Kavli Affiliate: Solange Brown, Loyal Goff, and Patrick Kanold
| Authors: Su-Jeong Kim, Travis A. Babola, Kihwan Lee, Chanel J. Matney, Alina C. Spiegel, Michael H. Liew, Eva M. Schulteis, Austin E. Coye, Mikhail Proskurin, Hyunwook Kang, Julia A. Kim, Maxime Chevee, Kiwoong Lee, Patrick O. Kanold, Loyal A. Goff, Juhyun Kim and Solange P Brown
| Summary:
To understand neocortical function, we must first define its cell types. Recent studies indicate that neurons in the deepest cortical layer play roles in mediating thalamocortical interactions and modulating brain state and are implicated in neuropsychiatric disease. However, understanding the functions of deep layer 6 (L6b) neurons has been hampered by the lack of agreed upon definitions for these cell types. We compared commonly used methods for defining L6b neurons, including molecular, transcriptional and morphological approaches as well as transgenic mouse lines, and identified a core population of L6b neurons. This population does not innervate sensory thalamus, unlike layer 6 corticothalamic neurons (L6CThNs) in more superficial layer 6. Rather, single L6b neurons project ipsilaterally between cortical areas. Although L6b neurons undergo early developmental changes, we found that their intrinsic electrophysiological properties were stable after the first postnatal week. Our results provide a consensus definition for L6b neurons, enabling comparisons across studies.