Physical, Chemical, and Biological Properties of Chitosan-Coated Alginate Microparticles Loaded with Porcine Interleukin-1ß: A Potential Protein Adjuvant Delivery System.

We previously developed chicken interleukin-1ß (IL-1ß) mutants as single-dose adjuvants that induce protective immunity when co-administered with an avian vaccine. However, livestock such as pigs may require a vaccine adjuvant delivery system that provides long-lasting protection to reduce the need for successive booster doses. Therefore, we developed chitosan-coated alginate microparticles as a carrier for bovine serum albumin (BSA) or porcine IL-1ß (pIL-1ß) and assessed their physical, chemical, and biological properties. Electrospraying of the BSA-loaded alginate microparticles (BSA/ALG MPs) resulted in an encapsulation efficiency of 50%, and those MPs were then coated with chitosan (BSA/ALG/CHI MPs). Optical and scanning electron microscopy, zeta potential analysis, and Fourier transform infrared spectroscopy were used to characterize these MPs. The BSA encapsulation parameters were applied to ALG/CHI MPs loaded with pIL-1ß, which were not cytotoxic to porcine fibroblasts but had enhanced bio-activity over unencapsulated pIL-1ß. The chitosan layer of the BSA/ALG/CHI MPs prevented burst release and facilitated sustained release of pIL-1ß for at least 28 days. In conclusion, BSA/ALG/CHI MPs prepared as a carrier for pIL-1ß may be used as an adjuvant for the formulation of pig vaccines.

Dopaminergic neuron injury in Parkinson's disease is mitigated by interfering lncRNA SNHG14 expression to regulate the miR-133b/ α-synuclein pathway.

This study explored the influence of long non-coding RNA (lncRNA) SNHG14 on α-synuclein (α-syn) expression and Parkinson's disease (PD) pathogenesis. Firstly, we found that the expression level of SNHG14 was elevated in brain tissues of PD mice. In MN9D cells, the rotenone treatment (1µmol/L) enhanced the binding between transcriptional factor SP-1 and SNHG14 promoter, thus promoting SNHG14 expression. Interference of SNHG14 ameliorated the DA neuron injury induced by rotenone. Next, we found an interaction between SNHG14 and miR-133b. Further study showed that miR-133b down-regulated α-syn expression by targeting its 3'-UTR of mRNA and SNHG14 could reverse the negative effect of miR-133b on α-syn expression. Interference of SNHG14 reduced rotenone-induced DA neuron damage through miR-133b in MN9D cells and α-syn was responsible for the protective effect of miR-133b. Similarly, interference of SNHG14 mitigated neuron injury in PD mouse model. All in all, silence of SNHG14 mitigates dopaminergic neuron injury by down-regulating α-syn via targeting miR-133b, which contributes to improving PD.

[A missense SNP in the codon of ADD1 phosphorylation site associated with non-cardia gastric cancer susceptibility in a Chinese population].

OBJECTIVE: This study investigated the association between a missense SNP in the codon of ADD1 phosphorylation site and the susceptibility of non-cardia gastric cancer in a Chinese population. METHODS: PhosphoSitePlus and dbSNP database were combined to discover missense SNPs in the codon of phosphorylation site. Then, we genotyped the missense SNP in 1, 998 cases with non-cardia gastric cancer and 2, 008 cancer-free controls of Chinese descent. Analysis was conducted by using Logistic model adjusted by gender and age. RESULTS: The rs4963 in the codon of ADD1 phosphorylation site was found. The frequencies of the 3 rs4963 genotypes, CC, CG, GG, among controls were 25.2%, 50.4%, and 24.4%, respectively, among patients were 20.1%, 50.6%, and 29.3%, respectively. Compared with CC genotype, the rs4963 CG genotype and GG genotype significantly increased the risk of non-cardia gastric cancer with the odds ratios being 1.24 (95%CI: 1.06 ∼ 1.46, P = 0.008) and 1.49 (95%CI: 1.25 ∼ 1.78, P < 0.001), respectively. CONCLUSIONS: Fnnctional polymorphism in the phosphorylation site of ADD1 (rs4963) may influence the susceptibility of non-cardia gastric cancer.