Development of the rat phrenic nucleus and its connections with brainstem respiratory nuclei

The development of phrenic motoneurons and descending bulbospinal projections to the cervical spinal cord have been examined in prenatal and early postnatal rats with the aid of the carbocyanine dyes DiI and DiA. Phrenic motoneurons could be identified by retrograde labelling as early as E13, while...

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Veröffentlicht in:	Anatomy and Embryology 2000-08, Vol.202 (2), p.159-177
Hauptverfasser:	Song, A, Ashwell, K W, Tracey, D J
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Sprache:	eng
Schlagworte:	Animals Axonal Transport Brain Brain Stem - embryology Brain Stem - growth & development Carbocyanines Dendrites - ultrastructure Female Fluorescent Dyes Motor Neurons - physiology Motor Neurons - ultrastructure Neural Pathways - embryology Neural Pathways - growth & development Neural Pathways - ultrastructure Phrenic Nerve - embryology Phrenic Nerve - growth & development Phrenic Nerve - ultrastructure Pregnancy Pyridinium Compounds Rats Respiratory System - innervation Spinal Cord - embryology Spinal Cord - growth & development Spinal cord injuries
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description	The development of phrenic motoneurons and descending bulbospinal projections to the cervical spinal cord have been examined in prenatal and early postnatal rats with the aid of the carbocyanine dyes DiI and DiA. Phrenic motoneurons could be identified by retrograde labelling as early as E13, while aggregation of phrenic motoneurons into a column and the formation of dendritic bundles became apparent from E16. The initial phrenic motoneuron dendritic bundles were oriented in the dorsolateral and ventromedial directions, while ventrolaterally directed bundles entering the marginal zone appeared by E16, and rostrocaudal bundles were clearly visible by E21. The column of phrenic motoneurons extended rostrocaudally from C2 to C6 at E13 and E14, but this became confined to the C3-5 segments by E21. Two-way tracing of connections between putative brainstem respiratory centres and cervical spinal cord with the carbocyanine dyes, DiI and DiA, indicated that brainstem bulbospinal neurons in the position of the adult ventral respiratory group (VRG) and medial parabrachial (MPB) nuclei appeared to project to the cervical cord white matter as early as E15 and may contribute axons to the grey matter of the cervical cord as early as E17 These findings are consistent with electrophysiological studies of respiratory function development in the fetal rat, which found relatively regular rhythmic phrenic discharge by E20 to 21. In summary, our findings indicate that the structural differentiation of phrenic motoneurons is well-advanced prior to birth and that the descending pathways involved in the control of respiratory function are in place several days before birth.
doi_str_mv	10.1007/s004290000096
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Phrenic motoneurons could be identified by retrograde labelling as early as E13, while aggregation of phrenic motoneurons into a column and the formation of dendritic bundles became apparent from E16. The initial phrenic motoneuron dendritic bundles were oriented in the dorsolateral and ventromedial directions, while ventrolaterally directed bundles entering the marginal zone appeared by E16, and rostrocaudal bundles were clearly visible by E21. The column of phrenic motoneurons extended rostrocaudally from C2 to C6 at E13 and E14, but this became confined to the C3-5 segments by E21. Two-way tracing of connections between putative brainstem respiratory centres and cervical spinal cord with the carbocyanine dyes, DiI and DiA, indicated that brainstem bulbospinal neurons in the position of the adult ventral respiratory group (VRG) and medial parabrachial (MPB) nuclei appeared to project to the cervical cord white matter as early as E15 and may contribute axons to the grey matter of the cervical cord as early as E17 These findings are consistent with electrophysiological studies of respiratory function development in the fetal rat, which found relatively regular rhythmic phrenic discharge by E20 to 21. 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Phrenic motoneurons could be identified by retrograde labelling as early as E13, while aggregation of phrenic motoneurons into a column and the formation of dendritic bundles became apparent from E16. The initial phrenic motoneuron dendritic bundles were oriented in the dorsolateral and ventromedial directions, while ventrolaterally directed bundles entering the marginal zone appeared by E16, and rostrocaudal bundles were clearly visible by E21. The column of phrenic motoneurons extended rostrocaudally from C2 to C6 at E13 and E14, but this became confined to the C3-5 segments by E21. Two-way tracing of connections between putative brainstem respiratory centres and cervical spinal cord with the carbocyanine dyes, DiI and DiA, indicated that brainstem bulbospinal neurons in the position of the adult ventral respiratory group (VRG) and medial parabrachial (MPB) nuclei appeared to project to the cervical cord white matter as early as E15 and may contribute axons to the grey matter of the cervical cord as early as E17 These findings are consistent with electrophysiological studies of respiratory function development in the fetal rat, which found relatively regular rhythmic phrenic discharge by E20 to 21. In summary, our findings indicate that the structural differentiation of phrenic motoneurons is well-advanced prior to birth and that the descending pathways involved in the control of respiratory function are in place several days before birth.</abstract><cop>Germany</cop><pub>Springer Nature B.V</pub><pmid>10985434</pmid><doi>10.1007/s004290000096</doi><tpages>19</tpages></addata></record>
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subjects	Animals Axonal Transport Brain Brain Stem - embryology Brain Stem - growth & development Carbocyanines Dendrites - ultrastructure Female Fluorescent Dyes Motor Neurons - physiology Motor Neurons - ultrastructure Neural Pathways - embryology Neural Pathways - growth & development Neural Pathways - ultrastructure Phrenic Nerve - embryology Phrenic Nerve - growth & development Phrenic Nerve - ultrastructure Pregnancy Pyridinium Compounds Rats Respiratory System - innervation Spinal Cord - embryology Spinal Cord - growth & development Spinal cord injuries
title	Development of the rat phrenic nucleus and its connections with brainstem respiratory nuclei
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