Lingbiao Xin scite author profile

SND1 is an AEG-1/MTDH/LYRIC-binding protein that is upregulated in numerous human cancers, where it has been assigned multiple functional roles. In this study, we report its association with the TGFb1 signaling pathway, which promotes epithelial-mesenchymal transition (EMT) in breast cancer. SND1 was upregulated in breast cancer tissues, in particular in primary invasive ductal carcinomas. Transcriptional activation of the SND1 gene was controlled by the TGFb1/Smad pathway, specifically by activation of the Smad2/Smad3 complex. The SND1 promoter region contained several Smad-specific recognition domains (RD motifs), which were recognized and bound by the Smad complex that enhanced the transcriptional activation of SND1. We found that SND1 promoted expression of the E3 ubiquitin ligase Smurf1, leading to RhoA ubiquitination and degradation. RhoA degradation in breast cancer cells disrupted F-actin cytoskeletal organization, reduced cell adhesion, increased cell migration and invasion, and promoted metastasis. Overall, our results define a novel role for SND1 in regulating breast tumorigenesis and metastasis. Cancer Res; 75(7); 1275-86. Ó2015 AACR.

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SND1 acts as a novel gene transcription activator recognizing the conserved Motif domains of Smad promoters, inducing TGFβ1 response and breast cancer metastasis

Xin

et al. 2017

Oncogene

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As an AEG-1/MTDH/LYRIC-binding protein, Staphylococcal nuclease domain-containing 1 (SND1) is upregulated in numerous human cancers where it has been assigned multiple functional roles. In this study, we discovered that SND1 was upregulated in breast cancer tissues, particularly the tissues from patients with distant metastases. The underlying molecular mechanisms demonstrated a novel role of SND1 in regulating the activity of transforming growth factor β1 (TGFβ1) signaling pathway, which promotes metastasis in breast cancer. We illustrated that SND1 physically associated with and recruited the histone acetylase GCN5 to the promoter regions of Smad2/3/4, and consequently enhanced the gene transcriptional activation of Smad2/3/4, which are essential downstream regulators in the TGFβ1 pathway. An electrophoretic mobility shift assay experiment further verified that SND1 could recognize the conserved domains (motifs 1 and 2) in the promoter regions of the Smad genes. Glutathione S-transferase (GST) pulldown assays indicated that the tudor domain of SND1 was responsible for the recruitment of GCN5, which increased histone H3K9 acetylation. Consistent with these results, a loss-of-function of SND1 reduced the protein level of Smads and the phosphorylation of R-Smads, thereby attenuating the R-Smad/Co-Smad depended transcription and, as a result, inhibited TGFβ signaling activation.

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Tudor-SN, a Novel Coactivator of Peroxisome Proliferator-activated Receptor γ Protein, Is Essential for Adipogenesis

Duan¹,

Zhao

et al. 2014

Journal of Biological Chemistry

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Background: Tudor-SN has been observed in lipid droplets, but its role in lipid homeostasis remains unclear. Results: Tudor-SN and PPAR␥ are both regulated by C/EBP␤ during adipogenesis and significantly influence the regulation of PPAR␥ target genes. Conclusion: Tudor-SN functions as a co-activator of PPAR␥ in adipogenesis. Significance: The study has elucidated a new functional mechanism for the regulation of adipogenesis.

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SND1 acts upstream of SLUG to regulate the epithelial–mesenchymal transition (EMT) in SKOV3 cells

et al. 2018

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Staphylococcal nuclease domain‐containing protein 1 (SND1) has been reported as an oncoprotein in a variety of cancers involving multiple processes, including proliferation, angiogenesis, and metastasis. However, the mechanisms underlying metastasis remain largely unknown. Herein, by using the ovarian cancer cell line SKOV3, which has high metastasis ability, we showed that loss‐of‐function of SND1 dramatically suppressed the invasion and migration of SKOV3 cells. We then performed gene expression profiles and further verified (by use of quantitative PCR and Western blot analysis) that loss‐of‐function of SND1 resulted in up‐regulation of epithelial markers, such as epithelial cadherin and claudin 1, and down‐regulation of mesenchymal markers, including neural cadherin and vimentin. Moreover, we illustrated that SLUG, a key transcription factor implicated in epithelial–mesenchymal transition and metastasis, acts as an essential effector of the SND1‐promoted epithelial–mesenchymal transition process via regulating N‐CAD and VIM expression (or E‐CAD and CLDN1). The underlying molecular mechanisms illustrated that SND1 regulates the gene transcriptional activation of SLUG by increasing chromatin accessibility through the recruitment of the acetyltransferases GCN5 and CBP/p300 to the SLUG promoter proximal region. Overall, SND1 was identified as a novel upstream regulator of SLUG, which plays important roles in regulating the E‐CAD/N‐CAD expression switch.—Xin, L., Zhao, R., Lei, J., Song, J., Yu, L., Gao, R., Ha, C., Ren, Y., Liu, X., Liu, Y., Yao, Z., Yang, J. SND1 acts upstream of SLUG to regulate the epithelial‐mesenchymal transition (EMT) in SKOV3 cells. FASEB J. 33, 3795–3806 (2019). http://www.fasebj.org

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Poly(A)⁺ mRNA‐binding protein Tudor‐SN regulates stress granules aggregation dynamics

et al. 2015

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Stress granules (SGs) and processing bodies (PBs) comprise the main types of cytoplasmic RNA foci during stress. Our previous data indicate that knockdown of human Tudor staphylococcal nuclease (Tudor-SN) affects the aggregation of SGs. However, the precise molecular mechanism has not been determined fully. In the present study, we demonstrate that Tudor-SN binds and colocalizes with many core components of SGs, such as poly(A) + mRNA binding protein 1, T-cell internal antigen-1-related protein and poly(A) + mRNA, and SG/PB sharing proteins Argonaute 1/2, but not PB core proteins, such as decapping enzyme 1 a/b, confirming that Tudor-SN is an SG-specific protein. We also demonstrate that the Tudor-SN granule actively communicates with the nuclear and cytosolic pool under stress conditions. Tudor-SN can regulate the aggregation dynamics of poly(A) + mRNA-containing SGs and selectively stabilize the SG-associated mRNA during cellular stress.

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Lingbiao Xin

SND1 Acts Downstream of TGFβ1 and Upstream of Smurf1 to Promote Breast Cancer Metastasis

SND1 acts as a novel gene transcription activator recognizing the conserved Motif domains of Smad promoters, inducing TGFβ1 response and breast cancer metastasis

Tudor-SN, a Novel Coactivator of Peroxisome Proliferator-activated Receptor γ Protein, Is Essential for Adipogenesis

SND1 acts upstream of SLUG to regulate the epithelial–mesenchymal transition (EMT) in SKOV3 cells

Poly(A)⁺ mRNA‐binding protein Tudor‐SN regulates stress granules aggregation dynamics

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Lingbiao Xin

SND1 Acts Downstream of TGFβ1 and Upstream of Smurf1 to Promote Breast Cancer Metastasis

SND1 acts as a novel gene transcription activator recognizing the conserved Motif domains of Smad promoters, inducing TGFβ1 response and breast cancer metastasis

Tudor-SN, a Novel Coactivator of Peroxisome Proliferator-activated Receptor γ Protein, Is Essential for Adipogenesis

SND1 acts upstream of SLUG to regulate the epithelial–mesenchymal transition (EMT) in SKOV3 cells

Poly(A)+ mRNA‐binding protein Tudor‐SN regulates stress granules aggregation dynamics

Contact Info

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Resources

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Poly(A)⁺ mRNA‐binding protein Tudor‐SN regulates stress granules aggregation dynamics