Abstract
Chronic administration of glucocorticoids has been shown to render individuals highly susceptible to mycobacterial infection and lead to reactivation of latent bacilli. However, the effect of glucocorticoids on innate anti-mycobacterial defense, especially in macrophages remains largely unknown. Here, we found that glucocorticoids inhibited the innate immune response, antimicrobial nitric oxide production and autophagy in mycobacteria-challenged macrophages. Meanwhile, maturation and acidification of mycobacterial phagosomes were attenuated in RAW264.7 cells after glucocorticoids treatment. Consequently, we observed a glucocorticoid-induced increase in the survival of intracellular mycobacteria in both primary macrophages and cell lines. Glucocorticoids treatment decreased the activation of TBK1 kinase, which promotes the maturation of autophagosomes. Inhibition of TBK1 also decreased the production of nitric oxide. Furthermore, several autophagy-related genes were down-regulated, while activation of the Akt/mTOR signaling pathway was increased after glucocorticoids treatment, which may account for autophagy inhibition during mycobacterial infection. Restoration of autophagy with the agonist rapamycin abolished glucocorticoid-mediated enhancement of mycobacterial survival, suggesting that glucocorticoids blocked anti-mycobacterial defense via autophagy inhibition. Collectively, this study demonstrates that glucocorticoids impair innate antimicrobial autophagy and promote mycobacterial survival in macrophages, which is a novel mechanism for glucocorticoid-mediated immunosuppression. Our findings may provide important clues for tuberculosis prevention.
Highlights
Agent glucocorticoids, may disrupt host anti-mycobacterial defense
Mammalian target of rapamycin, a highly conserved serine/threonine kinase, serves as a master negative regulator of autophagy induction22. mTOR negatively regulates autophagy by inhibiting the function of the unc-51-like kinase 1 (ULK1)/ULK2 complex, which plays an important role in autophagy initiation22. mTOR is inhibited by the immunosuppressant rapamycin, which is generally used as an autophagy agonist. mTOR activation is regulated downstream of the class I PI3K- and v-akt murine thymoma viral oncogene homolog (Akt)/protein kinase B (PKB) pathway, and activation of the PI3K-Akt pathway activates mTOR, resulting in suppression of autophagy[22]
We found that the activation of TANK-binding kinase 1 (TBK1) and key autophagy-related genes (ATGs) expression were down-regulated, while the activation of the Akt/mTOR signaling pathway was enhanced in glucocorticoid-treated macrophages, hindering autophagic flux
Summary
Agent glucocorticoids, may disrupt host anti-mycobacterial defense. it is crucial to identify risk factors for TB and elucidate the underlying mechanisms for effective prevention of TB reactivation in the future. Glucocorticoids are steroid hormones that control a variety of fundamental metabolic and homeostatic functions. The invading bacilli are sensed by pattern recognition receptors (PRRs), which initiate the host innate immune response in macrophages[13]. Pro-inflammatory cytokines and chemokines are secreted at the infection site to recruit different types of leukocytes and orchestrate immune responses and host anti-mycobacterial defense. Numerous studies in the last decade have demonstrated that the autophagy pathway is activated via PRR signaling or other immunological stimuli, such as T cell-derived IFN-γ, to exert antimicrobial effects[15, 16]. MTOR negatively regulates autophagy by inhibiting the function of the unc-51-like kinase 1 (ULK1)/ULK2 complex, which plays an important role in autophagy initiation. TANK-binding kinase 1 (TBK1) coordinates assembly and function of the autophagic machinery by phosphorylating the autophagic adaptor p62 (sequestosome1), promoting the maturation of autophagosomes and the elimination of intracellular mycobacteria[23]
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