Combined ex vivo and in vivo evaluation of dolutegravir embryotoxicity: NTDs and yolk sac vascular abnormalities.

Dolutegravir (DTG) disrupts mouse embryonic development in a dose-dependent manner, culminating in neural-tube defects (NTDs). Using whole embryo culture (WEC), mouse embryos at embryonic day 8.5 (E8.5) are cultured for 24-48†h with 8, 10, or 12†μM DTG. The results reveal that higher DTG concentrations dose-dependently disrupt yolk sac development and markedly increase the frequency of NTDs. In vivo NTD models are generated by intraperitoneally injecting DTG at a dose of 7.5†mg/kg, and the resulting embryos exhibit disrupted yolk sac blood circulation, embryonic growth restriction, and malformations. Mechanistic studies suggest that DTG contributes to NTDs by inducing apoptosis: DTG exposure activates the Nrf2-SOD1/CAT antioxidant axis, yet it culminates in increased apoptosis and suppressed proliferation, ultimately impairing yolksac vasculogenesis and neuralepithelial closure, thereby producing NTDs. This study provides new evidence for assessing the potential risk of DTG in embryonic development and highlights the need to re-evaluate its clinical safety in future applications.