Your search keyword '"Wang, Liyue"' showing total 4 results

1. The role of the temperature-regulated acyltransferase (PA3242) on growth, antibiotic resistance and virulence in Pseudomonas aeruginosa.

Author

Liang, Ying, Guo, Zisheng, Gao, Lang, Guo, Qianqian, Wang, Liyue, Han, Yan, Duan, Kangmin, and Shen, Lixin

Subjects

*PSEUDOMONAS aeruginosa, *VIRULENCE of bacteria, *ACYLTRANSFERASES, *DRUG resistance in bacteria, *BACTERIAL growth, *ANTIBIOTICS

Abstract

Pseudomonas aeruginosa (PAO1) is an important opportunistic pathogen that thrives in various environments. It is known that the structural variations of the lipopolysaccharide (LPS), including lipid A moiety play an important role in encountering environmental changes. Genes PA3242 and PA0011 have recently been reported to be responsible for secondary-acylation of lipid A in P. aeruginosa . In this study, we confirmed that the PA3242-dependant secondary acylation affects the growth, antibiotic resistance and virulence of PAO1 and functions as a more predominant acyltransferase than PA0011. PA3242 mutant showed inhibited growth at 37 °C and inviability at 28 °C in rich medium LB. The inactivation of PA3242 leads to more sensitivity to a wide range of antibiotics than PAO1(ΔPA0011). Moreover, the virulence of PAO1(ΔPA3242) was attenuated more significantly than that of PAO1 and PAO1(ΔPA0011). The outer membrane integrity and stability of PAO1(ΔPA3242) were seriously compromised. Furthermore, PAO1(ΔPA3242) lost most of pilus and exhibited severely damaged cell envelope, which is probably responsible for the deficiency of swimming, swarming and twitching. These results partially explained the decreased antibiotic resistance and attenuated virulence of PAO1(ΔPA3242) compared to PAO1(ΔPA0011) and PAO1. Our study demonstrated that PA3242-dependent secondary acylation of lipid A plays a predominant role in growth, antibiotic resistance and virulence of PAO1 than PA0011. [ABSTRACT FROM AUTHOR]

Published

2016

2. Soluble CD83 inhibits human monocyte differentiation into dendritic cells in vitro.

Author

Lin, Hongyu, Liang, Shuang, Zhong, Zhenyu, Wen, Jiexia, Li, Wenyan, Wang, Liyue, Xu, Jian, Zhong, Fei, and Li, Xiujin

Subjects

*CD83 antigen, *MONOCYTES, *DENDRITIC cells, *IN vitro studies, *MEMBRANE glycoproteins, *BIOMARKERS, *GENE expression, *CELL differentiation

Abstract

Human CD83 is type I transmembrane glycoprotein, mainly expressed on mature dendritic cells (DCs), so it was first described as a molecular marker for mature DC. However, increasing evidence has demonstrated that CD83 is also an immunomodulatory molecule either its membrane-bound CD83 (mCD83) or soluble CD83 (sCD83) released from DCs. Intriguingly, the mCD83 possesses stimulatory effects on immune response, on the contrary, the sCD83 has inhibitory effects. Whether the sCD83 has the inhibitory effects on human monocyte differentiation into DCs is unknown. To this end, we prepared the recombinant human sCD83 in HEK293T cells and treated human monocytes being differentiated into DCs in vitro with the sCD83, and evaluate sCD83 inhibitory effects on immune response by analyzing the surface marker pattern of the cells. The results showed that the sCD83, especially glycosylated sCD83 could bind the monocytes and significantly inhibited the depression of CD14 expressions ( P < 0.01) and reduced CD1a, CD80, CD86 and MHC II expressions ( P < 0.01 or P < 0.05) during the differentiation, indicating that the sCD83 can inhibit monocyte differentiation into DCs, and suggesting that a negative feedback regulation may exist in monocyte differentiation into DCs based on sCD83 released from the mature DCs. [ABSTRACT FROM AUTHOR]

Published

2014

3. Porcine reproductive and respiratory syndrome virus activates inflammasomes of porcine alveolar macrophages via its small envelope protein E.

Author

Zhang, Kao, Hou, Qiang, Zhong, Zhenyu, Li, Xiujin, Chen, Huihui, Li, Wenyan, Wen, Jiexia, Wang, Liyue, Liu, Weiquan, and Zhong, Fei

Subjects

*PORCINE reproductive & respiratory syndrome, *VIRUS diseases in swine, *ALVEOLAR macrophages, *VIRAL envelope proteins, *DISEASE susceptibility, *VIRAL disease treatment, *THERAPEUTICS

Abstract

Abstract: Porcine reproductive and respiratory syndrome virus (PRRSV) infection results in extensive tissue inflammation and damage, which are believed to be responsible for increased susceptibility to secondary infection and even for death. However, its pathogenic mechanisms are not fully understood. To explore the mechanism underlying the PRRSV-induced tissue inflammation and damage, we investigated whether PRRSV activates porcine alveolar macrophage (PAM) inflammasomes which mediate por-IL-1β maturation/release and subsequently induce tissue inflammation and injury. Our results showed that PRRSV and its small envelope protein E significantly increased IL-1β release from LPS-primed PAMs; however, only PRRSV not protein E significantly increased IL-1β release from no-LPS-primed PAMs, which indicates PRRSV can activate inflammasomes of PAMs by its encoded protein E. These results provide a molecular basis for the pathogenic mechanism of PRRSV on inducing extensive tissue inflammation and damage, and suggest that the inflammasome may provide a potential therapeutic target for PRRS prevention and treatment. [Copyright &y& Elsevier]

Published

2013

4. Preparation and adsorption performance of 5-azacytosine-functionalized hydrothermal carbon for selective solid-phase extraction of uranium

Author

Song, Qiang, Ma, Lijian, Liu, Jun, Bai, Chiyao, Geng, Junxia, Wang, Hang, Li, Bo, Wang, Liyue, and Li, Shoujian

Subjects

*CYTOSINE, *SOLID phase extraction, *CARBON, *LIGANDS (Chemistry), *URANIUM absorption & adsorption, *FOURIER transform infrared spectroscopy, *HYDROGEN-ion concentration

Abstract

Abstract: A new solid-phase extraction adsorbent was prepared by employing a two-step “grafting from” approach to anchor a multidentate N-donor ligand, 5-azacytosine onto hydrothermal carbon (HTC) microspheres for highly selective separation of U(VI) from multi-ion system. Fourier-transform infrared and X-ray photoelectron spectroscopies were used to analyze the chemical structure and properties of resultant HTC-based materials. The adsorption behavior of U(VI) onto the adsorbent was investigated as functions of pH, contact time, ionic strength, temperature, and initial U(VI) concentration using batch adsorption experiments. The U(VI) adsorption was of pH dependent. The adsorption achieved equilibrium within 30min and followed a pseudo-second-order equation. The adsorption amount of U(VI) increased with raising the temperature from 283.15 to 333.15K. Remarkably, high ionic strength up to 5.0molL−1 NaNO3 had only slight effect on the adsorption. The maximum U(VI) adsorption capacity reached 408.36mgg−1 at 333.15K and pH 4.5. Results from batch experiments in a simulated nuclear industrial effluent, containing 13 co-existing cations including uranyl ion, showed a high adsorption capacity and selectivity of the adsorbent for uranium (0.63mmolUg−1, accounting for about 67% of the total adsorption amount). [Copyright &y& Elsevier]

Published

2012