Invariant chain induces a delayed transport from early to late endosomes

Abstract

Invariant chain associated with class II molecules is proteolytically processed in several distinct intermediates during its transport through the endocytic pathway. Using subcellular fractionation, early and late endosomal compartments were separated in human fibroblasts transfected with HLA-DR (4N5 cells) and supertransfected with invariant chain (4N5Ii cells) or invariant chain lacking most of the cytoplasmic tail (4N5Δ20Ii cells). Early and late endosome membrane fractions were characterized by morphology and by analyzing the presence of the Rab5 and Rab7 GTPases as markers of early and late endosomes, respectively. The transfer of endocytosed horseradish peroxidase from early to late endosomes proceeded relatively rapid both in 4N5 and 4N5Δ20Ii cells (t' 1/2 = 25 min), whereas this transfer was significantly delayed (t' 1/2 = 2 h) in 4N5Ii cells. Pulse-chase experiments showed that invariant chain and its degradation products were first observed in early endosomes and thereafter in late endosomes. Our results strongly suggest that invariant chain induces a retention mechanism in the endocytic pathway.