PT  - JOURNAL ARTICLE
AU  - Kathryn E. Stanchak
AU  - Kimberly E. Miller
AU  - Eric W. Lumsden
AU  - Devany Shikiar
AU  - Calvin Davis
AU  - Bingni W. Brunton
AU  - David J. Perkel
TI  - Molecular Markers of Mechanosensation in Glycinergic Neurons in the Avian Lumbosacral Spinal Cord
AID  - 10.1523/ENEURO.0100-22.2022
DP  - 2022 Sep 01
TA  - eneuro
PG  - ENEURO.0100-22.2022
VI  - 9
IP  - 5
4099  - http://www.eneuro.org/content/9/5/ENEURO.0100-22.2022.short
4100  - http://www.eneuro.org/content/9/5/ENEURO.0100-22.2022.full
SO  - eNeuro2022 Sep 01; 9
AB  - Birds are exceptionally adept at controlling their body position. For example, they can coordinate rapid movements of their body while stabilizing their head. Intriguingly, this ability may rely in part on a mechanosensory organ in the avian lower spinal cord called the lumbosacral organ (LSO). However, molecular mechanotransduction mechanisms have not been identified in the avian spinal cord. Here, we report the presence of glycinergic neurons in the LSO that exhibit immunoreactivity for myosin7a and espin, molecules essential for function and maintenance of hair cells in the inner ear. Specifically, we find glycinergic cell bodies near the central canal and processes that extend laterally to the accessory lobes and spinal ligaments. These LSO neurons are reminiscent of glycinergic neurons in a recently-described lateral spinal proprioceptive organ in zebrafish that detects spinal bending. The avian LSO, however, is located inside a series of fused vertebrae called the synsacrum, which constrains spinal bending. We suggest the LSO may be a modification and elaboration of a preexisting mechanosensory spinal network in vertebrates. A mechanistic understanding of its function may be an important clue to understanding the evolution and development of avian locomotion.