Structural and quantitative characterization of membrane N-glycans from MIN6 mouse pancreatic beta cells using liquid chromatography-quadrupole-Orbitrap tandem mass spectrometry

MIN6, a mouse pancreatic beta cell line, is used in diabetes research, and the cellular N-glycoproteins in membrane are important in regulating the metabolism of insulin secretion. However, the identities of N-glycans in MIN6 cells are yet to be fully elucidated. In this study, the structures of N-glycans were analyzed using liquid chromatography-electrospray ionization-higher energy collisional dissociation-tandem mass spectrometry. The abundances (%) of each N-glycan relative to the total N-glycans (100 %) were also obtained. Fifty N-glycans (with relative abundance of each > 0.5 %) were obtained, revealing 22 bisecting N-acetylglucosamine (GlcNAc; associated with cell adhesion and growth; sum of relative abundance of each: 27.1 %), 21 core-fucosylated (associated with glucose sensing and insulin secretion regulation; 28.3 %), and 16 sialylated (N-acetylneuraminic acid; related to the expression of glucose transporters and diabetes;15.5 %) N-glycans. Membranes contained higher bisecting GlcNAc and core-fucosylation, similar sialylation, but less high-mannosylation than the lysate (the cellular contents). Notably, all bisecting GlcNAc N-glycans were categorized into structures with (16.6 %) or without (10.5 %) core-fucosylation and with (6.9 %) or without (20.2 %) sialylation. The bisecting GlcNAc structures were not found in human islets; moreover, sialylation levels were 6.9 times higher than for human islets. These structural characteristics of N-glycans affect their cell adhesion and distribution through homologous interactions between beta cells, leading to increased insulin secretion efficiency. This study is the first to identify the structures and quantities of 50 N-glycans in MIN6 cell membranes that may play an important role in regulating the functions of pancreatic beta cells.