- Higuchi-Sanabria, Ryo;
- Shen, Koning;
- Kelet, Naame;
- Frankino, Phillip A;
- Durieux, Jenni;
- Bar-Ziv, Raz;
- Sing, Cierra N;
- Garcia, Enrique J;
- Homentcovschi, Stefan;
- Sanchez, Melissa;
- Wu, Rui;
- Tronnes, Sarah U;
- Joe, Larry;
- Webster, Brant;
- Ahilon-Jeronimo, Alex;
- Monshietehadi, Samira;
- Dallarda, Sofia;
- Pender, Corinne;
- Pon, Liza A;
- Zoncu, Roberto;
- Dillin, Andrew
Recent work has highlighted the fact that lysosomes are a critical signaling hub of metabolic processes, providing fundamental building blocks crucial for anabolic functions. How lysosomal functions affect other cellular compartments is not fully understood. Here, we find that lysosomal recycling of the amino acids lysine and arginine is essential for proper ER quality control through the UPRER. Specifically, loss of the lysine and arginine amino acid transporter LAAT-1 results in increased sensitivity to proteotoxic stress in the ER and decreased animal physiology. We find that these LAAT-1-dependent effects are linked to glycine metabolism and transport and that the loss of function of the glycine transporter SKAT-1 also increases sensitivity to ER stress. Direct lysine and arginine supplementation, or glycine supplementation alone, can ameliorate increased ER stress sensitivity found in laat-1 mutants. These data implicate a crucial role in recycling lysine, arginine, and glycine in communication between the lysosome and ER.