Abstract
During chronic infection with Mycobacterium tuberculosis (Mtb), bacilli multiplication is constrained within lung granulomas until excessive inflammation destroys the lung. Neutrophils are recruited early and participate in granuloma formation, but excessive neutrophilia exacerbates the tuberculosis disease. Neutrophils thus appear as potential targets for therapeutic interventions, especially in patients for whom no antibiotic treatment is possible. Signals that regulate neutrophil recruitment to the lung during mycobacterial infection need to be better understood. We demonstrated here, in the mouse model, that neutrophils were recruited to the lung in two waves after intranasal infection with virulent Mtb or the live attenuated vaccine strain Bacillus Calmette Guérin (BCG). A first wave of neutrophils was swiftly recruited, followed by a subsequent adaptive wave that reached the lung together with IFN-γ- and IL-17A-producing T cells. Interestingly, the second neutrophil wave did not participate to mycobacteria control in the lung and established contacts with T cells. The adaptive wave was critically dependent on the expression of IL-17RA, the receptor for IL-17A, expressed in non-hematopoietic cells. In absence of this receptor, curtailed CXCL-1 and 5 production in the lung restrained neutrophil recruitment. CXCL-1 and 5 instillation reconstituted lung neutrophil recruitment in BCG-infected IL17RA-/- mice.
Highlights
IntroductionFollowing exposure to virulent Mycobacterium tuberculosis (Mtb), one of the three leading infectious cause of human mortality [1], a large number of individuals do not show evidence of T-cell sensitization suggesting that innate mechanisms in the lung may clear infection [2]
We decided to investigate the kinetics of neutrophil recruitment to the lung in response to live attenuated Bacillus Calmette Guérin (BCG) that is controlled by the host adaptive response, or virulent Mycobacterium tuberculosis (Mtb) that is not. 5x106 CFU of live attenuated BCG or 103 CFU of virulent Mtb were administered i.n. to target the lung
In order to gain more insight into pathways that control neutrophil recruitment to the lung during mycobacterial infection, we decided to use two different models
Summary
Following exposure to virulent Mycobacterium tuberculosis (Mtb), one of the three leading infectious cause of human mortality [1], a large number of individuals do not show evidence of T-cell sensitization suggesting that innate mechanisms in the lung may clear infection [2]. The adaptive immune response, characterized by a delayed hypersensitivity reaction to tuberculin, is initiated. This is generally not enough to eradicate all bacilli and most people remain latently infected with Mtb. The estimated latent tuberculosis (TB) reservoir
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