The cDNA fragment of JEV prME gene was cloned into the baculovirus shuttle vector (bacmid) to construct a recombinant baculovirus vector, defined as AcBac-prME. Then the recombinant baculovirus Ac-prME was obtained by transfecting Sf9 cells with AcBac-prME. Western blot analysis and immunofluorescence results indicated that both prM and E proteins were efficiently expressed in Sf9 cells. Electron microscopy suggested that prME was assembled into JEV-VLPs. To further evaluate the potential of JEV-VLPs as vaccine, the mice were immunized with JEV-VLPs and then challenged with lethal JEV. The results of mice survival and pathological changes demonstrated that the JEV-VLPs performed complete protection against JEV-P3 strain and relieved pathological changes in the mice brain significant. This study suggest that JEV-VLPs would be a potential vaccine for Japanese encephalitis virus.
Animals ; Antibodies, Viral ; immunology ; Encephalitis Virus, Japanese ; genetics ; immunology ; Encephalitis, Japanese ; immunology ; prevention & control ; virology ; Humans ; Japanese Encephalitis Vaccines ; administration & dosage ; genetics ; immunology ; Mice ; Mice, Inbred BALB C ; Sf9 Cells ; Vaccination ; Vaccines, Virus-Like Particle ; administration & dosage ; genetics ; immunology ; Viral Envelope Proteins ; administration & dosage ; genetics ; immunology

BACKGROUND: Corneal disease is second only to cataract considered as the leading cause of blindness in the world, with high morbidity. Construction of corneal substitutes In Vitro by tissue engineering technology to achieve corneal regeneration has become a research hotspot in recent years. We conducted in-depth research on the biocompatibility, physicochemical and mechanical properties of rat bone marrow mesenchymal stem cells (rBM-MSCs)-seeded gelatin methacrylate (GelMA) as a bioengineered cornea. METHODS: Four kinds of GelMA with different concentrations (7, 10, 15 and 30%) were prepared, and their physicchemical, optical properties, and biocompatibility with rBM-MSCs were characterized. MTT, live/dead staining, cell morphology, immunofluorescence staining and gene expression of keratocyte markers were performed. RESULTS: 7%GelMA hydrogel had higher equilibrium water content and porosity, better optical properties and hydrophilicity. In addition, it is more beneficial to the growth and proliferation of rBM-MSCs. However, the 30%GelMA hydrogel had the best mechanical properties, and could be more conducive to promote the differentiation of rBM-MSCs into keratocyte-like cells. CONCLUSION As a natural biological scaffold, GelMA hydrogel has good biocompatibility. And it has the ability to promote the differentiation of rBM-MSCs into keratocyte-like cells, which laid a theoretical and experimental foundation for further tissue-engineered corneal stromal transplantation, and provided a new idea for the source of seeded cells in corneal tissue engineering.

Objective To observe the expression of ciz1 in human colorectal cancer tissues and analyse the relationship between their expression and clinicopathologic features.Methods We detected the expression of Ciz1 and Ciz1 mRNA by immunohistochemistry and Western blotting.The relationship between the expression of ciz1 and clinicopathologic features was analied.Results According to immunohistochemical results,Ciz1 showed significant high expression in the primary lesion of colorectal cancer tissue,compared to normal adjacent tissues(66.7%vs.35.0%,P=0.001).Through Western blot analysis,it was found that the relative expression level in colorectal cancer tissue was 0.32±0.03,while in normal colorectal mucosal tissue it was 0.11±0.01.In addition,the relative expression level of Ciz1 in colorectal cancer tissue was significantly higher than that in normal intestinal mucosal tissue(P<0.05).The study found that the overexpression of Ciz1 in colorectal cancer tissue is significantly correlated with the T stage(P=0.018),lymph node metastasis(P=0.022),and AJCC stage(P=0.017)of the cancer.The age,gender,tumor location,degree of differentiation,and the presence of distant metastasis of patients were not correlated with this(P>0.05).The expression level of Ciz1 in colorectal cancer tissue is significantly increased,which is closely related to the T stage(P=0.018),lymph node metastasis(P=0.022),and American Joint Committee on Cancer stage(P=0.017)of colorectal cancer.Conclusion This association suggests that Ciz1 may play an important role in tumor staging,participating in the development and spread of tumors.Therefore,it can be foreseen that Ciz1 is expected to become a new biomarker for evaluating the prognosis of colorectal cancer patients.

In order to prepare monoclonal antibodies with blocking activity against feline TNF-α,this study successfully constructed,expressed and purified the recombinant plasmid pET-28a-sTNFα based on the soluble feline TNF-α(sTNFα)gene,and further investigated the induced ex-pression.The conditions were explored and optimized to identify its biological activity;secondly,the feline TNF-α recombinant protein was used as an immunogen for mouse immunization,after cell fusion,screening of blocking active hybridoma cells and ascites preparation,the obtained mon-oclonal antibodies were tested.The results showed that the pET-28a-sTNFα plasmid was success-fully constructed and the bioactive feline TNF-α recombinant protein was expressed in E.coli sys-tem.The molecular weight was 34 kDa and the 50％inhibitory concentration was 1.22 pg/L.Three monoclonal antibodies(A6-B7-9,H5-E2-94 and C8-A10-100)with blocking activity were success-fully screened out.The results of Western blot showed that all the three mAbs could specifically bind to TNF-α with a titer of 1:512 000.When the concentration of the three mAbs was 100 mg/L,the inhibitory effect on TNF-α was the strongest.In this study,we screened antibodies that can block the activity of cat TNF-α,in order to provide novel,safe and effective candidate drugs for the treatment of TNF-α mediated diseases in cats.

Carbon nanotube (CNT) composite materials are very attractive for use in neural tissue engineering and biosensor coatings. CNT scaffolds are excellent mimics of extracellular matrix due to their hydrophilicity, viscosity, and biocompatibility. CNTs can also impart conductivity to other insulating materials, improve mechanical stability, guide neuronal cell behavior, and trigger axon regeneration. The performance of chitosan (CS)/polyethylene glycol (PEG) composite scaffolds could be optimized by introducing multi-walled CNTs (MWCNTs). CS/PEG/CNT composite scaffolds with CNT content of 1%, 3%, and 5% (1%=0.01 g/mL) were prepared by freeze-drying. Their physical and chemical properties and biocompatibility were evaluated. Scanning electron microscopy (SEM) showed that the composite scaffolds had a highly connected porous structure. Transmission electron microscope (TEM) and Raman spectroscopy proved that the CNTs were well dispersed in the CS/PEG matrix and combined with the CS/PEG nanofiber bundles. MWCNTs enhanced the elastic modulus of the scaffold. The porosity of the scaffolds ranged from 83% to 96%. They reached a stable water swelling state within 24 h, and swelling decreased with increasing MWCNT concentration. The electrical conductivity and cell adhesion rate of the scaffolds increased with increasing MWCNT content. Immunofluorescence showed that rat pheochromocytoma (PC12) cells grown in the scaffolds had characteristics similar to nerve cells. We measured changes in the expression of nerve cell markers by quantitative real-time polymerase chain reaction (qRT-PCR), and found that PC12 cells cultured in the scaffolds expressed growth-associated protein 43 (GAP43), nerve growth factor receptor (NGFR), and class III β‍-tubulin (TUBB3) proteins. Preliminary research showed that the prepared CS/PEG/CNT scaffold has good biocompatibility and can be further applied to neural tissue engineering research.
Animals ; Axons ; Biocompatible Materials/chemistry* ; Chitosan/chemistry* ; Nanotubes, Carbon/chemistry* ; Nerve Regeneration ; Polyethylene Glycols ; Porosity ; Rats ; Tissue Engineering/methods* ; Tissue Scaffolds/chemistry*

Genome-wide association studies (GWASs) are the most widely used method to identify genetic risk loci associated with orofacial clefts (OFC). However, despite the increasing size of cohort, GWASs are still insufficient to detect all the heritability, suggesting there are more associations under the current stringent statistical threshold. In this study, we obtained an integrated epigenomic dataset based on the chromatin conformation of a human oral epithelial cell line (HIOEC) using RNA-seq, ATAC-seq, H3K27ac ChIP-seq, and DLO Hi-C. Presumably, this epigenomic dataset could reveal the missing functional variants located in the oral epithelial cell active enhancers/promoters along with their risk target genes, despite relatively less-stringent statistical association with OFC. Taken a non-syndromic cleft palate only (NSCPO) GWAS data of the Chinese Han population as an example, 3664 SNPs that cannot reach the strict significance threshold were subjected to this functional identification pipeline. In total, 254 potential risk SNPs residing in active cis-regulatory elements interacting with 1 718 promoters of oral epithelium-expressed genes were screened. Gapped k-mer machine learning based on enhancers interacting with epithelium-expressed genes along with in vivo and in vitro reporter assays were employed as functional validation. Among all the potential SNPs, we chose and confirmed that the risk alleles of rs560789 and rs174570 reduced the epithelial-specific enhancer activity by preventing the binding of transcription factors related to epithelial development. In summary, we established chromatin conformation datasets of human oral epithelial cells and provided a framework for testing and understanding how regulatory variants impart risk for clefts.
Chromatin ; Cleft Lip/genetics* ; Cleft Palate/genetics* ; Epithelium ; Genome-Wide Association Study ; Humans