Introduction: Sympathetic nerves secrete neurotransmitters in response to pathogenic organisms in various immunological contexts. Most studies have focused on norepinephrine (NE) which has shown numerous immunomodulatory effects involving pro- and anti-inflammatory responses. However, sympathetic neurons contain also varicosities where neuropeptides, mainly neuropeptide Y (NPY), are stored. NPY play roles in various physiological processes, including regulating metabolism, vascular function, and immune function but little is known on its action during bacterial respiratory infection. The regulation of its secretion and its impact on the immune system during infection remains unclear. We investigated the role of NPY in B-cell responses during bacterial infection. Methods: Naïve B-cells isolated from mice splenocytes (2M/2F) were stimulated with IL-4 and LPS, along with NE or NPY. After 96 hours, cells were stained and analyzed by flow cytometry and transcripts were isolated for quantitative real-time PCR. Media was collected until immunoglobulin analysis. To investigate NPY role during infection, we used a mice model of bacterial lung infection. Mice were intranasally exposed twice with streptococcus pneumoniae (serotype 19F on day 0: 104 CFU and on day 9: 108 CFU); experiments took place 16 hours later. Control animals were infused with vehicle only. Results: Apart from beta2-adrenergic receptor, isolated B-cells were found to express alpha2- and beta1-adrenergic receptor transcripts. In vitro stimulation of B-cell with IL-4 and LPS (T-cell independent activation) downregulated beta-adrenergic and upregulated alpha2-adrenergic, as well as NPY receptors (Npy1r, Npy2r, Npy4r, Npy5r). Unlike NE, NPY has shown to affect B-cell proliferation and drastically increases IgG positive-cells during stimulation. However, neither NE nor NPY seem to regulate IgG release in this condition. In vivo experiments indicate that NPY level increased in the lung in response to streptococcal challenge, contrasting with the unchanged levels of NE. Conclusion: Our findings contribute to our understanding of how sympathetic neurotransmitters regulates B-cell expansion, memory, and antibody production during infection. Furthermore, our research gives new insights into the function(s) and antimicrobial capacity of neuropeptide Y. These findings allow for the development of new and more effective therapeutic strategies for invasive bacterial infections. 1R21AI159221, UCOP TRDRP T32KT4708. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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