Multi-omics Profiling of the Lateral Ventricle Choroid Plexus Reveals Developmental Cellular Remodeling, Early Immune Gene Activation, and a Novel Epithelial Subtype

Healthy brain development and function highly depend on the choroid plexus. Temporal alterations in the cellular landscape and gene expression of choroid plexus cells can alter immune cell trafficking in the brain and cerebrospinal fluid composition, ultimately impacting brain dynamics. Here, we performed a comprehensive multi-omics analysis—including bulk and single-cell transcriptomics and epigenomics—of the lateral ventricle choroid plexus across early postnatal and adult stages in mice and rats. We uncovered striking changes in the choroid plexus cellular composition from neonatal to adult stages, accompanied by transcriptional remodeling of all main cell types. Immune cells were markedly increased in adulthood and immune cell profiling revealed an altered cell-type diversity through time. Surprisingly, we observed an early gene activation of host-defense genes in all choroid plexus main cell types, beginning in the neonatal period and progressively increasing into young adulthood. Moreover, some genes induced in epithelial cells in response to inflammation were found to be epigenetically primed, despite not being transcriptionally active. Epithelial cells exhibited subtype diversity and plasticity, with distinct gene expression programs and chromatin accessibility profiles emerging over time. Notably, we identified a novel epithelial cell subtype with unique gene markers suggesting a specialized function potentially linked to neuro-signaling. Ligand-receptor interaction analysis revealed a progressive remodeling of cellular crosstalk networks during choroid plexus maturation, suggesting dynamic intercellular signaling as the tissue develops.

Our study offers a comprehensive atlas of transcriptional activity and chromatin accessibility in choroid plexus cells, providing a valuable resource to guide future efforts in targeting gene expression at the choroid plexus for therapeutical purposes.