Serotonergic projections from the caudal raphe nuclei to the hypoglossal nucleus in male and female rats

Abstract The respiratory control system is sexually dimorphic. In many brain regions, including respiratory motor nuclei, serotonin (5HT) levels are higher in females than in males. We hypothesized that there could be sex differences in 5HT input to the hypoglossal nucleus, a region of the brainstem...

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Bibliographic Details
Published in:Respiratory physiology & neurobiology 2009-02, Vol.165 (2), p.175-184
Main Authors: Barker, Jessica R, Thomas, Cathy F, Behan, Mary
Format: Article
Language:English
Subjects:
Animals
Bartha pseudorabies virus
Biological and medical sciences
Brain Mapping - methods
Cell Count
Diestrus
Estradiol - blood
Estrous Cycle - physiology
Estrus
Female
Fundamental and applied biological sciences. Psychology
Herpesvirus 1, Suid
Hypoglossal Nerve - cytology
Hypoglossal Nerve - physiology
Hypoglossal nucleus
Male
Medical Education
Motor Neurons - cytology
Motor Neurons - metabolism
Neural Pathways
Progesterone - blood
Pulmonary/Respiratory
Raphe Nuclei - cytology
Raphe Nuclei - physiology
Rats
Rats, Inbred F344
Respiratory Mechanics - physiology
Serotonin
Serotonin - metabolism
Sex Characteristics
Tryptophan Hydroxylase - metabolism
Vertebrates: respiratory system
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Summary:Abstract The respiratory control system is sexually dimorphic. In many brain regions, including respiratory motor nuclei, serotonin (5HT) levels are higher in females than in males. We hypothesized that there could be sex differences in 5HT input to the hypoglossal nucleus, a region of the brainstem involved in upper airway control. Adult Fischer 344 rats were anesthetized and a retrograde transsynaptic neuroanatomical tracer, Bartha pseudorabies virus (PRV), was injected into the tongue. Sections through the medulla were reacted immunocytochemically for the presence of (i) PRV, (ii) tryptophan hydroxylase (TPH; marker of 5HT neurons), (iii) PRV combined with TPH, and (iv) 5HT. Sex hormone levels were measured in female rats and correlated with TPH immunoreactivity, as hypoglossal 5HT levels vary with the estrous cycle. The number of PRV neurons was comparable in male and female rats. The number and distribution of TPH immunoreactive neurons in the caudal raphe nuclei were similar in male and female rats. The subset of 5HT neurons that innervate hypoglossal motoneurons was also similar in male and female rats. With the exception of the ventrolateral region of the hypoglossal nucleus, 5HT immunoreactivity was similar in male and female rats. These data suggest that sex differences in 5HT modulation of hypoglossal motoneurons in male and female rats are not the result of sex differences in TPH or 5HT, but may result from differences in neurotransmitter release and reuptake, location of 5HT synaptic terminals on hypoglossal motoneurons, pre- and postsynaptic 5HT receptor expression, or the distribution of sex hormone receptors on hypoglossal or caudal raphe neurons.
ISSN:1569-9048
1878-1519
DOI:10.1016/j.resp.2008.11.008