ZNF217 is Overexpressed and Enhances Cell Migration and Invasion in Colorectal Carcinoma

Zhang, Zi-Chao,Zheng, Li-Qiang,Pan, Li-Jie,Guo, Jin-Xing,Yang, Guo-Shan Asian Pacific Journal of Cancer Prevention 2015 Asian Pacific journal of cancer prevention Vol.16 No.6

Background: To investigate the expression and clinical significance of zinc finger protein 217 (ZNF217) in human colorectal carcinoma (CRC). Materials and Methods: The expression of ZNF217 in 60 CRC tissues and matched tumor adjacent tissues, collected between January 2013 and June 2014, was assessed immunohistochemically. The relationship between the expression of ZNF217 and clinicopathlogical features was analyzed by Pearson chi-square test. In addition, siRNA was used to down-regulate the expression of ZNF217 in CRC cells. The effects of ZNF217 for cell migration and invasion were measured by wound healing assay and transwell assay, respectively. Results: The expression level of ZNF217 was significantly higher in CRC tissues than in tumor adjacent tissues (p<0.05), positively correlating with tumor size, lymphatic metastasis and advanced TNM stage (p<0.05). Down-regulation of ZNF217 in CRC cells could significantly suppress cell migration and invasion. Conclusions: ZNF217 is overexpressed in colorectal carcinoma tissues and is associated with tumor malignant clinicopathological features. ZNF217 may promote CRC progression by inducing cell migration and invasion.

A Novel Negative Regulatory Factor for Nematicidal Cry Protein Gene Expression in Bacillus thuringiensis

( Zi Quan Yu ),( Pei Sheng Bai ),( Wei Xing Ye ),( Feng Juan Zhang ),( Li Fang Ruan ),( Zi Niu Yu ),( Ming Sun ) 한국미생물 · 생명공학회 2008 Journal of microbiology and biotechnology Vol.18 No.6

Fabrication and Properties of Mo2FeB2 Cermet Coating on Stainless Steel Surface via One-Step Forming Technology of Powder Metallurgy

Zi-Run Yang,Xin-Xing Li,Liu Zhang,Wen-Qian Yang,Wei-Bing Shi,Dan-Dan Li,Jie Cai 한국정밀공학회 2022 International Journal of Precision Engineering and Vol.23 No.7

Mo2 FeB2 cermet coating and stainless steel substrate were integrally fabricated by one-step forming technology of powder metallurgy. The phase and microstructure of the coating and interface were analysed through X-ray diffraction and scanning electron microscopy. Microhardness, bending strength, and wear resistance were also measured by Vickers tester, the electronic universal testing machine and wear tester. The microstructure of Mo2 FeB2 cermet coating showed Mo2 FeB2 hard phase and Fe binder phase, which was uniform and dense. A compacted interface without pores or defects was formed between the cermet coating and stainless steel substrate. The formation of eutectic liquid phase and applied pressure in sintering process promoted densification of the coating. Mo2 FeB2 cermet coating presented a microhardness of 1275 HV200 , which was obviously higher than that of 316L stainless steel substrate. The results of three-point bending test and wear test showed that Mo2 FeB2 cermet coating on steel substrate maintained good metallurgical interface bonding with the substrate, and the coating exhibited high bending strength and excellent wear resistance.

The Paradox of Bodyweight: Lean, but Not Obese, as a Predictor of Poor Prognosis after Surgical Resection for NAFLD-Associated Hepatocellular Carcinoma

( Wei Zhang ),( Min-yu Li ),( Zi-qiang Li ),( Yong-kang Diao ),( Xing-kai Liu ),( Hong-wei Guo ),( Xiao-chang Wu ),( Hong Wang ),( Guo-yue Lv ),( Tian Yang ) 대한간학회 2024 춘·추계 학술대회 (The Liver Week) Vol.2024 No.1

Transient propagation of BmLV and dysregulation of gene expression in nontarget cells following BmLV infection

Feng Yongjie,Zhang Xing,Kumar Dhiraj,Kuang Sulan,Liu Bo,Hu Xiaolong,Zhu Min,Liang Zi,Cao Guangli,Xue Renyu,Gong Chengliang 한국응용곤충학회 2021 Journal of Asia-Pacific Entomology Vol.24 No.3

Bombyx mori latent virus (BmLV), a novel positive-strand RNA virus was first identified in the B. mori cultured BmN cell line. Whether the infectivity of BmLV to silkworm larvae and non-silkworm cells is connected with dysregulation of gene expression are not well understood. A complete sequence of BmLV genomic RNA was identified and revealed that a fragment with 495 nt in length was deleted from the RNA-dependent RNA poly merase (RdRp) gene in some BmLV genomic RNAs. Studies on the infectivity of BmLV to nontarget cells showed that BmLV can infect silkworm larvae, Spodoptera frugiperda Sf-9 and H1299 lung cancer cells with transient propagation. The dysregulation of gene expression of Sf-9 cells followed by BmLV infection was analyzed. Out of 743 differentially expressed genes (DEGs), 300 were upregulated and 443 were downregulated. Gene Ontology (GO) analysis indicated the DEGs were enriched into oxidoreductase activity for CH-NH 2 group donors, gluta mate biosynthetic process, response to stress and proteasome core complex. KEGG enrichment analysis showed that DEGs were mainly enriched into sulfur metabolism, RNA degradation, proteasome, pentose and glucuronate interconversions. Undesirable nutrients and temperature factors contributed to the propagation of BmLV in Sf-9 cells. Additionally, the Imd and RNAi pathways were activated by BmLV infection without stimulating Toll and JAK-STAT pathways. Therefore, it is suggested that BmLV is originated from plants, which can enter nontarget cells with transient propagation. The transient infection of BmLV may not only be regulated by Imd and RNAi immune pathways but also mediated by dysregulation of gene expression.

Analysis of dynamical stability of rigid-flexible hybrid-driven lower limb rehabilitation robot

Yan-lin Wang,Ke-yi Wang,Zi-xing Zhang,Zhuang Han,Wan-li Wang 대한기계학회 2020 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.34 No.4

The research of the safety problem of the cable-driven lower limb rehabilitation robots (CDLR) is not considered in the related report. Hence, the purpose of this paper is to study the dynamical stability evaluation method of a rigid-flexible hybrid-driven lower limb rehabilitation robot system (RFHDLR) to meet the training requirements of different patients in different rehabilitation stages. In order to improve the flexibility and operational performance of the robot system, one rigid motion chain is introduced into the cable-driven parallel robot (CDPR) to form a RFHDLR. Secondly, the motion planning strategy of the rigid motion chain is analyzed. Then, based on the kinematics and dynamics of the robot system, the cable tension performance factor and the system stiffness performance factor of the robot system are defined, and the static stability evaluation method and index of RFHDLR are obtained by the weighting method. Considering the patient's ability to withstand the motion velocity and the effect of the volatility of slide motion velocity of the rigid motion chain on the safety of the robot system, the velocity performance factor of the robot system is proposed. The dynamical stability evaluation method and index of RFHDLR are discussed based on the static stability evaluation method and the velocity influence function. Finally, for the two planning strategies of the rigid motion chain, the experimental study of the planned training trajectory of the lower limb traction point is performed based on simulation analysis. The experimental results verify the correctness of the stability evaluation method and provide a reference for further studying the training task planning and the control strategy.

Involvement of Cdc25c in Cell Cycle Alteration of a Radioresistant Lung Cancer Cell Line Established with Fractionated Ionizing Radiation

Li, Jie,Yang, Chun-Xu,Mei, Zi-Jie,Chen, Jing,Zhang, Shi-Min,Sun, Shao-Xing,Zhou, Fu-Xiang,Zhou, Yun-Feng,Xie, Cong-Hua Asian Pacific Journal of Cancer Prevention 2013 Asian Pacific journal of cancer prevention Vol.14 No.10

Cancer patients often suffer from local tumor recurrence after radiation therapy. Cell cycling, an intricate sequence of events which guarantees high genomic fidelity, has been suggested to affect DNA damage responses and eventual radioresistant characteristics of cancer cells. Here, we established a radioresistant lung cancer cell line, A549R, by exposing the parental A549 cells to repeated ${\gamma}$-ray irradiation with a total dose of 60 Gy. The radiosensitivity of A549 and A549R was confirmed using colony formation assays. We then focused on examination of the cell cycle distribution between A549 and A549R and found that the proportion of cells in the radioresistant S phase increased, whereas that in the radiosensitive G1 phase decreased. When A549 and A549R cells were exposed to 4 Gy irradiation the total differences in cell cycle redistribution suggested that G2-M cell cycle arrest plays a predominant role in mediating radioresistance. In order to further explore the possible mechanisms behind the cell cycle related radioresistance, we examined the expression of Cdc25 proteins which orchestrate cell cycle transitions. The results showed that expression of Cdc25c increased accompanied by the decrease of Cdc25a and we proposed that the quantity of Cdc25c, rather than activated Cdc25c or Cdc25a, determines the radioresistance of cells.

Microbiome-metabolomics analysis of the effects of decreasing dietary crude protein content on goat rumen mictobiota and metabolites

Zhu Wen,Liu Tianwei,Deng Jian,Wei Cong Cong,Zhang Zi Jun,Wang Di Ming,Chen Xing Yong 아세아·태평양축산학회 2022 Animal Bioscience Vol.35 No.10

Objective: The objective of this study was to investigate the effects of decreasing dietary crude protein content on rumen fermentation, mictobiota, and metabolites in goats. Methods: In an 84-day feeding trial, a total of twelve male Anhui white goat kids with initial body weight 15.9±1.13 kg were selected and randomly classified into two groups, feeding a normal crude protein diet (14.8% CP, NCP) or a low crude protein diet (12.0% CP, LCP). At the end of the experimental trial (on day 84), six animals were randomly selected from each group and were slaughtered to collect rumen fluid samples for the analysis of rumen fermentation parameters, microbiome, and metabolome. Results: The concentrations of ammonia-nitrogen, total volatile fatty acid, acetate, and propionate were decreased (p<0.05) in the LCP group in comparison with those in the NCP group. The abundances of genera Prevotella, Campylobacter, Synergistetes, and TG5, which were associated with nitrogen metabolism, were lower (p<0.05) in the LCP group compared with those in the NCP group. The levels of 78 metabolites (74 decreased, 4 increased) in the rumen fluid were altered (p<0.05) by the treatment. Most of the ruminal metabolites that showed decreased levels in the LCP group were substrates for microbial protein synthesis. Metabolic pathway analysis showed that vitamin B6 metabolism was significantly different (p<0.05) in rumen fluid between the two treatments. Conclusion: Decreased dietary protein level inhibited rumen fermentation through microbiome and metabolome shifts in goat kids. These results enhance our understanding of ruminal bacteria and metabolites of goat fed a low protein diet. Objective: The objective of this study was to investigate the effects of decreasing dietary crude protein content on rumen fermentation, mictobiota, and metabolites in goats.Methods: In an 84-day feeding trial, a total of twelve male Anhui white goat kids with initial body weight 15.9±1.13 kg were selected and randomly classified into two groups, feeding a normal crude protein diet (14.8% CP, NCP) or a low crude protein diet (12.0% CP, LCP). At the end of the experimental trial (on day 84), six animals were randomly selected from each group and were slaughtered to collect rumen fluid samples for the analysis of rumen fermentation parameters, microbiome, and metabolome.Results: The concentrations of ammonia-nitrogen, total volatile fatty acid, acetate, and propionate were decreased (p<0.05) in the LCP group in comparison with those in the NCP group. The abundances of genera Prevotella, Campylobacter, Synergistetes, and TG5, which were associated with nitrogen metabolism, were lower (p<0.05) in the LCP group compared with those in the NCP group. The levels of 78 metabolites (74 decreased, 4 increased) in the rumen fluid were altered (p<0.05) by the treatment. Most of the ruminal metabolites that showed decreased levels in the LCP group were substrates for microbial protein synthesis. Metabolic pathway analysis showed that vitamin B6 metabolism was significantly different (p<0.05) in rumen fluid between the two treatments.Conclusion: Decreased dietary protein level inhibited rumen fermentation through microbiome and metabolome shifts in goat kids. These results enhance our understanding of ruminal bacteria and metabolites of goat fed a low protein diet.