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DNA double-strand break signaling induces aberrant neuronal activity

Pao, P.-C.; Liu, L.; Watson, L. A.; Lee, A.; Seguin, A.; Dong, D.; Rasheed, S.; Staab, C.; King, O.; Geigenmüller, U.; Penney, J.; Gao, F.; Muhtaseb, A.; Raju, R. M.; Tsai, L.-H.

2026-05-13 neuroscience
10.64898/2026.05.11.724110 bioRxiv
Show abstract

Aberrant neuronal activity is an early pathological feature of numerous neurodegenerative disorders, including tauopathy, and is thought to play a role in disease progression. However, the mechanism underlying abnormal neuronal activity remains elusive. Here, we reveal a relationship between DNA double-strand break (DSB)/p53 pathway activation and aberrant neuronal activity. Activating p53 as part of the DNA damage response via DSB induction, or by preventing MDM2-mediated p53 degradation, causes aberrant activity in both mouse and human neurons. p53 activation induces the expression of genes regulating synaptic transmission, and p53-responsive gene upregulation is overrepresented in postmortem human Alzheimers disease neurons burdened with neurofibrillary tangles (NFTs). Using a human iPSC-based cerebral organoid model of frontotemporal dementia that exhibits relevant pathologies including elevated DSBs, aberrant neuronal activity, and NFTs, we show that inhibiting p53 transcriptional activity with a small molecule ameliorates aberrant calcium fluctuations in neurons. Together, our findings highlight p53 inhibition as a novel therapeutic strategy to counter aberrant neuronal activity in neurodegenerative diseases characterized by tauopathy.

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