Dact gene expression profiles suggest a role for this gene family in integrating Wnt and TGF‐β signaling pathways during chicken limb development

Sensiate, Lucimara Aparecida; Sobreira, Débora R.; Veiga, Fernanda Cristina da; Peterlini, Denner Jefferson; Pedrosa, Angelica Vasconcelos; Rirsch, Thaís; Joazeiro, Paulo Pinto; Schubert, Frank; Collares-Buzato, Carla Beatriz; Xavier‐Neto, José; Dietrich, Susanne; Alvares, Lúcia Elvira

doi:10.1002/dvdy.23948

Cited by 14 publications

(16 citation statements)

References 73 publications

(83 reference statements)

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“…Dact2 showed prominent expression in young somites and the developing intestine (Figure 5 A-C; [ 27 ]); in more strongly stained specimen, all somites as well as the trigeminal, facial and glossopharyngeal ganglia were labeled (not shown). Chicken Dact1 was expressed in the presomitic mesoderm and young somites, the craniofacial mesenchyme, the splanchnopleural lateral mesoderm, several cranial ganglia and the epibranchial placodes (Figure 5 D; [ 27 ]); expression in the mature somites, in the limb mesenchyme and the dorsal root ganglia emerged slightly later at E3 ([ 27 , 31 ]. Chicken Dact2 is known for its early expression in the cranial neural crest [ 27 ].…”

Section: Resultsmentioning

confidence: 99%

“…At E2.5, the gene was expressed in the somites, the craniofacial mesenchyme, and several cranial ganglia (Figure 5 E; [ 27 ]). Later at E3, the gene was also expressed in the mesenchyme surrounding the dorsal root ganglia, the limb buds, the lung bud and the eye [ 27 , 31 ]. Xenopus dact1 expression was initially found in the dorsal blastopore lip, the neural plate, the emerging neural crest cells and the emerging paraxial mesoderm ([ 3 ] and not shown).…”

Section: Resultsmentioning

confidence: 99%

“…The embryos are at the phylotypic stage of vertebrate development; they were assayed for mRNA expression of Dact genes as indicated in the panel. Note that for members of both the Dact1/3 paralog group, as well as for the Dact2/4 paralog group, prominent expression was found in the paraxial mesoderm, craniofacial mesenchyme, pharyngeal arches and cranial ganglia as well as the developing paired limbs/ fins (for the chicken; this expression emerges at E3; [ 31 ]), suggesting that these are original sites of Dact function. At a number of sites, expression of Dact paralogs overlaps, suggesting that here Wnt and Tgfβ signal transduction is controlled by combinatorial Dact activity.…”

Section: Resultsmentioning

confidence: 99%

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Dactgenes are chordate specific regulators at the intersection of Wnt and Tgf-β signaling pathways

et al. 2014

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BackgroundDacts are multi-domain adaptor proteins. They have been implicated in Wnt and Tgfβ signaling and serve as a nodal point in regulating many cellular activities. Dact genes have so far only been identified in bony vertebrates. Also, the number of Dact genes in a given species, the number and roles of protein motifs and functional domains, and the overlap of gene expression domains are all not clear. To address these problems, we have taken an evolutionary approach, screening for Dact genes in the animal kingdom and establishing their phylogeny and the synteny of Dact loci. Furthermore, we performed a deep analysis of the various Dact protein motifs and compared the expression patterns of different Dacts.ResultsOur study identified previously not recognized dact genes and showed that they evolved late in the deuterostome lineage. In gnathostomes, four Dact genes were generated by the two rounds of whole genome duplication in the vertebrate ancestor, with Dact1/3 and Dact2/4, respectively, arising from the two genes generated during the first genome duplication. In actinopterygians, a further dact4r gene arose from retrotranscription. The third genome duplication in the teleost ancestor, and subsequent gene loss in most gnathostome lineages left extant species with a subset of Dact genes. The distribution of functional domains suggests that the ancestral Dact function lied with Wnt signaling, and a role in Tgfβ signaling may have emerged with the Dact2/4 ancestor. Motif reduction, in particular in Dact4, suggests that this protein may counteract the function of the other Dacts. Dact genes were expressed in both distinct and overlapping domains, suggesting possible combinatorial function.ConclusionsThe gnathostome Dact gene family comprises four members, derived from a chordate-specific ancestor. The ability to control Wnt signaling seems to be part of the ancestral repertoire of Dact functions, while the ability to inhibit Tgfβ signaling and to carry out specialized, ortholog-specific roles may have evolved later. The complement of Dact genes coexpressed in a tissue provides a complex way to fine-tune Wnt and Tgfβ signaling. Our work provides the basis for future structural and functional studies aimed at unraveling intracellular regulatory networks.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Dactgenes are chordate specific regulators at the intersection of Wnt and Tgf-β signaling pathways

et al. 2014

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“…Sox9 is a well known marker of the skeleton that precedes the appearance of cartilage blastemas (Wright et al, 1995; Healy et al, 1999; Chimal-Monroy et al, 2003; Kawakami et al, 2005; Lorda-Diez et al, 2011; Sensiate et al, 2014). Hence, Sox9 is expressed even in domains that represent skeletal pieces lost in the course of evolution of specialized species (de Bakker et al, 2013).…”

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confidence: 99%

Sox9 Expression in Amniotes: Species-Specific Differences in the Formation of Digits

Montero

Lorda‐Diez

Francisco-Morcillo

et al. 2017

Front. Cell Dev. Biol.

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In tetrapods the digit pattern has evolved to adapt to distinct locomotive strategies. The number of digits varies between species or even between hindlimb and forelimb within the same species. These facts illustrate the plasticity of embryonic limb autopods. Sox9 is a precocious marker of skeletal differentiation of limb mesenchymal cells. Its pattern of expression in the developing limb has been widely studied and reflects the activity of signaling cascades responsible for skeletogenesis. In this assay we stress previously overlooked differences in the pattern of expression of Sox9 in limbs of avian, mouse and turtle embryos which may reflect signaling differences associated with distinct limb skeletal morphologies observed in these species. Furthermore, we show that Sox9 gene expression is higher and maintained in the interdigital region in species with webbed digits in comparison with free digit animals.

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“…Dapper, antagonist of β-catenin (Dact) gene is a signal pathway regulating molecule that exerts its function by negatively regulating Wnt/β-catenin and Nodal/TGFβ signaling pathways (7,8). Wnt/β-catenin and Nodal/TGFβ signaling pathways participate in the regulation of the occurrence and development of tumors, and Dact gene can therefore play a role in the occurrence and development of tumors by affecting these signaling pathways (9). Dact2 gene is a member of Dact family that plays a role in tumors by participating in the negative regulation of both Wnt/β-catenin and Nodal/TGFβ signaling pathways (10).…”

Section: Introductionmentioning

confidence: 99%

MicroRNA‑214 promotes the proliferation, migration and invasion of gastric cancer MKN28 cells by suppressing the expression of Dact2

Zhao

Fan

et al. 2018

Exp Ther Med

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The present study examined the expression of Dapper, antagonist of β-catenin 2 (Dact2) and microRNA (miR)-214 in gastric cancer at tissue and cellular levels, and to understand their biological roles. A total of 42 gastric cancer patients were enrolled in the present study. Bioinformatics tool was used to predict the miR molecule that potentially regulates Dact2 expression. To measure the expression of miR-214 and Dact2, reverse transcription-quantitative polymerase chain reaction was employed. Mixed gastric adenocarcinoma type MKN28 cells were transfected with negative control (NC), miR-214 mimics or inhibitor. The CCK-8 assay was used to investigate the proliferation of mixed gastric adenocarcinoma type MKN28 cells. To study migration and invasion abilities of mixed gastric adenocarcinoma type MKN28 cells, the Transwell assay was performed. To determine the expression of Dact2 protein, western blotting was conducted and the rescue assay was utilized to study the biological roles of miR-214 and Dact2 in mixed gastric adenocarcinoma type MKN28 cells. To test whether Dact2 is a direct target of miR-214, the dual luciferase reporter assay was performed. Results indicated that the expression of miR-214 was elevated, but expression of Dact2 mRNA was decreased in gastric cancer tissues, which was closely correlated with the invasion, metastasis, occurrence and development of gastric cancer. Notably, miR-214 promoted the proliferation of mixed gastric adenocarcinoma type MKN28 cells in vitro, whereas but Dact2 inhibited the proliferation of these cells. Downregulation of miR-214 expression or upregulation of Dact2 expression inhibited the migration and invasion of mixed gastric adenocarcinoma type MKN28 cells. Furthermore, miR-214 regulated the expression of Dact2 protein and its downstream β-catenin protein in mixed gastric adenocarcinoma type MKN28 cells. Dact2 reversed the effect of miR-214 on the proliferation, migration and invasion of mixed gastric adenocarcinoma type MKN28 cells. In addition, miR-214 directly targeted the 3'-UTR seeding region of Dact2 mRNA to regulate its expression. The present study demonstrated that expression of miR-214 was upregulated in gastric cancer tissues, and positively correlated with lymphatic metastasis and clinical staging. In addition, expression of Dact2 was downregulated in gastric cancer tissues and negatively correlated with lymphatic metastasis and clinical staging. Notably, the present findings suggest that miR-214 promoted the proliferation, migration and invasion of mixed gastric adenocarcinoma type MKN28 cells by suppressing the expression of Dact2.

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Dact gene expression profiles suggest a role for this gene family in integrating Wnt and TGF‐β signaling pathways during chicken limb development

Cited by 14 publications

References 73 publications

Dactgenes are chordate specific regulators at the intersection of Wnt and Tgf-β signaling pathways

Dactgenes are chordate specific regulators at the intersection of Wnt and Tgf-β signaling pathways

Sox9 Expression in Amniotes: Species-Specific Differences in the Formation of Digits

MicroRNA‑214 promotes the proliferation, migration and invasion of gastric cancer MKN28 cells by suppressing the expression of Dact2

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