AI Article Synopsis

  • Nociceptor neurons help the body detect environmental dangers, but in allergy cases, they can worsen symptoms like pain and coughing by promoting inflammation and mucus imbalance.
  • The study identified a type of vagal nociceptor neuron that specifically targets airways and undergoes significant changes during allergic reactions, such as increased expression of the NPY receptor influenced by cytokines like IL-1β and IL-13.
  • Findings suggest that blocking the NPY receptor in nociceptors leads to higher inflammation in asthmatic mice, while reducing nociceptor activity through chemical means can lower airway inflammation, indicating a complex balance in their roles during allergic inflammation.

Article Abstract

Nociceptor neurons play a crucial role in maintaining the body's homeostasis by detecting and responding to potential dangers in the environment. However, this function can be detrimental during allergic reactions, since vagal nociceptors can contribute to immune cell infiltration, bronchial hypersensitivity, and mucus imbalance, in addition to causing pain and coughing. Despite this, the specific mechanisms by which nociceptors acquire pro-inflammatory characteristics during allergic reactions are not yet fully understood. In this study, we aimed to investigate the molecular profile of airway nociceptor neurons during allergic airway inflammation and identify the signals driving such reprogramming. Using retrograde tracing and lineage reporting, we identified a unique class of inflammatory vagal nociceptor neurons that exclusively innervate the airways. In the ovalbumin mouse model of airway inflammation, these neurons undergo significant reprogramming characterized by the upregulation of the NPY receptor . A screening of cytokines and neurotrophins revealed that IL-1β, IL-13 and BDNF drive part of this reprogramming. IL-13 triggered overexpression in nociceptors via the JAK/STAT6 pathway. In parallel, sympathetic neurons and macrophages release NPY in the bronchoalveolar fluid of asthmatic mice, which limits the excitability of nociceptor neurons. Single-cell RNA sequencing of lung immune cells has revealed that a cell-specific knockout of Npy1r in nociceptor neurons in asthmatic mice leads to an increase in airway inflammation mediated by T cells. Opposite findings were observed in asthmatic mice in which nociceptor neurons were chemically ablated. In summary, allergic airway inflammation reprograms airway nociceptor neurons to acquire a pro-inflammatory phenotype, while a compensatory mechanism involving NPY1R limits nociceptor neurons' activity.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11429693PMC
http://dx.doi.org/10.1101/2023.01.26.525731DOI Listing

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