Cycle-Inhibiting Factor Is Associated with Burkholderia pseudomallei Invasion in Human Neuronal Cells.

Abstract

Simple SummaryNeurological melioidosis, caused by Burkholderia pseudomallei, can lead to the development of severe symptoms associated with the nervous system. However, the pathogenic mechanism through which this bacterium infects neuronal cells has not been studied. This study showed that B. pseudomallei can infect human neuronal SH-SY5Y cells in vitro. Cycle-inhibiting factor (Cif), a type III secreted effector, is one of the virulence factors produced by B. pseudomallei upon infection. The B. pseudomallei cif-deleted mutant reduced the ability to invade neuronal cells compared with the parental strain. Our finding indicates that Cif is associated with B. pseudomallei invasion of human neuronal cells.Burkholderia pseudomallei is a pathogenic bacterium that causes human melioidosis, which is associated with a high mortality rate. However, the underlying mechanisms of B. pseudomallei pathogenesis are largely unknown. In this study, we examined the infection of human neuronal SH-Sy5y cells by several clinically relevant B. pseudomallei strains. We found that all tested B. pseudomallei strains can invade SH-Sy5y cells, undergo intracellular replication, cause actin-tail formation, and form multinucleated giant cells. Additionally, a deletion mutant of B. pseudomallei cycle-inhibiting factor (cif) was constructed that exhibited reduced invasion in SH-Sy5y cells. Complementation of cif restored invasion of the B. pseudomallei cif-deleted mutant. Our findings enhance understanding of B. pseudomallei pathogenicity in terms of the virulence factor Cif and demonstrate the function of Cif in neurological melioidosis. This may eventually lead to the discovery of novel targets for treatment and a strategy to control the disease.