Your search keyword '"Musavian HS"' showing total 5 results

1. The microbiome: an integral player in immune homeostasis and inflammation in the respiratory tract.

Author

Perdijk, Olaf, Azzoni, Rossana, and Marsland, Benjamin J.

Subjects

HOMEOSTASIS, ASTHMA in children, INFLAMMATION, INFANT diseases, PATHOGENIC bacteria

Abstract

The last decade of microbiome research has highlighted its fundamental role in systemic immune and metabolic homeostasis. The microbiome plays a prominent role during gestation and into early life, when maternal lifestyle factors shape immune development of the newborn. Breast milk further shapes gut colonization, supporting the development of tolerance to commensal bacteria and harmless antigens while preventing outgrowth of pathogens. Environmental microbial and lifestyle factors that disrupt this process can dysregulate immune homeostasis, predisposing infants to atopic disease and childhood asthma. In health, the low-biomass lung microbiome, together with inhaled environmental microbial constituents, establishes the immunological set point that is necessary to maintain pulmonary immune defense. However, in disease perturbations to immunological and physiological processes allow the upper respiratory tract to act as a reservoir of pathogenic bacteria, which can colonize the diseased lung and cause severe inflammation. Studying these host-microbe interactions in respiratory diseases holds great promise to stratify patients for suitable treatment regimens and biomarker discovery to predict disease progression. Preclinical studies show that commensal gut microbes are in a constant flux of cell division and death, releasing microbial constituents, metabolic by-products, and vesicles that shape the immune system and can protect against respiratory diseases. The next major advances may come from testing and utilizing these microbial factors for clinical benefit and exploiting the predictive power of the microbiome by employing multiomics analysis approaches. [ABSTRACT FROM AUTHOR]

Published

2024

2. Characterization of the lung microbiome and inflammatory cytokine levels in women exposed to environmental risk factors: A pilot study.

Author

Morales‐González, Fernando, Lira‐Lucio, Juan A., Falfán‐Valencia, Ramcés, Márquez‐García, José E., Abarca‐Rojano, Edgar, Ramírez‐Venegas, Alejandra, Sansores, Raúl H., García‐Gómez, Leonor, Hernández‐Pérez, Andrea, and Pérez‐Rubio, Gloria

Subjects

ENVIRONMENTAL risk, LUNG diseases, SMOKING, LUNGS, ENZYME-linked immunosorbent assay, INTERSTITIAL lung diseases

Abstract

Introduction: Lung microbiome dysbiosis affects the immune system balance and promotes lung inflammation. We aimed to characterize and compare the lung bacteriome composition and the cytokine profile in women with normal lung function exposed to risk factors for chronic lung diseases (tobacco smoking and biomass‐burning smoke exposure). Methods: We included women with biomass‐burning smoke exposure (BE, n = 11) and current smokers women (TS, n = 10). The bacteriome composition was performed in induced sputum, sequencing the 16 rRNA gene. Cytokine levels were measured using enzyme‐linked immunosorbent assay multiplex assay in the supernatant of induced sputum. For quantitative variables, we used medians and minimum and maxim values. For the amplicon sequence variants (ASV) differential abundance testing between groups. Results: At the taxa level, the phylum Proteobacteria was found in a higher proportion in the TS group concerning BE (p =.045); however, after the false discovery rate adjustment, this difference was not retained (p =.288). We found a higher concentration of IL‐1β in the TS group than in the BE group (248.6 vs. 177.9 pg/mL, p =.010). Women with high biomass‐burning smoke exposure in an hour per day had a positive correlation with the abundance of Bacteroidota (ρ = 0.71, p =.014) and Fusobacteriota (ρ = 0.73, p =.011). FEV1/FVC had a positive correlation with an abundance of Bacteroidota, Proteobacteria, and Fusobacteria (ρ = 0.74, p =.009, ρ = 0.85, p =.001, and ρ = 0.83, p =.001, respectively). In tobacco smoking, women had a positive correlation (ρ = 0.77, p =.009) between cigarettes per day and Firmicutes' abundance. Conclusion: Compared to biomass‐burning smoke‐exposed women, current smokers have poor lung function and high levels of IL‐1β in sputum. Women with biomass‐burning smoke exposure present an increased abundance of Bacteroidota and Fusobacteriota. [ABSTRACT FROM AUTHOR]

Published

2023

3. Divergent airway microbiomes in lung transplant recipients with or without pulmonary infection.

Author

Påhlman, Lisa I., Manoharan, Lokeshwaran, and Aspelund, Anna Stjärne

Subjects

LUNG transplantation, LUNG infections, AIRWAY (Anatomy), BACTERIAL diversity, PSEUDOMONAS aeruginosa, INFECTION

Abstract

Background: Lung transplant (LTx) recipients are at increased risk for airway infections, but the cause of infection is often difficult to establish with traditional culture-based techniques. The objectives of the study was to compare the airway microbiome in LTx patients with and without ongoing airway infection and identify differences in their microbiome composition.Methods: LTx recipients were prospectively followed with bronchoalveolar lavage (BAL) during the first year after transplantation. The likelihood of airway infection at the time of sampling was graded based on clinical criteria and BAL cultures, and BAL fluid levels of the inflammatory markers heparin-binding protein (HBP), IL-1β and IL-8 were determined with ELISA. The bacterial microbiome of the samples were analysed with 16S rDNA sequencing and characterized based on richness and evenness. The distance in microbiome composition between samples were determined using Bray-Curtis and weighted and unweighted UniFrac.Results: A total of 46 samples from 22 patients were included in the study. Samples collected during infection and samples with high levels of inflammation were characterized by loss of bacterial diversity and a significantly different species composition. Burkholderia, Corynebacterium and Staphylococcus were enriched during infection and inflammation, whereas anaerobes and normal oropharyngeal flora were less abundant. The most common findings in BAL cultures, including Pseudomonas aeruginosa, were not enriched during infection.Conclusion: This study gives important insights into the dynamics of the airway microbiome of LTx recipients, and suggests that lung infections are associated with a disruption in the homeostasis of the microbiome. [ABSTRACT FROM AUTHOR]

Published

2021

4. The impact of lung microbiota dysbiosis on inflammation.

Author

Yang, Daping, Xing, Yingying, Song, Xinyang, and Qian, Youcun

Subjects

LUNGS, GUT microbiome, INFLAMMATION, IMMUNE response, IMMUNE system

Abstract

Summary: Host−microbiota interaction plays fundamental roles in the homeostasis of mucosal immunity. Dysbiosis of intestinal microbiota has been demonstrated to participate in various immune responses and many multifactorial diseases. Study of intestinal microbiota has moved beyond the consequences of dysbiosis to the causal microbiota associated with diseases. However, studies of pulmonary microbiota and its dysbiosis are still in their infancy. Improvement of culture‐dependent and ‐independent techniques has facilitated our understanding of lung microbiota that not only exists in healthy lung tissue but also exerts great impact on immune responses under both physiological and pathological conditions. In this review, we summarize recent progresses of lung microbiota dysbiosis and its impact on the local immune system that determines the balance of tolerance and inflammation. We discuss the causal roles of pulmonary dysbiosis under disease settings, and propose that the interaction between lung microbiota and host is critical for establishing the immune homeostasis in lung. [ABSTRACT FROM AUTHOR]

Published

2020

5. The immune response to Prevotella bacteria in chronic inflammatory disease.

Author

Larsen, Jeppe Madura

Subjects

PREVOTELLA, IMMUNOLOGY of inflammation, T helper cells, INTERLEUKIN-8, RHEUMATOID arthritis

Abstract

The microbiota plays a central role in human health and disease by shaping immune development, immune responses and metabolism, and by protecting from invading pathogens. Technical advances that allow comprehensive characterization of microbial communities by genetic sequencing have sparked the hunt for disease-modulating bacteria. Emerging studies in humans have linked the increased abundance of Prevotella species at mucosal sites to localized and systemic disease, including periodontitis, bacterial vaginosis, rheumatoid arthritis, metabolic disorders and low-grade systemic inflammation. Intriguingly, Prevotella abundance is reduced within the lung microbiota of patients with asthma and chronic obstructive pulmonary disease. Increased Prevotella abundance is associated with augmented T helper type 17 (Th17) -mediated mucosal inflammation, which is in line with the marked capacity of Prevotella in driving Th17 immune responses in vitro. Studies indicate that Prevotella predominantly activate Toll-like receptor 2, leading to production of Th17-polarizing cytokines by antigen-presenting cells, including interleukin-23 ( IL-23) and IL-1. Furthermore, Prevotella stimulate epithelial cells to produce IL-8, IL-6 and CCL20, which can promote mucosal Th17 immune responses and neutrophil recruitment. Prevotella-mediated mucosal inflammation leads to systemic dissemination of inflammatory mediators, bacteria and bacterial products, which in turn may affect systemic disease outcomes. Studies in mice support a causal role of Prevotella as colonization experiments promote clinical and inflammatory features of human disease. When compared with strict commensal bacteria, Prevotella exhibit increased inflammatory properties, as demonstrated by augmented release of inflammatory mediators from immune cells and various stromal cells. These findings indicate that some Prevotella strains may be clinically important pathobionts that can participate in human disease by promoting chronic inflammation. [ABSTRACT FROM AUTHOR]

Published

2017