The asialoglycoprotein receptor (ASGPR) and the mannose receptor C-type 1 (MRC1) are well-known for their selective recognition and clearance of circulating glycoproteins. Terminal galactose and N-Acetylgalactosamine are recognized by ASGPR, while terminal mannose, fucose, and N-Acetylglucosamine are recognized by MRC1. The effects of ASGPR and MRC1 deficiency on the N-glycosylation of individual circulating proteins have been studied. However, the impact on the homeostasis of the major plasma glycoproteins is debated and their glycosylation has not been mapped with high molecular resolution in this context. Therefore, we evaluated the total plasma N-glycome and plasma proteome of ASGR1 and MRC1 deficient mice. ASGPR deficiency resulted in an increase in O-acetylation of sialic acids accompanied with higher levels of apolipoprotein D, haptoglobin and vitronectin. MRC1 deficiency decreased fucosylation without affecting the abundance of the major circulating glycoproteins. Our findings confirm that concentrations and N-glycosylation of the major plasma proteins are tightly controlled and further suggests that glycan-binding receptors have redundancy, allowing compensation for the loss of one major clearance receptor.
Impact of asialoglycoprotein receptor and mannose receptor deficiency on murine plasma N-glycome profiles / M. Svecla, J. Nour, M.R. Bladergroen, S. Nicolardi, T. Zhang, G. Beretta, M. Wuhrer, G.D. Norata, D. Falck. - In: MOLECULAR & CELLULAR PROTEOMICS. - ISSN 1535-9476. - (2023). [Epub ahead of print] [10.1016/j.mcpro.2023.100615]
Impact of asialoglycoprotein receptor and mannose receptor deficiency on murine plasma N-glycome profiles
M. SveclaPrimo
;J. NourSecondo
;G. Beretta;G.D. NorataPenultimo
;
2023
Abstract
The asialoglycoprotein receptor (ASGPR) and the mannose receptor C-type 1 (MRC1) are well-known for their selective recognition and clearance of circulating glycoproteins. Terminal galactose and N-Acetylgalactosamine are recognized by ASGPR, while terminal mannose, fucose, and N-Acetylglucosamine are recognized by MRC1. The effects of ASGPR and MRC1 deficiency on the N-glycosylation of individual circulating proteins have been studied. However, the impact on the homeostasis of the major plasma glycoproteins is debated and their glycosylation has not been mapped with high molecular resolution in this context. Therefore, we evaluated the total plasma N-glycome and plasma proteome of ASGR1 and MRC1 deficient mice. ASGPR deficiency resulted in an increase in O-acetylation of sialic acids accompanied with higher levels of apolipoprotein D, haptoglobin and vitronectin. MRC1 deficiency decreased fucosylation without affecting the abundance of the major circulating glycoproteins. Our findings confirm that concentrations and N-glycosylation of the major plasma proteins are tightly controlled and further suggests that glycan-binding receptors have redundancy, allowing compensation for the loss of one major clearance receptor.
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