fosfatases/biossíntese , Proteínas Tirosina Fosfatases/biossíntese , Animais , Embrião de Galinha , Fosfatase 6 de Especificidade Dupla , Camundongos , Camundongos Transgênicos , Fosfatidilinositol 3-Quinases/metabolismo
3.
Int J Dev Biol ; 49(4): 427-30, 2005.
Artigo em Inglês | MEDLINE | ID: mdl-15968588

RESUMO

The spalt family of transcriptional repressors has been implicated in limb, heart, ear and kidney development and truncating mutations in a human gene, SALL1, result in the autosomal dominant disorder Townes-Brocks syndrome. Here we show the expression pattern of the chick orthologue of the SALL1 gene, csal1, during early development. We found csal1 expression in the heart and in the pharynx, a source of inductive signals during heart development. Expression was also seen in involuting mesoderm and later in presegmented paraxial mesoderm. We also describe expression in the ectoderm and neural plate of the early embryo and subsequent expression in the neural tube.


Assuntos
Regulação da Expressão Gênica no Desenvolvimento , Proteínas de Homeodomínio/genética , Botões de Extremidades/embriologia , Fatores de Transcrição/genética , Animais , Embrião de Galinha , Extremidades/embriologia , Coração/embriologia , Proteínas de Homeodomínio/metabolismo , Hibridização In Situ , Botões de Extremidades/metabolismo , Mesoderma/metabolismo , Miocárdio/metabolismo , Notocorda/embriologia , Notocorda/metabolismo , Fatores de Transcrição/metabolismo , Transcrição Gênica , Dedos de Zinco
4.
Dev Biol ; 298(2): 585-96, 2006 Oct 15.
Artigo em Inglês | MEDLINE | ID: mdl-16904661

RESUMO

SHOX is a homeobox-containing gene, highly conserved among species as diverse as fish, chicken and humans. SHOX gene mutations have been shown to cause idiopathic short stature and skeletal malformations frequently observed in human patients with Turner, Leri-Weill and Langer syndromes. We cloned the chicken orthologue of SHOX, studied its expression pattern and compared this with expression of the highly related Shox2. Shox is expressed in central regions of early chick limb buds and proximal two thirds of later limbs, whereas Shox2 is expressed more posteriorly in the proximal third of the limb bud. Shox expression is inhibited distally by signals from the apical ectodermal ridge, both Fgfs and Bmps, and proximally by retinoic acid signaling. We tested Shox functions by overexpression in embryos and micromass cultures. Shox-infected chick limbs had normal proximo-distal patterning but the length of skeletal elements was consistently increased. Primary chick limb bud cell cultures infected with Shox showed an initial increase in cartilage nodules but these did not enlarge. These results fit well with the proposed role of Shox in cartilage and bone differentiation and suggest chick embryos as a useful model to study further the role of Shox in limb development.


Assuntos
Regulação da Expressão Gênica no Desenvolvimento , Genes Homeobox , Proteínas de Homeodomínio/metabolismo , Botões de Extremidades/metabolismo , Transdução de Sinais , Sequência de Aminoácidos , Animais , Células Cultivadas , Embrião de Galinha , Proteínas de Homeodomínio/genética , Botões de Extremidades/anatomia & histologia , Botões de Extremidades/citologia , Botões de Extremidades/embriologia , Modelos Anatômicos , Dados de Sequência Molecular , Técnicas de Cultura de Órgãos , Homologia de Sequência de Aminoácidos
5.
Dev Biol ; 294(2): 554-63, 2006 Jun 15.
Artigo em Inglês | MEDLINE | ID: mdl-16574096

RESUMO

RNA interference (RNAi) provides an effective method to silence gene expression and investigate gene function. However, RNAi tools for the chicken embryo have largely been adapted from vectors designed for mammalian cells. Here we present plasmid and retroviral RNAi vectors specifically designed for optimal gene silencing in chicken cells. The vectors use a chicken U6 promoter to express RNAs modelled on microRNA30, which are embedded within chicken microRNA operon sequences to ensure optimal Drosha and Dicer processing of transcripts. The chicken U6 promoter works significantly better than promoters of mammalian origin and in combination with a microRNA operon expression cassette (MOEC), achieves up to 90% silencing of target genes. By using a MOEC, we show that it is also possible to simultaneously silence two genes with a single vector. The vectors express either RFP or GFP markers, allowing simple in vivo tracking of vector delivery. Using these plasmids, we demonstrate effective silencing of Pax3, Pax6, Nkx2.1, Nkx2.2, Notch1 and Shh in discrete regions of the chicken embryonic nervous system. The efficiency and ease of use of this RNAi system paves the way for large-scale genetic screens in the chicken embryo.


Assuntos
Embrião de Galinha , Regulação da Expressão Gênica no Desenvolvimento , MicroRNAs/metabolismo , Óperon , Interferência de RNA , Animais , Linhagem Celular , Embrião de Galinha/anatomia & histologia , Embrião de Galinha/fisiologia , Inativação Gênica , Vetores Genéticos , Proteína Homeobox Nkx-2.2 , Proteínas de Homeodomínio , Humanos , MicroRNAs/genética , Proteínas Nucleares , Regiões Promotoras Genéticas , Receptor Notch1/genética , Receptor Notch1/metabolismo , Proteínas Recombinantes de Fusão/genética , Proteínas Recombinantes de Fusão/metabolismo , Fatores de Transcrição
6.
Genome Res ; 15(1): 174-83, 2005 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-15590942

RESUMO

We present an analysis of the chicken (Gallus gallus) transcriptome based on the full insert sequences for 19,626 cDNAs, combined with 485,337 EST sequences. The cDNA data set has been functionally annotated and describes a minimum of 11,929 chicken coding genes, including the sequence for 2260 full-length cDNAs together with a collection of noncoding (nc) cDNAs that have been stringently filtered to remove untranslated regions of coding mRNAs. The combined collection of cDNAs and ESTs describe 62,546 clustered transcripts and provide transcriptional evidence for a total of 18,989 chicken genes, including 88% of the annotated Ensembl gene set. Analysis of the ncRNAs reveals a set that is highly conserved in chickens and mammals, including sequences for 14 pri-miRNAs encoding 23 different miRNAs. The data sets described here provide a transcriptome toolkit linked to physical clones for bioinformaticians and experimental biologists who wish to use chicken systems as a low-cost, accessible alternative to mammals for the analysis of vertebrate development, immunology, and cell biology.


Assuntos
Galinhas/genética , DNA Complementar/genética , Etiquetas de Sequências Expressas , Biblioteca Gênica , Transcrição Gênica/genética , Animais , Clonagem Molecular/métodos , Biologia Computacional/métodos , DNA Complementar/fisiologia , Humanos , MicroRNAs/genética , RNA não Traduzido/genética , Alinhamento de Sequência/métodos , Análise de Sequência de DNA/métodos
7.
J Biol Chem ; 278(8): 6560-6, 2003 Feb 21.
Artigo em Inglês | MEDLINE | ID: mdl-12482848

RESUMO

Members of the spalt family of zinc finger-containing proteins have been implicated in development and disease. However, very little is known about the molecular function of spalt proteins. We have used biochemical approaches to characterize functional domains of two chick spalt homologs, csal1 and csal3. We show that csal1 and csal3 proteins repress transcription and that they can interact with each other. Furthermore, we found that truncated chick spalt proteins, similar to the truncated spalt protein expressed in the human congenital disorder Townes-Brocks syndrome, affect the nuclear localization of full-length spalt. Our findings have implications for the understanding of Townes-Brocks syndrome and the role of spalt genes in normal development. We propose that truncated spalt can exert a dominant negative effect and is able to interfere with the correct function of full-length protein, by causing its displacement from the nucleus. This could affect the transcriptional repressor activity of spalt and DNA binding. Spalt protein truncations could also affect the function of other spalt family members in various tissues.


Assuntos
Glutamina , Proteínas de Homeodomínio/metabolismo , Isoformas de Proteínas/metabolismo , Fatores de Transcrição/metabolismo , Proteínas de Xenopus , Sequência de Aminoácidos , Animais , Linhagem Celular , Embrião de Galinha , Sequência Conservada , Modelos Animais de Doenças , Extremidades/embriologia , Proteínas de Homeodomínio/química , Proteínas de Homeodomínio/genética , Humanos , Dados de Sequência Molecular , Morfogênese , Fragmentos de Peptídeos/química , Fragmentos de Peptídeos/metabolismo , Isoformas de Proteínas/química , Proteínas Recombinantes/metabolismo , Síndrome , Fatores de Transcrição/química , Fatores de Transcrição/genética , Transfecção , Dedos de Zinco
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