Jiang H, Cui H, Chen M, Li F, Shen X, Guo CJ, Hoekel GE, Zhu Y, Han L, Wu K, Holtzman MJ, Liu Q (2024) Divergent sensory pathways of sneezing and coughing. Cell 187(21):5981-5997. doi: 10.1016/j.cell.2024.08.009 PMID: 39243765
Objective: To study the difference in sensory receptors and neurotransmission/modulation mechanisms between sneezing and coughing.
Summary: Sneezing and coughing are frequently associated with allergies and respiratory viral infections and it’s assumed both involve common sensory receptors and neurotransmission mechanisms. The author’s work show that the nasal mucosa is innervated by several discrete populations of sensory neurons, but only one population (MrgprC11+MrgprA3−) mediates sneezing. Although this same population innervates the trachea, it does not mediate coughing, and instead, a distinct sensory population (somatostatin SST) mediates coughing but not sneezing. NMB-SAP was used to ablate neruomedin B (NMB) receptor expressing and nucleus tractus solitarius (NTS) neurons. Deletion of these neurons did not affect the coughing responses to Ly344864 and IL-31 (agonists to SST neurons) suggesting that NMB-sensitive NTS neurons do not mediate coughing.
Usage: Neuronal ablation by SST-saporin and NMB-saporin. SST-saporin was made by mixing biotin-labeled somatostatin and Streptavidin-ZAP (IT-27) at a 1:1 molar ratio at room temperature for 20 minutes. SST-Saporin (10 μM, 50 nL), NMB-saporin (#IT-70; 50 ng in 50 nL) or Blank-SAP (#IT-21; 10 μM in 50 nL or 50 ng in 50 nL) was injected into the NTS region.
Related Products: Streptavidin-ZAP (Cat. #IT-27), NMB-SAP (Cat. #IT-70), Blank-SAP (Cat. #IT-21)