Authors
Adachi, T., Suyama, K., Ito, S., Isogai, E., Sone, M., Hoshino, M.
Abstract
Bergmann glia-like progenitors (BGLPs) are transient astroglial progenitors in the postnatal cerebellum, but how their lineage potential changes during development remains incompletely understood. Our previous electroporation-based study suggested that P0 BGLPs possess broader lineage potential than P6 BGLPs. Here, we performed recombination-based lineage tracing by cerebellar surface application of tamoxifen to Ai9/+; GlastCreERT2/+ mice and temporally analyzed the progeny of BGLPs labeled at P0, P3, P6, and P8. We found that BGLPs undergo progressive lineage restriction during postnatal development. P0 BGLPs gave rise to Bergmann glial cells (BGs), inner granule cell layer astrocytes (IGL astrocytes), white matter astrocytes (WM astrocytes), and molecular layer inhibitory neurons (ML-INs), confirming our previous electroporation-based findings. In contrast, P3 BGLPs generated BGs, IGL astrocytes, and WM astrocytes, whereas P6 BGLPs generated BGs and IGL astrocytes, and P8 BGLPs generated predominantly BGs. Thus, BGLP lineage output was progressively restricted from four progeny categories at P0 to a predominantly BG-restricted output by P8, suggesting that BGLPs dynamically adjust their cellular output during postnatal cerebellar maturation. Additional temporal analyses suggested that ML-INs are unlikely to be generated directly from P0 BGLPs, but may arise indirectly through astrocyte-like progenitors (AsLPs) and inhibitory neuron progenitors (INPs). These findings identify postnatal BGLPs as a useful in vivo model for studying progressive lineage restriction and stage-specific cellular supply during cerebellar development.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 09 Jul 2026.
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