Terapia genowa GPR173 za pomocą wirusów AAV zmniejsza oporną na leki epilepsję przez wzmocnienie receptorów GABA w synapsach

PubMed➕ 09.07.2026Acta Pharmacol Sin

AAV-mediated GPR173 gene therapy attenuates long-term refractory epilepsy by enhancing synaptic GABA receptor expression

W skrócie

Badacze testowali nową terapię genową u myszy z epilepsją oporną na leki, która polegała na wstrzyknięciu specjalnie przygotowanych wirusów zawierających gen GPR173. Terapia ta znacznie zmniejszyła napady padaczkowe - u około 25-29% myszy napady całkowicie ustały, a u myszy wcześniej reagujących na leki liczba odpowiadających na leczenie wzrosła do 83%. Badania wykazały, że gen GPR173 działa poprzez wzmacnianie naturalnych mechanizmów hamujących w mózgu, a zastosowana metoda była bezpieczna bez widocznych skutków ubocznych.

Oryginalny abstract (angielski)

Approximately 30% of epilepsy patients are drug-resistant, and sustained seizure activity often reduces responsiveness to conventional therapies. This study aimed to evaluate the therapeutic efficacy and safety of adeno-associated virus (AAV)-mediated GPR173 gene therapy in two refractory epilepsy mouse models, including delayed-treatment epilepsy (DTE) and drug-resistant epilepsy (DRE), and to investigate its underlying molecular mechanisms. AAV vectors encoding GPR173 under the CaMKII promoter were delivered in the DTE model (after 6 months of epileptogenesis) and the DRE model (following failure of two anti-seizure drugs). The seizure frequency was monitored for a 10-week period respectively before and after the gene therapy. GPR173-targeted gene therapy significantly reduced chronic seizure burden in both refractory TLE models. During the final week of monitoring, no seizures were detected in 25% of DTE mice and 29% of DRE mice. Notably, among mice that were responsive to anti-seizure drugs (ASDs), the subsequent addition of GPR173‑based gene therapy increased such proportion to 83%. Besides, safety was evaluated in healthy mice using brain and peripheral tissue histology and hepatotoxicity tests after CaMKII-driven GPR173 overexpression. To validate promoter selection, additional safety tests with CMV-driven GPR173 expression were included as a positive control for non-specific and high-level expression. No significant neural or peripheral abnormalities were observed after CaMKII-driven AAV delivery compared to CMV-driven expression. Furthermore, mechanistic studies showed that GPR173 upregulation may enhance cortical inhibitory control via increased expression of GABA receptors (GABARs). Overall, this study indicated that CaMKII-driven GPR173 upregulation is an effective and safe gene therapy strategy for refractory epilepsy. Our findings also provide valuable insights into promoter selection for targeted gene therapy and reveal a potential mechanistic link between GPR173 signaling and strengthened cortical inhibition, with implications for clinical translation.

Metadane publikacji

Journal
Acta Pharmacol Sin
Data publikacji
08.07.2026
PMID
42420593
DOI
10.1038/s41401-026-01864-z
Autorzy
Zhang LY, Sun YY, Jiang FX, Zhang HY, Li YH, Ren JM, Xiao ZJ, Yan X, Zeng DX, He JF
Słowa kluczowe
GABAA receptor, GPR173, epilepsy, gene therapy, refractory epilepsy
Źródło
PubMed