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2. SSRP1 affects the growth and apoptosis of gastric cancer cells through AKT pathway

Author

Jin Guohua, Zhao Ruihong, Zhang Jianguang, Cao Tingting, and Tang Tongyu

Subjects
ssrp1, gastric cancer, proliferation, apoptosis, Biochemistry, QD415-436
Abstract

Background: We aimed to determine the SSRP1's potential influence on the apoptosis and proliferation of gastric cancer (GC) cells and its regulatory mechanism. Methods: SSRP1 expression in GC cells and tissues was detected via quantitative reverse transcription-polymerase chain reaction (qRT-PCR). The interrelation between clinicopathological characteristics of GC patients and SSRP1 expression was analysed via x2 test, and the correlation between SSRP1 expression and overall survival rate was analysed using Kaplan-Meier survival analysis. After the knockdown of SSRP1 in AGS cells, the SSRP1 expression, colony formation ability, cell viability, cell cycle changes, apoptosis rate, and migration and invasion ability were detected through qRT-PCR, colony formation assay, CCK8 assay, flow cytometry and transwell test, respectively. Finally, the effects of down-regulation of SSRP1 on the expressions of phosphorylated-protein kinase B (p-AKT), B-cell lymphoma-2 (Bcl-2) and Bcl-2 associated X protein (Bax) were explored using Western blotting. Results: SSRP1 displayed a high expression in GC cells and tissues. SSRP1 expression was closely interrelated to the TNM stage, lymph node metastasis and tumour size. The survival rate of patients was markedly shorter in the high expression group than in the lower expression group. After the knockdown of SSRP1 in cells, the viability and colony formation ability of AGS cells were inhibited. In addition, the cell ratio in the G1 phase was increased, while that in the S phase declined, and the cell invasion and migration were obviously weakened. It was found from Western blotting that the knockdown of SSRP1 could evidently suppress the protein levels of Bcl-2 and p-AKT but promote the protein expression of Bax, indicating that silencing SSRP1 can inhibit the proliferative capacity and increase the number of GC cells through inactivating the AKT signalling pathway. Conclusions: SSRP1 rose up in GC tissues and cells. Reduction of SSRP1 can inhibit the proliferative capacity and increase the number of GC cells through inactivating the AKT signalling pathway.

Published
2022
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5. CircHECTD1 Regulates Cell Proliferation and Migration by the miR-320-5p/SLC2A1 Axis in Glioblastoma Multiform.

Author

Li, Wen, Wang, Shanshan, Shan, Boquan, Cheng, Xiang, He, Hui, Qin, Jianbing, Tang, Yi, Zhao, Heyan, Tian, Meiling, Zhang, Xinhua, and Jin, Guohua

Subjects
CELL migration, BRAIN tumors, CELL proliferation, GLIOBLASTOMA multiforme, DRUG target, TUMOR growth
Abstract

Glioblastoma multiform (GBM) is the most common and malignant primary brain cancer in adults, and thus, novel potential therapeutic targets for diagnosis and treatment are urgently needed. Circular RNAs (circRNAs) are a class of widespread and diverse endogenous RNAs that have been suggested as potential critical mediators during progression of various tumors. In this study, we investigated the involvement of circHECTD1 in GBM progression. CircHECTD1 Lentivirus, miR-320-5p mimic, and SLC2A1 Lentivirus were transduced into cancer cells independently or together. circHECTD1, miR-320-5p, and SLC2A1 level were detected by qRT-PCR. Western blot and qRT-PCR were applied to measure the expression of SLC2A1, CyclinD1, CDK2, and PCNA. Flow cytometry, EdU, colony formation, Transwell and wound-healing assays were conducted to assess cell proliferation and migration. Luciferase reporter assays were performed to determine the effect of miR-320-5p on circHECTD1 or SLC2A1. Xenograft experiments were implemented to evaluate tumor growth in vivo. CircHECTD1 expression led to the promotion of proliferation and migration of GBM cells. In addition, circHECTD1 acted as a ceRNA to interact with miR-320-5p, which targeted the solute carrier family 2 member 1 (SLC2A1). In vivo experiments also revealed that circHECTD1 promoted tumor growth. Collectively, our findings showed that the circHECTD1-miR-320-5p-SLC2A1 regulatory pathway promoted the progression of GBM, suggesting that circHECTD1 may be a therapeutic target for GBM. [ABSTRACT FROM AUTHOR]

Published
2021
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6. Dyrk1A promotes the proliferation, migration and invasion of fibroblast-like synoviocytes in rheumatoid arthritis via down-regulating Spry2 and activating the ERK MAPK pathway.

Author

Guo, Xiaofeng, Zhang, Dongmei, Zhang, Xing, Jiang, Jiawei, Xue, Pengfei, Wu, Chunshuai, Zhang, Jinlong, Jin, Guohua, Huang, Zhen, Yang, Jian, Zhu, Xinhui, Liu, Wei, Xu, Guanhua, Cui, Zhiming, and Bao, Guofeng

Subjects
SYNOVITIS, RHEUMATOID arthritis, TYROSINE, PROTEIN-tyrosine kinases, PROGENITOR cells
Abstract

Highlights • Dyrk1A is overexpressed in synovial tissues of rheumatoid arthritis (RA) patients. • TNF-α stimulates Dyrk1A and inhibits Spry2 in fibroblasts-like synocytes (FLSs). • Dyrk1A promotes proliferation, migration and invasion of RA FLSs. • Dyrk1A reduces Spry2 expression and facilitates ERK pathway activation in RA FLSs. Abstract Fibroblast-like synoviocytes (FLSs) play an essential role in rheumatoid arthritis (RA) by promoting synovitis, pannus growth and cartilage/bone destruction. Increased proliferation, migration and invasion of FLSs greatly contribute to RA initiation and progression. Dual-specificity tyrosine-regulated kinase 1A (Dyrk1A), a serine/threonine kinase, regulates MAPK pathway activation, and governs the proliferation and differentiation of neuronal progenitor cells and cancer cells. Till now, the expression and possible function of Dyrk1A in RA FLSs have not been explored. In this study, we detected an increased expression of Dyrk1A both in the synovial tissues of RA patients and in a TNF-α-induced FLSs activation model. CCK-8 and Edu assays revealed that Dyrk1A knockdown inhibited TNF-α-induced FLSs proliferation. Moreover, inhibiting Dyrk1A expression apparently prevented the migration and invasion capability of FLSs accompanied by a decreased MMP-3 and -9 expression. To investigate the molecular mechanism through which Dyrk1A modulates FLSs activities, we evaluated the effects of Dyrk1A on Spry2, a negativity modulator of ERK MAPK pathway. Western blot assay demonstrated that Dyrk1A silencing significantly increased Spry2 expression and suppressed the phosphorylation of ERK in TNF-α-treated FLSs. Taken together, our results indicated that Dyrk1A might promote FLSs proliferation, migration and invasion by suppressing Spry2 expression and activating the ERK MAPK signaling pathway in RA. [ABSTRACT FROM AUTHOR]

Published
2018
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7. miR-6216 regulates neural stem cell proliferation by targeting RAB6B.

Author

Li, Wen, Ji, Ruijie, Lin, Yujian, Cheng, Xiang, Tang, Zixin, He, Hui, Zhang, Lei, Qin, Jianbing, Tian, Meiling, Jin, Guohua, and Zhang, Xinhua

Subjects
*NEURAL stem cells, *CELL proliferation, *CELL determination, *PROGENITOR cells, *STEM cells, *NON-coding RNA
Abstract

Neural stem cells (NSCs) are a class of self-renewing, multipotent and undifferentiated progenitor cells that retain the capacity to both glial and neuronal lineages. MicroRNAs (miRNAs) are small non-coding RNAs that play an important role in stem cell fate determination and self-renewal. Our previous RNA-seq data indicated that the expression of miR-6216 was decreased in denervated hippocampal exosomes compared with normal. However, whether miR-6216 participates in regulating NSC function remains to be elucidated. In this study, we demonstrated that miR-6216 negatively regulates RAB6B expression. Forced overexpression of miR-6216 inhibited NSC proliferation, and overexpression of RAB6B promoted NSC proliferation. These findings suggest that miR-6216 played an important role in regulating NSC proliferation via targeting RAB6B, and improve the understanding of the miRNA-mRNA regulatory network that affects NSC proliferation. • The up-regulated expression of miR-6216 was verified using qRT-PCR. • Overexpression of miR-6216 inhibited NSC proliferation. • RAB6B was the direct target of miR-6216 and promoted NSC proliferation. • miR-6216 suppressed NSC proliferation through RAB6B. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Low-dose DHA-induced astrocyte proliferation can be attenuated by insufficient expression of BLBP in vitro.

Author

Li, Haoming, Yang, Qingqing, Han, Xiao, Tan, Xuefeng, Qin, Jianbing, and Jin, Guohua

Subjects
*ENDOTHELIAL cells, *WESTERN immunoblotting, *NODULAR fasciitis, *DOCOSAHEXAENOIC acid, *OMEGA-3 fatty acids
Abstract

Docosahexaenoic acid (DHA) is an n-3 long chain polyunsaturated fatty acid (PUFA) that is involved in a wide range of cellular processes in human cells. Brain lipid binding protein (BLBP) exhibits a high affinity for n-3 PUFAs, especially DHA, but the precise functional contributions of DHA and BLBP in astrocytes are not clear. We analyzed cell viability and the ratio of Ki67 positive cells after manipulating DHA and/or BLBP levels in cultured astrocytes, and found that low-dose DHA stimulated proliferation of astrocytes, whereas this proliferative effect could be attenuated by downregulation of BLBP. Moreover, we found that astrocyte proliferation was directly regulated by BLBP independently of DHA. Taken together, low-dose DHA-induced astrocyte proliferation was disturbed by insufficient BLBP; and besides acting as a fatty acid transporter, BLBP was also involved in the proliferation of astrocytes directly. [ABSTRACT FROM AUTHOR]

Published
2018
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