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Cigarette Smoke Hinders Innate Immune Response to Pneumococcal Infection

Key Takeaways

  • Cigarette smoking impairs macrophage function, reducing innate immune response against pneumococcal infection and increasing infection susceptibility.
  • Smokers have more potential pathogens in their nasopharyngeal flora, leading to increased bacterial colonization and lung inflammation.
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Known to be a leading cause of mortality worldwide, cigarette smoke exposure can make the respiratory tract more susceptible to pneumococcal infection.

Cigarette smoking can manipulate signaling molecules to subvert macrophage functions, hindering the innate immune response against pneumococcal infection and promoting infectivity, according to new trial results published in the Journal of Microbiology, Immunology, and Infection.1

Streptococcus pneumoniae bacteria, 3D scientific illustration

Bacterial infections such as those caused by Streptococcus pneumoniae can be aided by a respiratory tract affected by cigarette smoke. | Image Credit: Dr_Microbe | stock.adobe.com

One of the leading causes of mortality worldwide, cigarette smoke (CS) inhalation can lead to acute lung and respiratory tract inflammation. This is associated with bacterial colonization; when bacteria such as pneumococcus enter the respiratory tract, bacterial colonization can occur. Smokers have more potential pathogens in their nasopharyngeal flora than non-smokers.2

In vivo models have demonstrated that pneumococcal infection and exposure to CS can synergistically aggravate lung damage. Streptococcus pneumoniae infection was observed to induce lung damage and alter microbiota composition for a longer time compared to control groups infected, but not exposed to CS. Despite these indications, the mechanisms behind CS-induced pulmonary inflammation in response to bacterial infection have yet to be examined.1,3

The investigators sought to analyze whether CS can manipulate innate immune signaling against pneumococcal infection. Cell-based models with CS-exposed murine macrophages were established and then challenged with pneumococci to examine bacterial clearance and innate responses to infection.1

First, the effects of cigarette smoke extract (CSE) on pneumococcal internalization by macrophages were examined. Results indicated that, compared with the mock treatment utilized as a comparison, 5% CSE exposure suppressed phagocytosis by macrophages; macrophage internalization of pneumococci was found to be significantly reduced upon 5% CSE treatment.1

Differential cytokine production in macrophages were then identified. Co-treatment of CSE and pneumococci with a cytokine array led to the production of several cytokines in macrophages, with the secretion of CCL2, CCL4, CCL3, CXCL2, and CXCL-10 in pneumococcus-infected cells reduced due to CSE treatment.1

The mRNA levels of these cytokines were subsequently assessed; the study authors found that the mRNA levels were increased in the pneumococcal-infected group compared with the mock group, but that mRNA levels were considerably decreased following CSE exposure.1

Toll-like receptor 2 (TLR2) and nucleotide-binding oligomerization domain 2 (NOD2) signaling are involved in pneumococcus-induced cytokine production innate cells. The investigators found that TLR2 and NOD2 levels were reduced in CSE-treated macrophages challenged with pneumococci, suggesting that CSE hampers the innate ability of macrophages to recognize pneumococci.1

Macrophages, which act as innate immune cells and are essential in defending the body against microbial infections, can often be overcome by pathogens by inducing macrophage subversion, reducing pulmonary immune response and exacerbating microbial infectivity. Thus, smoking cigarettes constitute a substantial risk for respiratory tract hyper-responsiveness and pathogen infections.1,4

The present trial, according to the investigators, has established a reliable CSE-exposed macrophage cell model while thoroughly investigating the potential mechanisms of how CSE affects macrophage functions in response to pneumococcal infection. However, they caution that the in vitro model established in the trial may not fully reflect host pathophysiology.1

“Understanding the mechanism of how CS affects macrophage functions may help in the identification of new methods for restoring cellular function in patients with pneumococcal infection,” the investigators concluded.1

REFERENCES
1. Liao W, Chou C, Ho M, et al. Cigarette smoke compromises macrophage innate sensing in response to pneumococcal infection. J Microbio, Immuno, Infect. Available online October 28, 2024. doi:10.1016/j.j.mii.2024.10.001
2. Brook I, Gober AE. Recovery of potential pathogens and interfering bacteria in the nasopharynx of smokers and nonsmokers. Chest. 2005;127(6):2072-2075. doi:10.1378/chest.127.6.2072
3. Hitly M, Wüthrich TM, Godel A, et al. Chronic cigarette smoke exposure and pneumococcal infection induce oropharyngeal microbiota dysbiosis and contribute to long-lasting lung damage in mice. Microbial Genomics. 2020;6(12). doi:10.1099/mgen.0.000485
4. Neupane A, Willson M, Chojnacki AK, et al. Patrolling alveolar macrophages conceal bacteria from the immune system to maintain homeostasis. Cell. 2020;183(1):110-125. doi:10.1016/j.cell.2020.08.020
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