2015
DOI: 10.1016/j.tetlet.2015.01.016
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Synthesis of a polymerizable, bivalent glycan mimetic of the HIV envelope spike gp120

Abstract: A synthetic study on the creation of a bivalent, ROMP capable monomer has the ability to be polymerized into the corresponding neo-glycopolymer mimetic of the surface glycans on gp120 envelope spike of the HIV virus. In our approach, we have developed a new strategy for orthogonally attaching both the terminal Manα1-2Man disaccharide unit of the D1 arm of Man9GlcNAc2 of HIV gp120 and the terminal Manα1-2 unit of its D2 arm to a bivalent scaffold to produce the corresponding polymerizable monomer. The Manα1-2 s… Show more

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Cited by 4 publications
(8 citation statements)
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References 60 publications
(46 reference statements)
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“…Recently, our group synthesized a similar heterobifunctional monomer with the calculated spacing between anomeric centers of mannose units at about 13 Å using solid state 3D-modeling software. 46 Based on this calculation, we hypothesize that the proximity between two sugar units would facilitate enhanced binding to the extended binding site of Con A in a similar manner as observed by Brewer with branched trisaccharides. 47 With this approach in mind, each glycan (Scheme 2) with its respective orthogonal functionality was sequentially coupled to the polymerizable scaffold 21 (Schemes 3 – 5) bearing the terminal alkyne and carboxylic acid functional groups.…”
Section: Resultssupporting
confidence: 60%
See 1 more Smart Citation
“…Recently, our group synthesized a similar heterobifunctional monomer with the calculated spacing between anomeric centers of mannose units at about 13 Å using solid state 3D-modeling software. 46 Based on this calculation, we hypothesize that the proximity between two sugar units would facilitate enhanced binding to the extended binding site of Con A in a similar manner as observed by Brewer with branched trisaccharides. 47 With this approach in mind, each glycan (Scheme 2) with its respective orthogonal functionality was sequentially coupled to the polymerizable scaffold 21 (Schemes 3 – 5) bearing the terminal alkyne and carboxylic acid functional groups.…”
Section: Resultssupporting
confidence: 60%
“…Even though β -glucose itself does not bind to Con A, we hypothesize that the amannose bound to Con A might facilitate interaction of β -glucose with the extended binding site of Con A due to the close proximity (13 Å) of β-glucose to α–mannose residues in the designed polymerizable scaffold. 46 …”
Section: Resultsmentioning
confidence: 99%
“…Structure of Man9­GlcNAc 2 and the terminal Man-α-(1–2) unit to form a bivalent scaffold with a polymerizable monomer …”
Section: Glycopolymersmentioning
confidence: 99%
“…Nguyen and co-workers synthesized a bivalent polymerizable glycan monomer that could be polymerized under standard reaction conditions in the targeted neoglycopolymer mimetic of the surface glycans of the gp120 envelop of HIV . In order to develop the bivalent polymerizable monomer 449 , ROMP-capable rigid linker 447 exhibiting orthogonal functionality was chosen and was coupled with the terminal monosaccharide amine 446 to give scaffold 448 , followed by CuAAC click with the terminal Man−α-1,2-Man disaccharide unit of the D1 arm of Man9GlcNAc 2 of HIV gp120 using CuI/DIPEA in DMF at 50 °C (Scheme ).…”
Section: Cuaac Click Chemistry Mediated Synthesis Of Diverse Glycocon...mentioning
confidence: 99%
“…In order to develop the bivalent polymerizable monomer 449 , ROMP-capable rigid linker 447 exhibiting orthogonal functionality was chosen and was coupled with the terminal monosaccharide amine 446 to give scaffold 448 , followed by CuAAC click with the terminal Man−α-1,2-Man disaccharide unit of the D1 arm of Man9GlcNAc 2 of HIV gp120 using CuI/DIPEA in DMF at 50 °C (Scheme ). The binding affinity of the developed bivalent polymerizable monomer is still under investigation.…”
Section: Cuaac Click Chemistry Mediated Synthesis Of Diverse Glycocon...mentioning
confidence: 99%