Hubaida Fuseini scite author profile

Summary Sex hormones regulate many autoimmune and inflammatory diseases, including asthma. As adults, asthma prevalence is 2-fold greater in women compared to men. Group 2 innate lymphoid cells (ILC2) are increased in asthma, and we investigated how testosterone attenuated ILC2 function. In patients with moderate to severe asthma, we determined that women had increased circulating ILC2 numbers compared to men. In mice, ILC2 from adult females had increased IL-2-mediated ILC2 proliferation versus ILC2 from adult males and pre-pubescent females and males. Further, 5α-dihydrotestosterone, a hormone downstream of testosterone, decreased lung ILC2 numbers and IL-5 and IL-13 expression from ILC2. In vivo, testosterone attenuated Alternaria extract-induced IL-5+ and IL-13+ ILC2 numbers and lung eosinophils by intrinsically decreasing lung ILC2 numbers and cytokine expression as well as decreasing expression of IL-33 and TSLP, ILC2 stimulating cytokines. Collectively, these findings provide a foundational understanding in the sexual dimorphism in ILC2 function.

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Mechanisms Driving Gender Differences in Asthma

Fuseini

Newcomb

2017

Curr Allergy Asthma Rep

346

226

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Purpose of Review Many phenotypes of asthma exist, ranging from mild asthma with onset during childhood to severe asthma with later onset, making asthma a broad disease with different pathologies. A gender disparity exists in asthma prevalence. As adults, women have an increased asthma prevalence compared to men. Further, women are more likely to have severe asthma and a later onset of asthma compared to men. Here, we review clinical and animal studies that have defined the role of sex hormones in airway inflammation, smooth muscle contraction, mucus production, and airway mechanics associated with asthma pathogenesis. Recent Findings Clinical evidence shows that increased asthma symptoms occur in females starting at puberty compared to boys. However, after puberty, the role for sex hormones in regulating asthma symptoms during menstruation, pregnancy, and menopause is not as clear. Animal studies have shown that estrogen increases and testosterone decreases Th2-mediated airway inflammation, and that females have increased IL-17A-mediated airway inflammation compared to males. Further, females had increased DC and Mφ function compared to males. However, the mechanisms driving the types of allergic inflammation are not fully elucidated. Summary Overall, ovarian hormones increased and testosterone decreased airway inflammation in asthma, but the mechanisms remain unclear. Delineating these pathways using animal models as well as women and men with various phenotypes of asthma will help determine if women with asthma should take (or avoid) hormonal contraceptives as well as predict changes asthma symptoms during life phases, including pregnancy and menopause, when sex hormones are dramatically changing.

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Hormones, sex, and asthma

Yung

Fuseini

Newcomb

2018

Annals of Allergy, Asthma & Immunology

154

118

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Sex hormones are important in regulating asthma pathogenesis. However, additional studies need to be conducted to further elucidate how sex hormones are initiating and driving the inflammatory response(s) in asthma. Determining these pathways will provide the foundation necessary for the development of treatment strategies and potentially new therapeutics for patients, in particular females, with asthma.

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Testosterone Decreases House Dust Mite–Induced Type 2 and IL-17A–Mediated Airway Inflammation

et al. 2018

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As adults, women are twice as likely as men to have asthma; however, the mechanisms explaining this sexual dimorphism remain unclear. Increased type 2 cytokines and/or IL-17A, leading to increased airway eosinophils and neutrophils, respectively, are associated with asthma. Previous studies showed that testosterone, signaling through the androgen receptor (AR), decreased Th2-mediated allergic inflammation and type 2 innate immune responses during allergic inflammation. Therefore, we hypothesized that testosterone and AR signaling attenuate type 2 and IL-17A-mediated airway inflammation. To test our hypothesis, sham-operated and gonadectomized female and male mice were intranasally challenged with house dust mite (HDM) or vehicle (PBS) for 3 wk. Testosterone decreased and ovarian hormones increased HDM-induced eosinophilic and neutrophilic inflammation, IgE production, and airway hyperresponsiveness, as well as decreased the numbers of IL-13 CD4 Th2 cells and IL-17A CD4 Th17 cells in the lung. Next, using wild-type male and female mice and AR male mice that are unable to signal through the AR, we determined AR signaling intrinsically attenuated IL-17A Th17 cells but indirectly decreased IL-13 CD4 Th2 cells in the lung by suppressing HDM-induced IL-4 production. In vitro Th2 and Th17 differentiation experiments showed AR signaling had no direct effect on Th2 cell differentiation but decreased IL-17A protein expression and IL-23R mRNA relative expression from Th17 cells. Combined, these findings show AR signaling attenuated type 2 and IL-17A inflammation through different mechanisms and provide a potential explanation for the increased prevalence of asthma in women compared with men.

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Characterization of blue light irradiation effects on pathogenic and nonpathogenic Escherichia coli

et al. 2017

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Blue light irradiation (BLI) is an FDA‐approved method for treating certain types of infections, like acne, and is becoming increasingly attractive as an antimicrobial strategy as the prevalence of antibiotic‐resistant “superbugs” rises. However, no study has delineated the effectiveness of BLI throughout different bacterial growth phases, especially in more BLI‐tolerant organisms such as Escherichia coli. While the vast majority of E. coli strains are nonpathogenic, several E. coli pathotypes exist that cause infection within and outside the gastrointestinal tract. Here, we compared the response of E. coli strains from five phylogenetic groups to BLI with a 455 nm wavelength (BLI 455), using colony‐forming unit and ATP measurement assays. Our results revealed that BLI 455 is not bactericidal, but can retard E. coli growth in a manner that is dependent on culture age and strain background. This observation is critical, given that bacteria on and within mammalian hosts are found in different phases of growth.

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Hubaida Fuseini

Testosterone Attenuates Group 2 Innate Lymphoid Cell-Mediated Airway Inflammation

Mechanisms Driving Gender Differences in Asthma

Hormones, sex, and asthma

Testosterone Decreases House Dust Mite–Induced Type 2 and IL-17A–Mediated Airway Inflammation

Characterization of blue light irradiation effects on pathogenic and nonpathogenic Escherichia coli

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