The Burkholderia cenocepacia type VI secretion system effector TecA is a virulence factor during lung infection

Abstract

AbstractBurkholderia cenocepacia (Bc) is a member of the Burkholderia cepacia complex (Bcc), a group of bacteria with members responsible for causing lung infections in cystic fibrosis (CF) patients. The most severe outcome of Bcc infection in CF patients is cepacia syndrome, a disease characterized by necrotizing pneumonia with bacteremia and sepsis. Bc is strongly associated with cepacia syndrome making it one of the most virulent members of the Bcc. Mechanisms underlying the pathogenesis of Bc in lung infections and cepacia syndrome remain to be uncovered. Bc is primarily an intracellular pathogen, and encodes the type VI secretion system (T6SS) anti-host effector TecA, which is translocated into host cells. TecA is a deamidase that inactivates multiple Rho GTPases, including RhoA. Inactivation of RhoA by TecA triggers assembly of the pyrin inflammasome, leading to secretion of proinflammatory cytokines such as IL-1β from macrophages. Previous work with the Bc clinical isolate J2315 showed that TecA increases immunopathology during acute lung infection in C57BL/6 mice and suggested that this effector acts as a virulence factor by triggering assembly of the pyrin inflammasome. Here, we extend these results using a second Bc clinical isolate, AU1054, to demonstrate that TecA exacerbates weight loss and lethality during lung infection in C57BL/6 mice and CF mice. Unexpectedly, pyrin was dispensable for TecA virulence activity in both mouse infection models. Our findings establish that TecA is a Bc virulence factor that exacerbates lung inflammation, weight loss, and lethality in a mouse lung infection model.ImportanceBc is often considered the most virulent species in the Bcc because of its close association with cepacia syndrome in addition to its capacity to cause chronic lung infections in CF patients (Loutet and Valvano 2010). Prior to this study virulence factors of Bc important for causing lethal disease had not been identified in a CF animal model of lung infection. Results of this study describe a CF mouse model and its use in demonstrating that the T6SS effector TecA of Bc exacerbates inflammatory cell recruitment and weight loss and is required for lethality and thus acts as a key virulence factor during lung infection. This model will be important in further studies to better understand TecA’s role as a virulence factor and in investigating ways to prevent or treat Bc infections in CF patients. Additionally, TecA may be the founding member of a family of virulence factors in opportunistic pathogens.