AI Article Synopsis
- Recent studies suggest that lung microbiota influences immune responses in the lungs and that toll-like receptors (TLRs) play a crucial role in maintaining lung health.
- Researchers investigated how the absence of TLRs affects lung microbiota by comparing TLR-deficient mice to wild-type mice and found significant differences in community composition, diversity, and bacterial levels in the lungs.
- The study concluded that TLR signaling is important for shaping the lung microbiota, demonstrating that TLR-deficient mice have distinct microbiota profiles that are relatively stable despite varying environmental conditions.
Article Abstract
Recent studies have implicated lung microbiota in shaping local alveolar immune responses. Toll-like receptors are major sensors of microbiota and determinants of local epithelial homeostasis. The impact of toll-like receptor deficiency on lung microbiota is unknown. To determine whether the absence of toll-like receptors results in altered lung microbiota or dysbiosis, we compared lung microbiota in wild-type and toll-like receptor-deficient experimental mice using 16S ribosomal RNA gene quantification and sequencing. We used a randomized environmental caging strategy to determine the impact of toll-like receptors on lung microbiota. Lung microbiota are detectable in toll-like receptor-deficient experimental mice and exhibit considerable variability. The lung microbiota of toll-like receptor-deficient mice are altered in community composition (PERMANOVA < 0.001), display reduced diversity ( test = 0.0075), and bacterial burden ( test = 0.016) compared with wild-type mice with intact toll-like receptors and associated signaling pathways. The lung microbiota of wild-type mice when randomized to cages with toll-like receptor-deficient mice converged with no significant difference in community composition (PERMANOVA > 0.05) after 3 wk of cohousing. The lung microbiome of toll-like receptor-deficient mice is distinct from wild-type mice and may be less susceptible to the effects of caging as an environmental variable. Our observations support a role for toll-like receptor signaling in the shaping of lung microbiota.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8410110 | PMC |
| http://dx.doi.org/10.1152/ajplung.00002.2021 | DOI Listing |
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