Abstract

Underwater submersion in mammals initiates the diving response, an autonomic cardiorespiratory reflex that includes apnea, a parasympathetically‐mediated bradycardia, and a sympathetically‐mediated increase in total peripheral resistance. The initial synapse of this reflex occurs within the ventral medullary dorsal horn (MDH) of the spinal trigeminal nucleus caudalis. The anterior ethmoidal and nasopalatine nerves, trigeminal nerves that innervate the internal nasal passages, also send their central terminations to the ventral MDH. The objective of this research was to detect colocalization of secondary MDH neurons activated by voluntary diving with the central terminations of the trigeminal nerves innervating the internal nasal passages. MDH activated neurons were identified by Fos protein production, while central terminals of the trigeminal nerves were located by the transganglionic tracer Wheat Germ Agglutinin (WGA). Sprague‐Dawley rats (N=12) were trained to voluntarily dive through a 5 m underwater Plexiglas maze. After training, 6 rats then received WGA injections into the anterior ethmoidal nerve, while 6 rats received WGA injections into the nasopalatine nerve. Four days post‐WGA injection, 3 rats from each nerve injection group performed 12 dive trials over 1 hour to activate brainstem neurons and initiate Fos production; 3 rats from each nerve injection group were non‐diving controls. Brainstem tissue from all rats was immunohistochemically processed to visualize both Fos and WGA, and was inspected using a Nikon C1 confocal microscope and Nikon Eclipse Ti2 inverted fluorescent microscope. Results indicate repetitive voluntary diving increases the number of Fos‐positive neurons within the ventral tip of the superficial MDH and adjacent paratrigeminal nucleus. WGA results show central termination sites from both the anterior ethmoidal and nasopalatine nerves within this same MDH location. Additionally, MDH Fos‐positive neurons from diving animals show extensive colocalization with WGA injected into both the anterior ethmoidal nerve and nasopalatine nerve compared to non‐diving control rats. We conclude both the anterior ethmoidal and nasopalatine nerves can provide afferent information necessary to activate MDH neurons during initiation of the mammalian diving response.Support or Funding InformationSupported by MWU Intramural funding (PFM) and CGS MBS program (MM)This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

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