Authors
Fuchs U, Schroeder S, Pena t, Krueger DM, Burkhardt S, Schuetz AL, Hempel N, Gisa V, Taghavi T, Cortes J, Gertig M, Delalle I, Sananbenesi F, Fischer A
Journal
BioRxiv
Citation
bioRxiv 2026.07.03.736275.
Abstract
Long non-coding RNAs (lncRNAs) are increasingly recognized as regulators of brain cell function, but their roles in astrocyte biology and neurodegeneration remain poorly understood. Here, we identify Sox1ot/SOX1-OT as a conserved, brain-enriched lncRNA that is downregulated in Alzheimer’s disease and in reactive astrocyte states. Antisense oligonucleotide-mediated depletion of Sox1ot in astrocytes revealed a transcriptional program marked by activation of p53 target genes selectively associated with cell-cycle inhibitory pathways. Consistent with this, Sox1ot depletion enhanced p53 occupancy at target promoters such as Cdkn1a, increased Cdkn1a expression and levels of its protein product p21, and thereby induced G1 arrest and reduced astrocyte proliferation. In contrast, other canonical p53 outputs, including apoptosis and senescence, were not affected, indicating that Sox1ot selectively modulates distinct branches of p53 signaling. Notably, loss of Sox1ot/SOX1-OT was accompanied by impaired glutamate uptake, reduced lactate secretion, and altered astrocyte support functions, suggesting that these deficits arise as downstream consequences of the p53-dependent transcriptional shift rather than direct primary effects of Sox1ot loss. Together, these findings identify SOX1-OT as an astrocyte-enriched regulatory layer that constrains a p53-dependent cell-cycle program and highlight its role in shaping astrocyte state transitions in Alzheimer’s disease.

