Maxence Noël scite author profile

Glycosylation is essential to brain development and function, but prior studies have often been limited to a single analytical technique and excluded region- and sex-specific analyses. Here, using several methodologies, we analyze Asn-linked and Ser/Thr/Tyr-linked protein glycosylation between brain regions and sexes in mice. Brain N-glycans are less complex in sequence and variety compared to other tissues, consisting predominantly of high-mannose and fucosylated/bisected structures. Most brain O-glycans are unbranched, sialylated O-GalNAc and O-mannose structures. A consistent pattern is observed between regions, and sex differences are minimal compared to those in plasma. Brain glycans correlate with RNA expression of their synthetic enzymes, and analysis of glycosylation genes in humans show a global downregulation in the brain compared to other tissues. We hypothesize that this restricted repertoire of protein glycans arises from their tight regulation in the brain. These results provide a roadmap for future studies of glycosylation in neurodevelopment and disease.

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Probing the CMP‐Sialic Acid Donor Specificity of Two Human β‐d‐Galactoside Sialyltransferases (ST3Gal I and ST6Gal I) Selectively Acting on O‐ and N‐Glycosylproteins

Noël

Gilormini

Cogez

et al. 2017

ChemBioChem

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Sialylation of glycoproteins and glycolipids is catalyzed by sialyltransferases in the Golgi of mammalian cells, whereby sialic acid residues are added at the nonreducing ends of oligosaccharides. Because sialylated glycans play critical roles in a number of human physio‐pathological processes, the past two decades have witnessed the development of modified sialic acid derivatives for a better understanding of sialic acid biology and for the development of new therapeutic targets. However, nothing is known about how individual mammalian sialyltransferases tolerate and behave towards these unnatural CMP‐sialic acid donors. In this study, we devised several approaches to investigate the donor specificity of the human β‐d‐galactoside sialyltransferases ST6Gal I and ST3Gal I by using two CMP‐sialic acids: CMP‐Neu5Ac, and CMP‐Neu5N‐(4pentynoyl)neuraminic acid (CMP‐SiaNAl), an unnatural CMP‐sialic acid donor with an extended and functionalized N‐acyl moiety.

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Maxence Noël

Mammalian brain glycoproteins exhibit diminished glycan complexity compared to other tissues

Probing the CMP‐Sialic Acid Donor Specificity of Two Human β‐d‐Galactoside Sialyltransferases (ST3Gal I and ST6Gal I) Selectively Acting on O‐ and N‐Glycosylproteins

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