Glycosylation signals that separate the trimerization from the mhc class II-binding domain control intracellular degradation of invariant chain.

Invariant chain (Ii) serves as a chaperone for folding and intracellular transport of major histocompatibility complex class II (MHCII) molecules. Early in biosynthesis, Ii associates with MHCII molecules and directs their intracellular transport to endocytic compartments where vesicular proteinases sequentially release Ii from the MHCII heterodimer. The detachment of Ii makes the MHCII groove susceptible for binding of antigenic peptides. We investigated the role of N-linked glycosylation in the controlled intracellular degradation of Ii. Motifs for asparagine-linked glycosylation were altered, and mutated Ii (IiNmut) was transiently expressed in COS cells. The half-life of IiNmut was strongly reduced compared with wild-type Ii although the sensitivity of the N glycan-free polypeptide to in vitro proteinase digestion was not substantially increased. Inhibition of vesicular proteinases revealed endosomal degradation of IiNmut. Intracellular proteolysis of IiNmut is substantially impaired by serine proteinase inhibitors. Thus, a considerable amount of IiNmut is degraded in nonacidic intracellular compartments. The data suggest that N-linked glycosylation of Ii hinders premature proteolysis in nonacidic vesicles resulting in Ii degradation in acidic MHC class II-processing compartments.