fMRI scanner noise interaction with affective neural processes

The purpose of the present study was the investigation of interaction effects between functional MRI scanner noise and affective neural processes. Stimuli comprised of psychoacoustically balanced musical pieces, expressing three different emotions (fear, neutral, joy). Participants (N=34, 19 female) were split into two groups, one subjected to continuous scanning and another subjected to sparse temporal scanning that features decreased scanner noise. Tests for interaction effects between scanning group (sparse/quieter vs continuous/noisier) and emotion (fear, neutral, joy) were performed. Results revealed interactions between the affective expression of stimuli and scanning group localized in bilateral auditory cortex, insula and visual cortex (calcarine sulcus). Post-hoc comparisons revealed that during sparse scanning, but not during continuous scanning, BOLD signals were significantly stronger for joy than for fear, as well as stronger for fear than for neutral in bilateral auditory cortex. During continuous scanning, but not during sparse scanning, BOLD signals were significantly stronger for joy than for neutral in the left auditory cortex and for joy than for fear in the calcarine sulcus. To the authors' knowledge, this is the first study to show a statistical interaction effect between scanner noise and affective processes and extends evidence suggesting scanner noise to be an important factor in functional MRI research that can affect and distort affective brain processes

The neuropeptide NMU amplifies ILC2-driven allergic lung inflammation

Type 2 innate lymphoid cells (ILC2s) both contribute to mucosal homeostasis and initiate pathologic inflammation in allergic asthma. However, the signals that direct ILC2s to promote homeostasis versus inflammation are unclear. To identify such molecular cues, we profiled mouse lung-resident ILCs using single-cell RNA sequencing at steady state and after in vivo stimulation with the alarmin cytokines IL-25 and IL-33. ILC2s were transcriptionally heterogeneous after activation, with subpopulations distinguished by expression of proliferative, homeostatic and effector genes. The neuropeptide receptor Nmur1 was preferentially expressed by ILC2s at steady state and after IL-25 stimulation. Neuromedin U (NMU), the ligand of NMUR1, activated ILC2s in vitro, and in vivo co-administration of NMU with IL-25 strongly amplified allergic inflammation. Loss of NMU-NMUR1 signalling reduced ILC2 frequency and effector function, and altered transcriptional programs following allergen challenge in vivo. Thus, NMUR1 signalling promotes inflammatory ILC2 responses, highlighting the importance of neuro-immune crosstalk in allergic inflammation at mucosal surfaces

β-Adrenergic agonists and bronchial hyperreactivity: Role of β2- adrenergic and tachykinin neurokinin-2 receptors

Background: β2-Adrenergic agonists are the most widely used bronchodilators for the treatment of asthma. On the other hand, there is concern that excessive use of β2-agonists may contribute to the exacerbation of asthma. However, the mechanism of such adverse effects of β2-agonists is not completely clear. Objective: The aim of this study was to assess the direct influence of β2-agonists on airways by analyzing the effect of a β2-agonist, fenoterol, on airway sensitivity in an animal model and on tachykinin neurokinin-2 receptor expression in bovine tracheal smooth muscle. Methods: We performed an acetylcholine challenge test on ovalbumin sensitized guinea pigs that were exposed to daily inhalation of ovalbumin and fenoterol. We also investigated the effects of fenoterol on neurokinin-2 receptor messenger RNA and density with Northern blot analysis and receptor binding assay. Result: The increase of airway responsiveness and the decrease of β2-adrenergic receptors were found in guinea pigs that were treated with fenoterol. There were time- and dose-dependent increases of neurokinin-2 receptor mRNA and of density in tracheal smooth muscle that was treated with fenoterol. Conclusion: This increased airway responsiveness, increased neurokinin-2 receptor expression, and decreased β2-adrenergic receptor density may be relevant to asthma exacerbation.link_to_subscribed_fulltex