Effects of macromolecular crowding on the folding and aggregation of glycosylated MUC5AC.

OBJECTIVE: To investigate the effects of macromolecular crowding on the folding and aggregation of MUC5AC with different levels of glycosylation during refolding. METHODS: Part 1:An in vitro catalytic reaction comprising the ppGalNAc T2 enzyme, uridine-5'-diphospho-N-galactosamine (UDP-GalNAc) and an 11-amino acid peptide substrate, was used to assess the enzyme activity of the ppGalNAc T2 enzyme in macromolecular crowding environment respectively with bovine serum albumin (BSA), polyethylene glycol (PEG2000), Dextran70 and Ficoll70 at different concentration and temperature. Part 2: The recombinant MUC5AC was expressed in HEK293 cells and purified by nickel column chromatography. The purified protein was treated with PNGase F, and the degree of glycosylation was analyzed by SDS-PAGE. Macromolecular crowding was simulated using PEG2000 at the concentrations of 50, 100, and 200 g/L. Deglycosylated-MUC5AC (d-MUC5AC) and glycosylated MUC5AC (g-MUC5AC) were denatured by GdnHCl and renatured by dilution in a refolding buffer. Protein aggregation was monitored continuously by absorbance reading at 488 nm using a UV spectrophotometer at 25 °C. The refolded proteins were centrifuged, the protein concentration of the supernatant was measured, and refolding yield in different refolding buffers was determined. RESULTS: Enzyme activityof ppGalNAc T2 was observed to increase with increasing crowding agent concentration, with highest enzyme activity at 200 g/L. Compared with the group in the absence of crowding reagent, the refolding yield of g-MUC5AC and d-MUC5AC were reduced significantly in the presence of different concentrations of PEG2000 (200, 100, and 50 g/L). Compared with the dilute solution, aggregation increased significantly in the presence of PEG2000, especially at 200 g/L. Moreover, in the crowded reagent with the same concentration, the refolding yield of d-MUC5AC was higher than that of g-MUC5AC, whereas the degree of aggregation of d-MUC5AC was lower than that of g-MUC5AC. CONCLUSION: The crowded intracellular environment reduces the refolding rate of MUC5AC and strongly induces the misfolding and aggregation of glycosylated MUC5AC.