A 3D Amphioxus Brain Atlas Illuminates the Blueprint of the Ancestral Chordate Brain

Comparative studies on highly complex vertebrate brains have provided insights into the evolutionary history of morphological diversity. However, a long-standing question in vertebrate brain evolution is how the fundamental blueprint emerged. To probe the cellular and molecular origins of brain architecture in the chordate lineage, we performed single-nucleus RNA-seq combined with spatial transcriptomics and generated a three-dimensional cell atlas of the basal chordate amphioxus central nervous system (CNS). This atlas reveals a tripartite organization along the anterior-posterior axis of the adult amphioxus brain, with a rostral retinal/hypothalamic region followed by a di-mesencephalon and caudally, the hindbrain and spinal cord. Notably, we show that the amphioxus brain contains cell clusters resembling the zona limitans intrathalamica and midbrain-hindbrain boundary, both of which demarcate the major brain compartments. Furthermore, expression profiling and gene ontology enrichment analyses support that the cell clusters located in the rostral part of the amphioxus forebrain correspond to vertebrate retinal primordium and hypothalamic cells. However, the absence of key telencephalic marker expression in the amphioxus anterior forebrain suggests that the telencephalon likely represents a vertebrate innovation. Together, our findings establish a spatial transcriptomic framework for the amphioxus CNS and provide a critical link for understanding the evolution of the complex vertebrate brain.