Molecular organization of autonomic, respiratory, and spinally-projecting neurons in the mouse ventrolateral medulla

Abstract: The ventrolateral medulla (VLM) is a crucial region in the brain for visceral and somatic control. It also serves as a significant source of synaptic input to the spinal cord. Experimental studies have shown that gene expression in individual VLM neurons is predictive of their function. However, the organizing principles of the VLM have remained uncertain. This study aimed to create a comprehensive dataset of VLM cells using single-cell RNA sequencing. The dataset was enriched with targeted sequencing of spina… Show more

“…For example, a recent report suggests that spinally projecting neurons in the ventrolateral medulla can be categorized into 7 distinct subpopulations, including multiple subtypes of noradrenergic, serotonergic, and nonmonoaminergic classes. 6 The distinct subtypes of spinally projecting ventrolateral medulla neurons could provide an organ-specific code to identify and study neurons that generate SNA targeting distinct end organs or to produce hypertension. The PVH is a second major autonomic center composed of various neuronal populations controlling behavior, neuroendocrine function, and autonomic outflow.…”

Brain Pathways in Blood Pressure Regulation

“…For example, a recent report suggests that spinally projecting neurons in the ventrolateral medulla can be categorized into 7 distinct subpopulations, including multiple subtypes of noradrenergic, serotonergic, and nonmonoaminergic classes. 6 The distinct subtypes of spinally projecting ventrolateral medulla neurons could provide an organ-specific code to identify and study neurons that generate SNA targeting distinct end organs or to produce hypertension. The PVH is a second major autonomic center composed of various neuronal populations controlling behavior, neuroendocrine function, and autonomic outflow.…”

Brain Pathways in Blood Pressure Regulation