Effect of ubiquitin-proteasome system and autophagy-lysosome pathway on intracellular replication of Brucella.suis.

The ubiquitin-proteasome system (UPS) and autophagy-lysosome pathway (ALP) are two major protein degradation pathways in eukaryotic cells. In the present study, we investigated the role of two systems and their interaction after Brucella.suis (B.suis) infected RAW264.7 murine macrophage. We demonstrated that B.suis activated ALP by upregulating LC3-Ⅱlevels as well as incomplete inhibition of P62 expression in RAW264.7 cells. On the other hand, we used pharmacological agents to confirm that ALP contributed the intracellular proliferation of B.suis. At present, the studies on the relationship between UPS and Brucella remain less understanding. In the study, we demonstrated that UPS machinery was also activated by promoting expression of 20 s proteasome after B.suis infected RAW264.7 cells, and that, the UPS could also promote intracellular proliferation of B.suis. Many recent studies propose the close link and dynamic interconversion between UPS and ALP. Currently, the experiments demonstrated that after RAW264.7 cells infected B.suis, ALP was activated following UPS inhibition, while the UPS was not effectively activated after ALP inhibition. Last, we compared the ability to promote intracellular proliferation of B.suis between UPS and ALP. The results displayed that the ability of UPS to promote intracellular proliferation of B.suis was stronger than that of ALP, and simultaneous inhibition of UPS and ALP led to seriously affection on intracellular proliferation of B.suis. All above, our research provides a better understanding on the interaction between Brucella and both systems.

Type and abundance of sialic acid receptors on host cell membrane affect infectivity and viral titer of different strains of Newcastle disease virus.

Cell-based vaccine manufacture is a very cost-effective approach for animal vaccine production. Newcastle disease virus (NDV) can infect a wide range of host cells, but the viral titers of cell culture are too low to meet the vaccine manufacture. In this study, we explored the selectivity of NDV vaccine strains LaSota and Mukteswar to type of sialic acid receptors and demonstrated the relationship between receptor expression levels on cell membrane and viral titers of cell culture. The results suggested that NDV strain LaSota preferentially binds to Neu5Ac-2-S-α-2,6 Gal10Me receptor (SAα2,6 Gal) and strain Mukteswar selectively binds to Neu5Ac-α-2,3 Gal-ß-1,4Glc (SAα2,3 Gal) receptor. Subsequently, the expression levels of SAα2,3 Gal and SAα2,6 Gal receptors on BHK-21 cell membrane were adjusted by overexpression and RNAi assays. The results indicated that the viral titers of NDV strains LaSota and Mukteswar in cell culture were positively correlated with the expression levels of SAα2,6 Gal and SAα2,3 Gal receptors on host cell membrane respectively. In conclusion, our studies provide an understanding of the relationship between infectivity of NDV different strains and receptor types of host cell, and provide a method to increase viral titer of NDV for cell-based vaccine production.