Postnatal phenotype and localization of spinal cord V1 derived interneurons

Abstract

Developmental studies identified four classes (V0, V1, V2, V3) of embryonic interneurons in the ventral spinal cord. Very little is known, however, about their adult phenotypes. Therefore, we characterized the location, neurotransmitter phenotype, calcium‐buffering protein expression, and axon distributions of V1‐derived neurons in the adult mouse spinal cord. In the mature (P20 and older) spinal cord, most V1‐derived neurons are located in lateral LVII and in LIX, few in medial LVII, and none in LVIII. Approximately 40% express calbindin and/or parvalbumin, while few express calretinin. Of seven groups of ventral interneurons identified according to calcium‐buffering protein expression, two groups (1 and 4) correspond with V1‐derived neurons. Group 1 are Renshaw cells and intensely express calbindin and coexpress parvalbumin and calretinin. They represent 9% of the V1 population. Group 4 express only parvalbumin and represent 27% of V1‐derived neurons. V1‐derived Group 4 neurons receive contacts from primary sensory afferents and are therefore proprioceptive interneurons. The most ventral neurons in this group receive convergent calbindin‐IR Renshaw cell inputs. This subgroup resembles Ia inhibitory interneurons (IaINs) and represents 13% of V1‐derived neurons. Adult V1‐interneuron axons target LIX and LVII and some enter the deep dorsal horn. V1 axons do not cross the midline. V1‐derived axonal varicosities were mostly (>80%) glycinergic and a third were GABAergic. None were glutamatergic or cholinergic. In summary, V1 interneurons develop into ipsilaterally projecting, inhibitory interneurons that include Renshaw cells, Ia inhibitory interneurons, and other unidentified proprioceptive interneurons. J. Comp. Neurol. 493:177–192, 2005.