J Biol Chem. 2023 Oct 31. pii: S0021-9258(23)02444-4. [Epub ahead of print] 105416
Cunjie Zhang,
Massiullah Shafaq-Zadah,
Judy Pawling,
Geoffrey G Hesketh,
Estelle Dransart,
Karina Pacholczyk,
Joseph Longo,
Anne-Claude Gingras,
Linda Z Penn,
Ludger Johannes,
James W Dennis.
Proteostasis requires oxidative metabolism (ATP) and mitigation of the associated damage by glutathione, in an increasing dysfunctional relationship with aging. SLC3A2 (4F2hc, CD98) plays a role as a disulfide-linked adaptor to the SLC7A5 and SLC7A11 exchangers which import essential amino acids and cystine while exporting Gln and Glu, respectively. The positions of N-glycosylation sites on SLC3A2 have evolved with the emergence of primates, presumably in synchrony with metabolism. Herein, we report that each of the four sites in SLC3A2 have distinct profiles of Golgi-modified N-glycans. N-glycans at the primate-derived site N381 stabilized SLC3A2 in the galectin-3 lattice against coated-pit endocytosis, while N365, the site nearest the membrane promoted glycolipid-galectin-3 (GL-Lect) driven endocytosis. Our results indicate that surface retention and endocytosis are precisely balanced by the number, position, and remodeling of N-glycans on SLC3A2. Furthermore, proteomics and functional assays revealed an N-glycan-dependent clustering of the SLC3A2*SLC7A5 heterodimer with amino-acid /Na+ symporters (SLC1A4, SLC1A5) that balances branched-chain amino acids and Gln levels, at the expense of ATP to maintain the Na+/K+ gradient. In replete conditions, SLC3A2 interactions require Golgi-modified N-glycans at N365D and N381D, whereas reducing N-glycosylation in the endoplasmic reticulum by fluvastatin treatment promoted the recruitment of CD44 and transporters needed to mitigate stress. Thus, SLC3A2 N-glycosylation and Golgi remodeling of the N-glycans have distinct roles in amino acids import for growth, maintenance, and metabolic stresses.
Keywords: Amino acids; evolution; galectins; metabolism; transporters N-glycosylation