Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands

Sarah-Jane Richards; Tessa Keenan; Jean-Baptiste Vendeville; David E Wheatley; Harriet Chidwick; Darshita Budhadev; Claire E Council; Claire S Webster; Helene Ledru; Alexander N Baker; Marc Walker; M Carmen Galan; Bruno Linclau; Martin A Fascione; Matthew I Gibson

doi:10.1039/d0sc05360k

Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands

Sarah-Jane Richards, Tessa Keenan, Jean-Baptiste Vendeville, David E Wheatley, Harriet Chidwick, Darshita Budhadev, Claire E Council, Claire S Webster, Helene Ledru, Alexander N Baker, Marc Walker, M Carmen Galan, Bruno Linclau, Martin A Fascione, Matthew I Gibson

Research output: Contribution to journal › Article (Academic Journal) › peer-review

31 Citations (Scopus)

Abstract

Galectins are potential biomarkers and therapeutic targets. However, galectins display broad affinity towards β-galactosides meaning glycan-based (nano)biosensors lack the required selectivity and affinity. Using a polymer-stabilized nanoparticle biosensing platform, we herein demonstrate that the specificity of immobilised lacto-N-biose towards galectins can be 'turned on/off' by using site-specific glycan fluorination and in some cases reversal of specificity can be achieved. The panel of fluoro-glycans were obtained by a chemoenzymatic approach, exploiting BiGalK and BiGalHexNAcP enzymes from Bifidobacterium infantis which are shown to tolerate fluorinated glycans, introducing structural diversity which would be very laborious by chemical methods alone. These results demonstrate that integrating non-natural, fluorinated glycans into nanomaterials can encode unprecedented selectivity with potential applications in biosensing.

Original language	English
Pages (from-to)	905-910
Number of pages	6
Journal	Chemical Science
Volume	12
Issue number	3
DOIs	https://doi.org/10.1039/d0sc05360k
Publication status	Published - 16 Nov 2020

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This journal is © The Royal Society of Chemistry.

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Organic & Biological

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Richards, S.-J., Keenan, T., Vendeville, J.-B., Wheatley, D. E., Chidwick, H., Budhadev, D., Council, C. E., Webster, C. S., Ledru, H., Baker, A. N., Walker, M., Galan, M. C., Linclau, B., Fascione, M. A., & Gibson, M. I. (2020). Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands. Chemical Science, 12(3), 905-910. https://doi.org/10.1039/d0sc05360k

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title = "Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands",

abstract = "Galectins are potential biomarkers and therapeutic targets. However, galectins display broad affinity towards β-galactosides meaning glycan-based (nano)biosensors lack the required selectivity and affinity. Using a polymer-stabilized nanoparticle biosensing platform, we herein demonstrate that the specificity of immobilised lacto-N-biose towards galectins can be 'turned on/off' by using site-specific glycan fluorination and in some cases reversal of specificity can be achieved. The panel of fluoro-glycans were obtained by a chemoenzymatic approach, exploiting BiGalK and BiGalHexNAcP enzymes from Bifidobacterium infantis which are shown to tolerate fluorinated glycans, introducing structural diversity which would be very laborious by chemical methods alone. These results demonstrate that integrating non-natural, fluorinated glycans into nanomaterials can encode unprecedented selectivity with potential applications in biosensing.",

author = "Sarah-Jane Richards and Tessa Keenan and Jean-Baptiste Vendeville and Wheatley, \{David E\} and Harriet Chidwick and Darshita Budhadev and Council, \{Claire E\} and Webster, \{Claire S\} and Helene Ledru and Baker, \{Alexander N\} and Marc Walker and Galan, \{M Carmen\} and Bruno Linclau and Fascione, \{Martin A\} and Gibson, \{Matthew I\}",

note = "This journal is {\textcopyright} The Royal Society of Chemistry.",

year = "2020",

month = nov,

day = "16",

doi = "10.1039/d0sc05360k",

language = "English",

volume = "12",

pages = "905--910",

journal = "Chemical Science",

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Richards, S-J, Keenan, T, Vendeville, J-B, Wheatley, DE, Chidwick, H, Budhadev, D, Council, CE, Webster, CS, Ledru, H, Baker, AN, Walker, M, Galan, MC, Linclau, B, Fascione, MA & Gibson, MI 2020, 'Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands', Chemical Science, vol. 12, no. 3, pp. 905-910. https://doi.org/10.1039/d0sc05360k

TY - JOUR

T1 - Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands

AU - Richards, Sarah-Jane

AU - Keenan, Tessa

AU - Vendeville, Jean-Baptiste

AU - Wheatley, David E

AU - Chidwick, Harriet

AU - Budhadev, Darshita

AU - Council, Claire E

AU - Webster, Claire S

AU - Ledru, Helene

AU - Baker, Alexander N

AU - Walker, Marc

AU - Galan, M Carmen

AU - Linclau, Bruno

AU - Fascione, Martin A

AU - Gibson, Matthew I

PY - 2020/11/16

Y1 - 2020/11/16

N2 - Galectins are potential biomarkers and therapeutic targets. However, galectins display broad affinity towards β-galactosides meaning glycan-based (nano)biosensors lack the required selectivity and affinity. Using a polymer-stabilized nanoparticle biosensing platform, we herein demonstrate that the specificity of immobilised lacto-N-biose towards galectins can be 'turned on/off' by using site-specific glycan fluorination and in some cases reversal of specificity can be achieved. The panel of fluoro-glycans were obtained by a chemoenzymatic approach, exploiting BiGalK and BiGalHexNAcP enzymes from Bifidobacterium infantis which are shown to tolerate fluorinated glycans, introducing structural diversity which would be very laborious by chemical methods alone. These results demonstrate that integrating non-natural, fluorinated glycans into nanomaterials can encode unprecedented selectivity with potential applications in biosensing.

AB - Galectins are potential biomarkers and therapeutic targets. However, galectins display broad affinity towards β-galactosides meaning glycan-based (nano)biosensors lack the required selectivity and affinity. Using a polymer-stabilized nanoparticle biosensing platform, we herein demonstrate that the specificity of immobilised lacto-N-biose towards galectins can be 'turned on/off' by using site-specific glycan fluorination and in some cases reversal of specificity can be achieved. The panel of fluoro-glycans were obtained by a chemoenzymatic approach, exploiting BiGalK and BiGalHexNAcP enzymes from Bifidobacterium infantis which are shown to tolerate fluorinated glycans, introducing structural diversity which would be very laborious by chemical methods alone. These results demonstrate that integrating non-natural, fluorinated glycans into nanomaterials can encode unprecedented selectivity with potential applications in biosensing.

U2 - 10.1039/d0sc05360k

DO - 10.1039/d0sc05360k

M3 - Article (Academic Journal)

C2 - 34163856

SN - 2041-6520

VL - 12

SP - 905

EP - 910

JO - Chemical Science

JF - Chemical Science

IS - 3

ER -

Introducing affinity and selectivity into galectin-targeting nanoparticles with fluorinated glycan ligands

Abstract

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