Objective　This study aimed to investigate the epidemiological characteristics, recombination patterns, and mutation variations of Coxsackievirus A6 (CV-A6) based on whole-genome sequences of CV-A6 collected from Anhui Province from 2022 to 2023, to understand the relationship between recombination and evolution in CV-A6. Methods　CV-A6-positive samples collected from different regions of Anhui Province during 2022-2023 were subjected to whole-genome sequencing. Genome sequence alignment, phylogenetic analysis, and similarity analysis were conducted using software tools such as MEGA11, SimPlot, and DNAstar. Amino acid mutation sites in the P1-P3 coding regions were also analyzed. Results　A total of 10 CV-A6 isolates were sequenced in this study. The nucleotide and amino acid sequence similarity among the 10 isolates ranged from 94.0% to 99.7% and 98.3% to 99.9%, respectively. Compared with the prototype strain, their nucleotide and amino acid sequence similarity ranged from 79.6% to 80.1% and 94.8% to 95.1%, respectively. The VP1 phylogenetic tree revealed that all 10 isolates belonged to the D3a subtype, consistent with the genotypic trends observed in recent years in China. Recombination analysis showed that the P1 coding region was relatively conserved, whereas certain levels of recombination events occurred between CV-A6 and other enteroviruses in the P2 and P3 coding regions. Recombination evolution analysis of the 3D region indicated that the CV-A6 strains were divided into two recombinant branches, RF-A and RF-K, with 4 isolates classified as RF-A and 6 as RF-K. Amino acid mutation site analysis showed varying degrees of mutations in the P1-P3 regions. Specifically, in the 3D region, RF-A and RF-K recombinant branches displayed different mutation patterns, with 13 unique amino acid mutations observed in the RF-A branch and 6 unique mutations in the RF-K branch. Conclusions　The D3a subtype is the predominant epidemic genotype of CV-A6 in Anhui Province during 2022-2023, and no evidence of emergent new sub-genotypes was observed. However, some mutations may have occurred in the 3D region, indicating potential genetic changes.

Objective:To synthesize a hydrolysis-resistant urushiol-modified monomer(UMM)to improve the hydrolysis resistance of light-cured composite resin,while reducing the volume shrinkage rate(VS),increasing the double bond conversion rate(DC),and mitigating the potential biosafety concerns of bisphenol A glycidyl methacrylate(Bis-GMA)monomer.Methods:UMM was synthesized by modifying urushiol via an acyl chloride reaction,and its structure was analyzed and characterized using Fourier transform infrared spectroscopy(FT-IR).Control group was consisted of Bis-GMA/triethylene glycol dimethacrylate(TEGDMA)without UMM,while 10%UMM,15%UMM,and 20%UMM groups were prepared by partially replacing Bis-GMA with UMM at mass fractions of 10%,15%,and 20%,respectively.The viscosity of UMM was measured using a rheometer.The DC of light-cured composite resin in various groups was detected by FT-IR spectroscopy,and the VS was calculated.The contact angle of light-cured composite resin in various groups was measured using the sessile drop method,and the water sorption and solubility values were calculated.The mechanical properties of light-cured composite resin in various groups were tested.The in vitro cytotoxicity of light-cured composite resin in various groups was evaluated using the cell counting kit-8(CCK-8)assay.Results:The FT-IR spectra results showed that the absorption peak of the hydroxyl group at 3 402 cm-1 disappeared,while characteristic absorption peaks of-C=O and-C=C appeared at 1 745 and 1 637 cm-1,indicating that urushiol successfully reacted with acryloyl chloride to form UMM.The viscosity of UMM ranged from 25.14 to 29.43 Pa·s.Compared with control group,the DC of light-cured composite resin in 10%UMM,15%UMM,and 20%UMM groups was significantly increased(P<0.05),while the VS was significantly decreased(P<0.05),both in a dose-dependent manner.Compared with control group,the contact angle of light-cured composite resin in 10%UMM,15%UMM,and 20%UMM groups was significantly increased(P<0.05).Compared with 10%UMM group,the contact angle of light-cured composite resin in 15%UMM and 20%UMM groups was further increased(P<0.05).Compared with control group,the water sorption and solubility values of light-cured composite resin in 10%UMM,15%UMM,and 20%UMM groups were significantly decreased(P<0.05),showing a dose-dependent trend.After 24 h of water immersion,compared with control group,the flexural strength(FS)and elastic modulus(EM)of light-cured composite resin in 10%UMM,15%UMM,and 20%UMM groups were significantly decreased(P<0.05),also in a dose-dependent manner.After 7 d of water immersion,compared with control group,the FS of light-cured composite resin in 10%UMM group was significantly increased(P<0.05),while that in 20%UMM group was significantly decreased(P<0.05).Compared with 10%UMM group,the FS of light-cured composite resin in 15%UMM and 20%UMM groups was significantly decreased(P<0.05),exhibiting a dose-dependent trend.Compared with control group,the EM of light-cured composite resin in 15%UMM and 20%UMM groups was significantly decreased(P<0.05),also in a dose-dependent manner.The relative growth rate(RGR)of the L929 cells in control,10%UMM,15%UMM,and 20%UMM groups was above 90%,with no statistically significant differences among groups(P>0.05),and all cytotoxicity results were qualified.Conclusion:A novel low-viscosity monomer UMM is successfully synthesized in this study.All UMM-containing light-cured composite resin formulations exhibit higher DC,lower VS,reduced water sorption and solubility values,improved hydrolysis resistance,and low cytotoxicity.UMM can serve as a potential resin monomer to enhance the hydrolysis resistance of light-cured composite resin.

Objective:To understand the genome-wide sequence variation and molecular evolution of coxsackievirus A4 (CV-A4) strain in Anhui province, so as to provide a theoretical basis for the pathogenic monitoring and scientific prevention and treatment of hand, foot and mouth disease in the future.Methods:Five CVA4 isolates of 2020 were sequenced by first-generation sequencing method. MEGA11.0 was used to construct a phylogenetic tree based on VP1 region for 5 CV-A4 isolates, 32 CV-A4 strains and Enterovirus A71(EV-A71) prototype strain BrCr, and the isolates and enterovirus A (EV-A) prototype strains based on P1, P2 and P3 regions respectively, and DNAStar was used for amino acid sequence comparison in VP1 region. BioEdit7.2 was used for amino acid displacement entropy analysis and amino acid site entropy mapping. SimPlot3.5 and RDP4 were used for recombination analysis of CV-A4 isolate and EV-A prototype representative strains, and DnaSP6 software was used for selection pressure analysis of isolates and reference representative strains.Results:The phylogenetic tree showed that the isolates belonged to the C2 subtype, which belonged to the same clade as the CV-A4 strain circulating in Chinese mainland, and the amino acid sequence homology of the C2 subtype branch was 97.3%-100%, and the isolates had 6 amino acid variation sites compared with the prototype. The selection pressure analysis showed that the CV-A4 strain of the C2 subtype was affected by negative selection pressure, and there were 25 mutagenic sites in the amino acid sequence in the coding region of the displacement entropy analysis, accounting for 1.14%, and the evolution of the strain mainly depended on recombination. Recombination analysis showed that the isolates recombined with a variety of EV-A prototype strains in the P2 and P3 regions, and the recombination section with the CV-A5 prototype strain was longer, especially in the 3A-3C section, and P1 was a relatively conserved region.Conclusions:CV-A4 has frequent recombination events with other EV-A prototype strains in P2 and P3, and the molecular evolution of CV-A4 in Anhui should continue to be closely monitored.

OBJECTIVETo investigate the effects of activation of the GLP-1 receptor on the p38MAPK signaling pathway in hepatic stellate cells (HSCs).

METHODSHSCs were isolated and identified according to morphological features; the levels of GLP-1R protein were determined by western blotting.The HSCs were randomly divided into a control grouP (normal saline treatment) and experimental grouP(liraglutide treatment); after 120 hours, the expression of p38MAPK mRNA was examined by RT-PCR and of phosphorylated (p)-p38MAPK protein was detected by western blotting.

RESULTSGLP-1R proteins were detected in the HSCs. Compared with the control group, the experimental group showed significantly decreased p38MAPK mRNA and p-p38MAPK protein (both P < 0.01).

CONCLUSIONThe p38MAPK signaling pathway could be down-regulated when GLP-1R is activated in HSCs.

Cells, Cultured ; Glucagon-Like Peptide 1 ; analogs & derivatives ; pharmacology ; Glucagon-Like Peptide-1 Receptor ; Hepatic Stellate Cells ; metabolism ; Humans ; Liraglutide ; MAP Kinase Signaling System ; RNA, Messenger ; Receptors, Glucagon ; metabolism ; p38 Mitogen-Activated Protein Kinases ; metabolism