Compositionally and functionally distinct sinus microbiota in chronic rhinosinusitis patients have immunological and clinically divergent consequences

Cope, Emily K.; Goldberg, Andrew N.; Pletcher, Steven D.; Lynch, Susan V.

doi:10.1186/s40168-017-0266-6

Cited by 136 publications

(181 citation statements)

References 72 publications

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“…Once considered sterile, we now know that healthy sinuses contain robust and diverse microbial communities . Within the sinuses, a similar mucosal bacterial burden is present regardless of the presence or severity of sinus disease, suggesting a confluent bacterial community may saturate mucosal surfaces in both diseased and healthy sinuses . Although mucosal bacteria are similar in number across disease states, community composition varies greatly …”

Section: Discussionmentioning

confidence: 99%

“…Barcoded primers 515F/806R were used to amplify the V4 region of the 16S rRNA gene as previously described . Amplicons were gel purified using a QIAGEN Gel Extraction kit per manufacturer protocol (QIAGEN).…”

Section: Methodsmentioning

confidence: 99%

“…Bacterial abundance within the sinuses appears similar in healthy and CRS patients, but the structure of these communities differs. There is a loss of microbial diversity in the sinuses of patients with CRS …”

Section: Introductionmentioning

confidence: 99%

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Loss of Microbial Niche Specificity Between the Upper and Lower Airways in Patients With Cystic Fibrosis

2018

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Objectives/Hypothesis To determine the relationship between mucosal‐associated sinus and bronchial microbiota in cystic fibrosis (CF) patients compared to non‐CF patients with chronic rhinosinusitis (CRS). Study Design Case series. Methods We examined the microbial composition of 52 paired sinus and bronchial brushings from 26 patients with CRS. Paired airway samples from nine subjects with CF were compared with samples from 17 non–CF‐CRS disease control patients. The Illumina MiSeq platform was used to sequence the V4 region of the 16S rRNA gene. Sequences were analyzed using QIIME 1.9.0. Results CF patients demonstrate increased severity of sinus inflammation (Lund‐Mackay score 16.3 vs. 12.4, P = .023) and diminished diversity of microbial communities in both the sinuses (Shannon diversity 0.98 vs. 3.3, P = .009) and lungs (Shannon diversity 2.2 vs. 4.0, P = .042) relative to non–CF‐CRS. Non–CF‐CRS sinus and lung microbiota were distinct and clustered by niche (sinus vs. lung, P = .004). However, CF airway microbiota demonstrated a loss of niche specificity (sinus vs. lung, P = .492). Two CF patients underwent lung transplantation at 4.5 and 9 months prior to sampling. Sinus and lung samples from these two patients demonstrated distinct microbial communities. Conclusions Patients with CF undergoing surgery for CRS exhibit substantial bacterial community collapse in the sinuses and a loss of niche specificity between the upper and lower airways compared to non‐CF patients with CRS. These results extend previous studies elucidating the lower airway microbiome in cystic fibrosis and provide support for the concept of microbial translocation in the cystic fibrosis airways. Level of Evidence 4 Laryngoscope, 129:544–550, 2019

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Loss of Microbial Niche Specificity Between the Upper and Lower Airways in Patients With Cystic Fibrosis

2018

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“…This was demonstrated in a study of lean and obese individuals who were better differentiated by their gut metagenome as opposed to their microbiota profile . Finally, recent biomarker sequencing studies of large patient cohorts have demonstrated that several distinct microbiota conformations are evident in patients with a given clinical indication and are related to differences in immunologic profiles and clinical features of disease . This implies that within a given diseased patient population several pathogenic microbiomes may exist; however, such possibilities remain unexplored in the field of NAFLD microbiome research.…”

Section: The Gut Microbiome In Nafldmentioning

confidence: 99%

Gut Microbial Metabolism and Nonalcoholic Fatty Liver Disease

et al. 2018

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The gut microbiome, the multispecies community of microbes that exists in the gastrointestinal tract, encodes several orders of magnitude more functional genes than the human genome. It also plays a pivotal role in human health, in part due to metabolism of environmental, dietary, and host‐derived substrates, which produce bioactive metabolites. Perturbations to the composition and associated metabolic output of the gut microbiome have been associated with a number of chronic liver diseases, including nonalcoholic fatty liver disease (NAFLD). Here, we review the rapidly evolving suite of next‐generation techniques used for studying gut microbiome composition, functional gene content, and bioactive products and discuss relationships with the pathogenesis of NAFLD.

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“…The sinonasal cavity has resident microbial flora that maintains environmental homeostasis. Data of the microbiome in healthy versus diseased sinus mucosa have yielded highly variable results, but studies do suggest a dysbiosis in patients with CRS as shown by reduced microbial diversity (richness and evenness) . Of them, Staphylococcus aureus (S aureus) , a strong inducers of NETs, was found to be significantly increased in CRSwNP .…”

Section: Discussionmentioning

confidence: 99%

LL‐37 promotes neutrophil extracellular trap formation in chronic rhinosinusitis with nasal polyps

Cao

Chen

Sun

et al. 2019

Clin Experimental Allergy

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Background Neutrophil accumulation has been observed in chronic rhinosinusitis with nasal polyps (CRSwNP). However, the functions of neutrophils are poorly understood. Neutrophils produce neutrophil extracellular traps (NETs), which are involved in a variety of chronic inflammatory pathologies. LL‐37 is the only member of the cathelicidin family in human. Objective Our aims were to examine the presence of NETs in CRSwNP and to investigate the regulatory effect of LL‐37 on NET formation. Methods Nasal polyp tissues were investigated for the presence of NETs by using immunofluorescent (IF) staining. The expression and distribution of LL‐37 were examined by using quantitative RT‐PCR, ELISA, IF, and immunohistochemistry. Purified peripheral neutrophils were stimulated with LL‐37 and stained with IF to identify NETs. NETs% was defined as percentage of NET‐generating neutrophils to the total number of neutrophils. Results Neutrophil extracellular traps were located in the subepithelial layer of nasal polyps and control tissues. Nasal polyps had higher NETs% compared with that of controls (23.01% ± 3.43% vs 4.52% ± 1.33%, P < 0.0001). NET count was also increased in nasal polyps. NET count correlated with neutrophil count (r = 0.908, P < 0.001). LL‐37 protein and mRNA levels were upregulated in nasal polyps. LL‐37 was distributed in the epithelial and subepithelial layer and mainly expressed by neutrophils. Moreover, LL‐37 promoted peripheral neutrophils to form NETs in a dose‐dependent manner ex vivo. Interestingly, dexamethasone did not inhibit the effect of LL‐37 on inducing NET formation. Furthermore, peripheral neutrophils from CRSwNP patients were more susceptible to LL‐37‐mediated NET formation, compared with neutrophils derived from control subjects. In addition, NETs released LL‐37 in vivo and ex vivo. Conclusion Neutrophil extracellular traps are significantly increased in nasal polyps and LL‐37 induces NET formation in CRSwNP patients. These findings indicate that NETs may contribute to the pathogenesis of neutrophilic inflammation in CRSwNP.

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Compositionally and functionally distinct sinus microbiota in chronic rhinosinusitis patients have immunological and clinically divergent consequences

Cited by 136 publications

References 72 publications

Loss of Microbial Niche Specificity Between the Upper and Lower Airways in Patients With Cystic Fibrosis

Loss of Microbial Niche Specificity Between the Upper and Lower Airways in Patients With Cystic Fibrosis

Gut Microbial Metabolism and Nonalcoholic Fatty Liver Disease

LL‐37 promotes neutrophil extracellular trap formation in chronic rhinosinusitis with nasal polyps

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