Jennie G. Briard scite author profile

The study of cellular glycosylation presents many challenges due, in large part, to the non-template driven nature of glycan biosynthesis and their structural complexity. Chemoenzymatic glycan labeling (CEGL) has emerged as a new technique to address the limitations of existing methods for glycan detection. CEGL combines glycosyltransferases and unnatural nucleotide sugar donors equipped with a bioorthogonal chemical tag to directly label specific glycan acceptor substrates in situ within biological samples. This article reviews the current CEGL strategies that are available to characterize cell-surface and intracellular glycans. Applications include imaging glycan expression status in live cells and tissue samples, proteomic analysis of glycoproteins, and target validation. Combined with genetic and biochemical tools, CEGL provides new opportunities to elucidate the functional roles of glycans in human health and disease.

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Cell-based glycan arrays for probing glycan–glycan binding protein interactions

Briard

et al. 2018

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Glycan microarrays provide a high-throughput means of profiling the interactions of glycan-binding proteins with their ligands. However, the construction of current glycan microarray platforms is time consuming and expensive. Here, we report a fast and cost-effective method for the assembly of cell-based glycan arrays to probe glycan–glycan-binding protein interactions directly on the cell surface. Chinese hamster ovary cell mutants with a narrow and relatively homogeneous repertoire of glycoforms serve as the foundation platforms to develop these arrays. Using recombinant glycosyltransferases, sialic acid, fucose, and analogs thereof are installed on cell-surface glycans to form cell-based arrays displaying diverse glycan epitopes that can be probed with glycan-binding proteins by flow cytometry. Using this platform, high-affinity glycan ligands are discovered for Siglec-15—a sialic acid-binding lectin involved in osteoclast differentiation. Incubating human osteoprogenitor cells with cells displaying a high-affinity Siglec-15 ligand impairs osteoclast differentiation, demonstrating the utility of this cell-based glycan array technology.

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Small molecule ice recrystallization inhibitors mitigate red blood cell lysis during freezing, transient warming and thawing

Briard

Poisson

Turner

et al. 2016

Sci Rep

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During cryopreservation, ice recrystallization is a major cause of cellular damage. Conventional cryoprotectants such as dimethyl sulfoxide (DMSO) and glycerol function by a number of different mechanisms but do not mitigate or control ice recrystallization at concentrations utilized in cryopreservation procedures. In North America, cryopreservation of human red blood cells (RBCs) utilizes high concentrations of glycerol. RBC units frozen under these conditions must be subjected to a time-consuming deglycerolization process after thawing in order to remove the glycerol to <1% prior to transfusion thus limiting the use of frozen RBC units in emergency situations. We have identified several low molecular mass ice recrystallization inhibitors (IRIs) that are effective cryoprotectants for human RBCs, resulting in 70–80% intact RBCs using only 15% glycerol and slow freezing rates. These compounds are capable of reducing the average ice crystal size of extracellular ice relative to a 15% glycerol control validating the positive correlation between a reduction in ice crystal size and increased post-thaw recovery of RBCs. The most potent IRI from this study is also capable of protecting frozen RBCs against the large temperature fluctuations associated with transient warming.

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One ring to rule them all: effect of aryl substitution on glass-forming ability in mexylaminotriazine molecular glasses

et al. 2012

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Jennie G. Briard

Designing ice recrystallization inhibitors: from antifreeze (glyco)proteins to small molecules

Tools for Studying Glycans: Recent Advances in Chemoenzymatic Glycan Labeling

Cell-based glycan arrays for probing glycan–glycan binding protein interactions

Small molecule ice recrystallization inhibitors mitigate red blood cell lysis during freezing, transient warming and thawing

One ring to rule them all: effect of aryl substitution on glass-forming ability in mexylaminotriazine molecular glasses

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