Morphological study of long axonal projections of ventral medullary inspiratory neurons in the rat

• Published in: Brain research Vol. 640; no. 1; pp. 171 - 184
• Main Authors: Lipski, J., Zhang, X., Kruszewska, B., Kanjhan, R.
• Format: Journal Article
• Language: English
• Published: London Elsevier B.V 21.03.1994; Amsterdam Elsevier; New York, NY
• Subjects: Animals; Axons - physiology; Biological and medical sciences; Biotin; Crossed-phrenic phenomenon; Electric Stimulation; Fundamental and applied biological sciences. Psychology; Histocytochemistry; Horseradish Peroxidase; Male; Medulla Oblongata - cytology; Medulla Oblongata - physiology; Membrane Potentials - physiology; Microelectrodes; Motor control and motor pathways. Reflexes. Control centers of vegetative functions. Vestibular system and equilibration; Motor Neurons - physiology; Neural Pathways - cytology; Neural Pathways - physiology; Neurobiotin; Neurons - physiology; Phrenic motoneuron; Phrenic Nerve - cytology; Presynaptic Terminals - physiology; Rats; Rats, Wistar; Respiration - physiology; Respiratory control; Respiratory neuron; Spinal Cord - cytology; Ventral respiratory group; Vertebrates: nervous system and sense organs; Crossed-phrenic phenomenon; Phrenic motoneuron; Neurobiotin; Respiratory control; Respiratory neuron; Ventral respiratory group; Inspiration; Vertebrata; Mammalia; Rat; Morphology; Rodentia; Central nervous system; Projection; Medulla oblongata; Respiration; Brain (vertebrata)
• ISSN: 0006-8993; 1872-6240
• DOI: 10.1016/0006-8993(94)91871-6

The aim of this study was to examine medullary and spinal axonal projections of inspiratory bulbospinal neurons of the rostral ventral respiratory group (VRG) in the rat. A direct visualization of long (9.8–33 mm) axonal branches, including those projecting to the contralateral side of the medulla oblongata and the spinal cord, was possible due to intracellular labeling with neurobiotin and long survival times (up to 22 h) after injections. Seven of the nine labeled neurons had bilateral descending axons, which were located in discrete regions of the spinal white matter; ipsilateral axons in the lateral and dorsolateral funiculus, contralateral in the ventral and ventromedial funiculus. The collaterals issued by these axons at the mid-cervical level formed close appositions with dendrites of phrenic motoneurons, which had also been labeled with neurobiotin. None of these collaterals crossed the midline. The significance of this finding is discussed in relation to the crossed-phrenic phenomenon. Additional spinal collaterals were identified in the C 1 and T 1 segments. Within the medulla, collaterals with multiple varicosities were identified in the lateral tegmental field and in the dorsomedial medulla (in the hypoglossal nucleus and in the nucleus of the solitary tract). These results demonstrate that inspiratory VRG neurons in the rat have some features which have not been previously described in the cat, including frequent bilateral spinal projection and projection to the nucleus of the solitary tract. In addition, this study shows that intracellular labeling with neurobiotin offers an effective way of tracing long axonal projections, supplementing results previously obtainable only with antidromic mapping, and providing morphological details which could not be observed in previous studies using labeling with horseradish peroxidase.