Guowei Qian scite author profile

Background Metastasis is the leading cause of death in patients with osteosarcoma. Some of these patients fail to respond to chemotherapy and die of metastasis within a short period. Therefore, it is important to identify novel biomarkers to improve the diagnosis and treatment of osteosarcoma. TRIM7 is a member of the tripartite motif (TRIM) family protein that is involved in various pathological conditions including cancer; however, its role in osteosarcoma remains elusive. Methods Cell proliferation, invasion and migration were measured by CCK-8 and Transwell. Immunoprecipitation and mass spectrometry analysis were used to identify candidate proteins associated with TRIM7. Immunoprecipitation, immunofluorescence, pull down and ubiquitination assay were performed to examine the regulation between TRIM7 and its candidate protein. m6A modification of TRIM7 was measured by RNA immunoprecipitation. Findings TRIM7 expression was upregulated in osteosarcoma tissues and was an independent risk factor in predicting poor prognosis. TRIM7 regulates osteosarcoma cell migration and invasion through ubiquitination of breast cancer metastasis suppressor 1 (BRMS1). Moreover, chemoresistance was readily observed in osteosarcoma cells and in patient-derived xenograft (PDX) mice with higher TRIM7 levels. Loss of TRIM7 m6A modification was observed in osteosarcoma tissues. METTL3 and YTHDF2 were the main factors involved in the aberrant m6A modification of TRIM7. Interpretation Overall, our findings show that TRIM7 plays a key role in regulating metastasis and chemoresistance in osteosarcoma through ubiquitination of BRMS1. Funding This work was financially supported by grants of NSFC (81001192, 81672658 and 81972521) and National Key Research Project of Science and Technology Ministry (2016YFC0106204).

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p53 regulates Ki-67 promoter activity through p53- and Sp1-dependent manner in HeLa cells

Wang

Pei

Qian

et al. 2011

Tumor Biol.

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The expression of the human Ki-67 protein, which is strictly associated with cell proliferation, is regulated by a variety of cellular mediators. In this study, we studied the effects of p53 on Ki-67 promoter in HeLa cells using luciferase reporter assay. The results showed that: (1) p53 inhibited Ki-67 promoter activity in a dose-dependent manner, (2) the p53-binding motifs mediated part of the transcriptional repression of Ki-67 promoter through a sequence-specific interaction with p53, (3) p53 was able to repress the Sp1-stimulated Ki-67 promoter activity, and (4) the Sp1-binding sites were responsible for the p53-mediated transcriptional repression of Ki-67 promoter. In conclusion, p53 inhibited Ki-67 promoter activity via p53- and Sp1-dependent pathways, and the interaction between p53 and Sp1 might be involved in the transcriptional regulatory mechanisms.

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A critical role of Sp1 transcription factor in regulating the human Ki-67 gene expression

Tian

Qian

et al. 2010

Tumor Biol.

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Ki-67 plays a crucial role in cell proliferation as well as maintenance or regulation of cell division. The mechanism governing the Ki-67 gene expression remains unknown. Thus, we cloned the core promoter of the human Ki-67 gene and further investigated its transcriptional regulation. The putative Sp1 binding sites were confirmed by electrophoretic mobility shift assay together with an anti-Sp1 antibody-mediated supershift assay. Deletion mutagenesis and firefly luciferase reporter gene assay demonstrated the essential contribution of Sp1 on transcriptional activation of the Ki-67 gene. In this study, we first confirm that there are three Sp1 binding sites in the Ki-67 core promoter. Two Sp1 sites (one at position -159 to -145 nt and the other at position -14 to +12 nt) are mainly involved in transcriptional regulation of the Ki-67 gene. Overexpression of Sp1 can enhance the Ki-67 promoter activity. However, down-regulation of Sp1 expression using siRNA-Sp1 and mithramycin effectively inhibits the Ki-67 gene transcription. Our results suggest that Sp1 is essential for basal promoter activity of the human Ki-67 gene. Inhibition of the Ki-67 transcriptional activity through abolishment of Sp1 may provide the useful prospect for gene therapy.

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Visfatin is involved in the cisplatin resistance of osteosarcoma cells via upregulation of Snail and Zeb1

Wang

Qian

Wang

et al. 2019

Cancer Biology & Therapy

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Understanding the mechanisms of chemoresistance in osteosarcoma (OS) cell is important for drug development. By establishment of cisplatin (CDDP) resistant OS cells, we found that the levels of visfatin in OS/CDDP cells were significantly greater than that in their parental cells. The CDDP resistant OS cells showed greater migration and invasion capability than that of parental cells. Knockdown of visfatin can rescue the CDDP sensitivity of resistant OS cells. Among the detected epithelial-mesenchymal transitionrelated transcription factors (EMT-TFs), visfatin can increase the expression of Snail and Zeb-1 in OS cells. Overexpression of Snail and Zeb1 can attenuate si-visfatin reduced CDDP resistance of OS cells. Mechanistical studies indicated that visfatin can increase the mRNA expression of Snail and therefore upregulate its expression via HIF-1α induced transcription. As to Zeb1, visfatin had no effect on its mRNA expression, while significantly increased its protein stability. Furthermore, the upregulation of ATM, which can phosphorylate and stabilize Zeb1, was involved in visfatin-induced Zeb1 expression in OS cells. Collectively, our revealed that visfatin was involved in CDDP resistance of OS cells via upregulation of Snail and Zeb1, suggesting that inhibition of visfatin might be a potential pathway for OS treatment.

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Guowei Qian

N6-Methyladenosine modification of the TRIM7 positively regulates tumorigenesis and chemoresistance in osteosarcoma through ubiquitination of BRMS1

p53 regulates Ki-67 promoter activity through p53- and Sp1-dependent manner in HeLa cells

A critical role of Sp1 transcription factor in regulating the human Ki-67 gene expression

Visfatin is involved in the cisplatin resistance of osteosarcoma cells via upregulation of Snail and Zeb1

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