Expedient Synthesis of Core Disaccharide Building Blocks from Natural Polysaccharides for Heparan Sulfate Oligosaccharide Assembly

Pawar, Nitin J.; Wang, Lei; Higo, Takuya; Bhattacharya, Chandrabali; Kancharla, Pavan K.; Zhang, Fuming; Baryal, Kedar N.; Huo, Chang‐Xin; Liu, Jian; Linhardt, Robert J.; Huang, Xuefei; Hsieh‐Wilson, Linda C.

doi:10.1002/anie.201908805

Cited by 41 publications

(22 citation statements)

References 56 publications

(16 reference statements)

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“…Hsieh‐Wilson and co‐workers’ have recently described novel access to key HS disaccharide building blocks 35 a – d (Scheme 7). [23] Notably, two of the four core disaccharides generally required for HS assembly were obtained via digestion of readily available natural polysaccharides, enabling a cost‐effective and scalable entry to such materials. Firstly, heparin was hydrolysed to a crude disaccharide using 2 M TfOH at 100 °C, followed by carboxylate esterification and O/ N ‐acetylation in one pot to afford the core d ‐GlcN‐ l ‐IdoA disaccharide 35 a in 18 % yield over 4 steps.…”

Section: Synthetic Methodology Developments For Heparan Sulfate Synthesismentioning

confidence: 99%

“…Hsieh-Wilson and co-workers' have recently described novel access to key HS disaccharide building blocks 35 a-d (Scheme 7). [23] Notably, two of the four core disaccharides generally required for HS assembly were obtained via digestion The authors were also able to access more complex, orthogonally protected disaccharide building blocks, exempli-fied by 37, in just nine steps from heparin (Scheme 8). Disaccharide 37 then underwent strategic protecting group manipulations to afford both donor 38 and acceptor 39 components.…”

Section: Hs Building Blocks From Polysaccharide Digestionmentioning

confidence: 99%

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Developments in the Chemical Synthesis of Heparin and Heparan Sulfate

Pongener

O'Shea

Wootton

et al. 2021

The Chemical Record

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Heparin and heparan sulfate represent key members of the glycosaminoglycan family of carbohydrates and underpin considerable repertoires of biological importance. As such, their efficiency of synthesis represents a key requirement, to further understand and exploit the H/HS structure‐to‐biological function axis. In this review we focus on chemical approaches to and methodology improvements for the synthesis of these essential sugars (from 2015 onwards). We first consider advances in accessing the heparin‐derived pentasaccharide anticoagulant fondaparinux. This is followed by heparan sulfate targets, including key building block synthesis, oligosaccharide construction and chemical sulfation techniques. We end with a consideration of technological improvements to traditional, solution‐phase synthesis approaches that are increasingly being utilised.

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Section: Synthetic Methodology Developments For Heparan Sulfate Synthesismentioning

confidence: 99%

Section: Hs Building Blocks From Polysaccharide Digestionmentioning

confidence: 99%

Developments in the Chemical Synthesis of Heparin and Heparan Sulfate

Pongener

O'Shea

Wootton

et al. 2021

The Chemical Record

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“…Recently, a clever approach suggested the controlled hydrolysis of commercially available heparin and heparosan polymers to overcome the challenges associated with the chemical synthesis of the disaccharide cores ( Scheme 20 ) [ 405 ]. NMR spectroscopy revealed that, after acid hydrolysis, both polymers produced one type of dimer as the major product (e.g., A-B or B-A).…”

Section: Reviewmentioning

confidence: 99%

Progress and challenges in the synthesis of sequence controlled polysaccharides

Fittolani¹,

Tyrikos‐Ergas²,

Vargová³

et al. 2021

Beilstein J. Org. Chem.

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The sequence, length and substitution of a polysaccharide influence its physical and biological properties. Thus, sequence controlled polysaccharides are important targets to establish structure–properties correlations. Polymerization techniques and enzymatic methods have been optimized to obtain samples with well-defined substitution patterns and narrow molecular weight distribution. Chemical synthesis has granted access to polysaccharides with full control over the length. Here, we review the progress towards the synthesis of well-defined polysaccharides. For each class of polysaccharides, we discuss the available synthetic approaches and their current limitations.

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“…Pawar et al. employed the C5‐bromo reduction strategy via Bu 3 SnH based epimerization reaction in disaccharides of Heparin and N−Ac‐Heparin [45] …”

Section: Strategies For the Synthesis Of L‐sugarsmentioning

confidence: 99%

“…Pawar et al employed the C5-bromo reduction strategy via Bu 3 SnH based epimerization reaction in disaccharides of Heparin and NÀ Ac-Heparin. [45] Yet another well explored C5 epimerization method for the synthesis of L-sugar starting from alkenes is through hydroboration/oxidation. The technique requires 6-deoxy D-sugar unit on which elimination is performed to get an exocyclic alkene.…”

Section: C5 Epimerization Of D-hexosesmentioning

confidence: 99%

Synthesis of L‐Hexoses: An Update

Paul

Kulkarni

2021

The Chemical Record

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Over the years, carbohydrates have increasingly become an important class of compounds contributing significantly to the target specific drug discovery and vaccine development. Several oligosaccharides contain L‐hexoses that are biologically relevant as therapeutic and diagnostic tools. Since, L‐hexoses and deoxy L‐hexoses are not readily available in large amount and pure form, attention is drawn towards development of cost effective and high yielding synthetic routes for their procurement. In this review we give an update on the recent developments in strategies for synthesis of L‐hexoses and deoxy L‐hexoses.

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Expedient Synthesis of Core Disaccharide Building Blocks from Natural Polysaccharides for Heparan Sulfate Oligosaccharide Assembly

Cited by 41 publications

References 56 publications

Developments in the Chemical Synthesis of Heparin and Heparan Sulfate

Developments in the Chemical Synthesis of Heparin and Heparan Sulfate

Progress and challenges in the synthesis of sequence controlled polysaccharides

Synthesis of L‐Hexoses: An Update

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