Defective Ca2+ binding in a conserved binding site causes incomplete N-glycan processing and endoplasmic reticulum trapping of discoidin domain receptors

Abstract

An X-ray crystallographic study has suggested that vertebrate discoidin domain receptors (DDRs) have a conserved Ca2+ binding site. DDR1 and DDR2 transfected in HEK293 cells were expressed mainly as 120 and 130kDa forms, respectively, as they are sufficiently N-glycosylated. However, both of them showed the molecular weight of 110kDa predominantly in the cells cultured with Ca2+-depleted media. DDR2-carrying D234A mutation at the conserved Ca2+-binding site expressed the 110kDa form dominantly even in normal culture condition. DDR2 becomes 100kDa form in glucose-depleted culture condition and its molecular weight increases up to 130kDa with re-feeding glucose. However, in the mutant DDR2, the increase came to a halt at 110kDa. The 110kDa form had premature N-glycosyl carbohydrates and located predominantly within the endoplasmic reticulum. These results suggest that DDRs require Ca2+-binding to complete their N-glycan processing and generate the form targeted to cell membrane.