IFNγ protects motor neurons from oxidative stress via enhanced global protein synthesis in FUS-associated amyotrophic lateral sclerosis.
Amanda Faria AssoniErika N GuerreroRené WardenaarDanyllo OliveiraPetra L BakkerLuciana M AlvesValdemir Melechco CarvalhoOswaldo Keith OkamotoMayana ZatzFloris FoijerPublished in: Brain pathology (Zurich, Switzerland) (2023)
Amyotrophic lateral sclerosis type 6 (ALS6) is a familial subtype of ALS linked to Fused in Sarcoma (FUS) gene mutation. FUS mutations lead to decreased global protein synthesis, but the mechanism that drives this has not been established. Here, we used ALS6 patient-derived induced pluripotent stem cells (hIPSCs) to study the effect of the ALS6 FUS R521H mutation on the translation machinery in motor neurons (MNs). We find, in agreement with findings of others, that protein synthesis is decreased in FUS R521H MNs. Furthermore, FUS R521H MNs are more sensitive to oxidative stress and display reduced expression of TGF-β and mTORC gene pathways when stressed. Finally, we show that IFNγ treatment reduces apoptosis of FUS R521H MNs exposed to oxidative stress and partially restores the translation rates in FUS R521H MNs. Overall, these findings suggest that a functional IFNγ response is important for FUS-mediated protein synthesis, possibly by FUS nuclear translocation in ALS6.