Morphology of single pontine reticulospinal axons in the lumbar enlargement of the cat: A study using the anterograde tracer PHA‐L

The fine morphology of single pontine reticulospinal axons in the lumbar enlargement was investigated by using an anterograde Phaseolus vulgaris –leucoagglutinin (PHA‐L) tracing technique. Localized injections of PHA‐L were made into the nuclei reticularis pontis oralis and caudalis in four cats. Following survival periods of 8–9 weeks, PHA‐L‐labeled axons were found throughout the lumbar enlargement from segments L4 to S2, in which the diameter of labeled axons was 0.6–2.5 μm. From serial transverse sections (50 μm), trajectories of 21 single pontine reticulospinal axons were traced in continuity over distances of 18.9–36.3 mm, corresponding to three to six segments, respectively. All the identified axons gave off multiple (two to nine) axon collaterals along their courses, with mean intercollateral distances of approximately 5–6 mm. Detailed reconstruction of the collateral arborization in the lumbar enlargement showed a high degree of similarity to that of single axons in the cervical enlargement previously reported (Matsuyama et al. [1997] J. Comp. Neurol. 377:234–250). First, axon collaterals arising from a majority (n = 18) of identified axons innervated the gray matter unilaterally, ipsilateral to the parent axons, whereas those from the remaining three axons innervated the gray matter bilaterally. Second, collateral projections terminated mainly in laminae VIII and VII, with the arborization field confined to a narrow rostrocaudal extent (<1 mm). Third, the termination fields of axon collaterals arising from a given reticulospinal axon were similar at each segmental level and differed from one stem axon to another. These results suggest that the long descending pontine reticulospinal pathway is composed of different types of axons that may innervate the cervical and lumbar enlargements in continuity in a similar manner. J. Comp. Neurol. 410:413–430, 1999. © 1999 Wiley‐Liss, Inc.