1.
Cigarette Smoke Extract Disturbs Mitochondria-Regulated Airway Epithelial Cell Responses to Pneumococci.
Aghapour, M, Tulen, CBM, Abdi Sarabi, M, Weinert, S, Müsken, M, Relja, B, van Schooten, FJ, Jeron, A, Braun-Dullaeus, R, Remels, AH, et al
Cells. 2022;11(11)
-
-
-
Free full text
Plain language summary
Cigarette smoking can affect airway epithelial cells, causing overproduction of mucus, damage, and inflammation, which may result in the progression of airway diseases. Airway epithelial cells (AEC) rely on mitochondria for energy, and mitochondrial dysfunction may affect innate immunity and the integrity of the airway epithelium. Cigarette smoking is found to accelerate mitochondrial damage within AEC. Maintaining a normal microbial composition within the respiratory tract is essential for maintaining immunity. There is evidence that smoking cigarettes disrupts the microbial composition and increases the spread of pathogenic bacteria such as Streptococcus pneumoniae (Sp) which causes inflammation. By exposing 16HBE cells to Sp and cigarette smoke extract (CSE), this study investigated the effect of cigarette smoking on mitochondrial dysfunction in ACE in an in vitro model. Additionally, the study examined the direct and indirect pathways involved in cigarette smoking-induced mitochondrial dysfunction and altered innate immune response to Sp infection. CSE exposure decreases mitochondrial complex protein levels and mitochondrial membrane potential, which affects energy production. It also increases mitochondrial oxidative stress and mitochondrial degradation. All these factors lead to mitochondrial dysfunction in ACE. CSE exposure to ACE was associated with altered gene expression in the tight and adherence junctions that serve as a protective barrier against pathogens and pollutants and reduced type I interferon immune responses to Sp. Using the results of this study, healthcare professionals can gain a better understanding of the impact of cigarette smoking on mitochondrial dysfunction and how it increases susceptibility to Sp-related immune responses. It is necessary to conduct further studies to evaluate the effects of cigarette smoking on mitochondrial dysfunction, microbial composition disruption, and the interaction between AECs and elevated immune responses.
Abstract
Mitochondrial functionality is crucial for the execution of physiologic functions of metabolically active cells in the respiratory tract including airway epithelial cells (AECs). Cigarette smoke is known to impair mitochondrial function in AECs. However, the potential contribution of mitochondrial dysfunction in AECs to airway infection and airway epithelial barrier dysfunction is unknown. In this study, we used an in vitro model based on AECs exposed to cigarette smoke extract (CSE) followed by an infection with Streptococcus pneumoniae (Sp). The levels of oxidative stress as an indicator of mitochondrial stress were quantified upon CSE and Sp treatment. In addition, expression of proteins associated with mitophagy, mitochondrial content, and biogenesis as well as mitochondrial fission and fusion was quantified. Transcriptional AEC profiling was performed to identify the potential changes in innate immune pathways and correlate them with indices of mitochondrial function. We observed that CSE exposure substantially altered mitochondrial function in AECs by suppressing mitochondrial complex protein levels, reducing mitochondrial membrane potential and increasing mitochondrial stress and mitophagy. Moreover, CSE-induced mitochondrial dysfunction correlated with reduced enrichment of genes involved in apical junctions and innate immune responses to Sp, particularly type I interferon responses. Together, our results demonstrated that CSE-induced mitochondrial dysfunction may contribute to impaired innate immune responses to Sp.
2.
The Human Vulvar Microbiome: A Systematic Review.
Pagan, L, Ederveen, RAM, Huisman, BW, Schoones, JW, Zwittink, RD, Schuren, FHJ, Rissmann, R, Piek, JMJ, van Poelgeest, MIE
Microorganisms. 2021;9(12)
-
-
-
Free full text
Plain language summary
Vaginal microbiome composition and its link with cancer is an emerging area in research. Imbalances in the vaginal microbiome could initiate carcinogenesis by altering immunity and metabolism and accelerating inflammation. This systematic review included ten studies and assessed the vulvar microbiome in premalignant vulvar disease and healthy vulvar skin. The healthy vulvar skin showed several bacterial taxa of Lactobacillus, Corynebacterium, Staphylococcus and Prevotella of intestinal, cutaneous and vaginal origin. L. crispatus and L. iners were dominant on the vulva of most healthy women. L. gasseri dominance was non-significantly associated with vestibulodynia. Menstruation did not alter the bacterial composition. Premenarchial Lichen sclerosus may have an association with microbial dysbiosis. Further robust studies are required to identify the vaginal microbial composition due to the high heterogeneity of the studies included, small sample size and methodological limitations. Healthcare professionals can utilise the data from this study to better understand how the vulvar microbiome influences disease aetiology and its importance as a target for therapy.
Abstract
The link between cancer and the microbiome is a fast-moving field in research. There is little knowledge on the microbiome in ((pre)malignant) conditions of the vulvar skin. This systematic review aims to provide an overview of the literature regarding the microbiome composition of the healthy vulvar skin and in (pre)malignant vulvar disease. This study was performed according to the PRISMA guidelines. A comprehensive, electronic search strategy was used to identify original research articles (updated September 2021). The inclusion criteria were articles using culture-independent methods for microbiome profiling of the vulvar region. Ten articles were included. The bacterial composition of the vulva consists of several genera including Lactobacillus, Corynebacterium, Staphylococcus and Prevotella, suggesting that the vulvar microbiome composition shows similarities with the corresponding vaginal milieu. However, the vulvar microbiome generally displayed higher diversity with commensals of cutaneous and fecal origin. This is the first systematic review that investigates the relationship between microbiome and vulvar (pre)malignant disease. There are limited data and the level of evidence is low with limitations in study size, population diversity and methodology. Nevertheless, the vulvar microbiome represents a promising field for exploring potential links for disease etiology and targets for therapy.
3.
The effects of Berberis vulgaris consumption on plasma levels of IGF-1, IGFBPs, PPAR-γ and the expression of angiogenic genes in women with benign breast disease: a randomized controlled clinical trial.
Pirouzpanah, S, Asemani, S, Shayanfar, A, Baradaran, B, Montazeri, V
BMC complementary and alternative medicine. 2019;19(1):324
-
-
-
Free full text
Plain language summary
Individuals diagnosed with benign breast disease (BBD) are at an increased risk of developing breast cancer. A hormone known as insulin-like growth factor-1 (IGF-1) has been reported to correlate with the development of BBD into breast cancer. Berberis vulgaris (BV) is a herbal plant, which may have anti-cancer properties. Previous studies have reported alterations in proteins involved in tumour growth upon regular consumption, but none have looked at IGF-1 in individuals with BBD. This randomised double-blind trial aimed to study the effects of BV on IGF-1 and other proteins involved in tumour growth in 85 women recently diagnosed with BBD over an 8-week period. The results showed that compliance to BV treatment was high. IGF-1 significantly decreased within both groups. When compared to each other, there was a 16% drop in IGF-1 in the BV group compared to the placebo group. Several proteins and growth factors were also altered by BV treatment in favour of reducing breast cancer risk. The authors concluded that BV juice may reduce the risk of BBD turning into breast cancer. Clinicians could use this study to recommend regular consumption of BV to individuals with BBD as part of a wellness regime to reduce their risk of developing breast cancer.
Abstract
BACKGROUND The present study was designed to investigate the effects of Berberis vulgaris (BV) juice consumption on plasma levels of insulin-like growth factor (IGF-1), IGF-binding proteins (IGFBPs), and the expression of PPAR-γ, VEGF and HIF in women with benign breast disease. METHODS This parallel design randomized, double-blind controlled clinical trial was conducted on 85 eligible patients diagnosed with benign breast disease. They were assigned randomly into either BV juice group (n = 44, BV juice: 480 ml/day) or placebo group (n = 41, BV placebo juice: 480 ml/day) for 8 weeks intervention. Participants, caregivers and those who assessed laboratory analyses were blinded to the assignments. Plasma levels of biomarkers were measured at baseline and after 8 weeks by ELISA. Quantitative real-time PCR was used to measure the fold change in the expression of each interested gene. RESULTS The compliance of participants was 95.2% and 40 available subjects analyzed in each group at last. Relative treatment (RT) effects for BV juice caused 16% fall in IGF-1 concentration and 37% reduction in the ratio of IGF-1/1GFBP1. Absolute treatment effect expressed 111 ng/ml increased mean differences of IGFBP-3 between BV group and placebo. Plasma level of PPAR-γ increased in both groups but it was not significant. Fold changes in the expressions of PPAR-γ, VEGF and HIF showed down-regulation in the intervention group compared to placebos (P < 0.05). CONCLUSIONS The BV juice intervention over 8 weeks was accompanied by acceptable efficacy and decreased plasma IGF-1, and IGF-1/IGFBP-1 ratio partly could be assigned to enhanced IGFBP-1 level in women with BBD. The intervention caused reductions in the expression levels of PPAR, VEGF, and HIF which are remarkable genomic changes to potentially prevent breast tumorigenesis. TRIAL REGISTRATION IRCT2012110511335N2. Registered 10 July 2013 (retrospectively registered).