A mutant-cell library for systematic analysis of heparan sulfate structure–function relationships

Qiu, Hong; Shi, Songshan; Yue, Jingwen; Meng, Xianjun; Nairn, Alison V.; Lei, Lin; Liu, Xinyue; Li, Guoyun; Archer-Hartmann, Stephanie; Rosa, Mitche dela; Galizzi, Melina; Wang, Shunchun; Zhang, Fuming; Azadi, Parastoo; Kuppevelt, Toin H. Van; Cardoso, Wellington V.; Kimata, Koji; Ai, Xingbin; Moremen, Kelley W.; Esko, Jeffrey D.; Linhardt, Robert J.; Wang, Lianchun

doi:10.1038/s41592-018-0189-6

Cited by 70 publications

(93 citation statements)

References 62 publications

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“…The selection of Hs3st1 was based on the expression profiles of HS 3‐ O ‐sulfotransferases in primary mouse cerebral cortex neurons determined by RNA‐seq, with the highest expression level observed for Hs3st1 among all Hs3st s (see Figure S4). The Hs3st1 −/− MLEC line was derived from the WT parent line using CRISPR‐Cas9 gene‐editing and expressed normal levels of NS, 6‐ O ‐S, and 2‐ O ‐S (see Figure S5A), but reduced level of 3‐ O ‐S (confirmed by significantly reduced cell surface binding to antithrombin III requiring a 3‐ O ‐S for binding, see Figure S5B) . Biotinylated tau was generated and incubated with cells, followed by washing and detection of surface‐bound tau with streptavidin‐HRP.…”

Section: Resultsmentioning

confidence: 99%

3‐O‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake

et al. 2019

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Prion‐like transcellular spreading of tau in Alzheimer's Disease (AD) is mediated by tau binding to cell surface heparan sulfate (HS). However, the structural determinants for tau–HS interaction are not well understood. Microarray and SPR assays of structurally defined HS oligosaccharides show that a rare 3‐O‐sulfation (3‐O‐S) of HS significantly enhances tau binding. In Hs3st1−/− (HS 3‐O‐sulfotransferase‐1 knockout) cells, reduced 3‐O‐S levels of HS diminished both cell surface binding and internalization of tau. In a cell culture, the addition of a 3‐O‐S HS 12‐mer reduced both tau cell surface binding and cellular uptake. NMR titrations mapped 3‐O‐S binding sites to the microtubule binding repeat 2 (R2) and proline‐rich region 2 (PRR2) of tau. Tau is only the seventh protein currently known to recognize HS 3‐O‐sulfation. Our work demonstrates that this rare 3‐O‐sulfation enhances tau–HS binding and likely the transcellular spread of tau, providing a novel target for disease‐modifying treatment of AD and other tauopathies.

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Section: Resultsmentioning

confidence: 99%

3‐O‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake

et al. 2019

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“…Purification of GAG oligosaccharides from tissues with current chromatography methods is notoriously challenging due to the complex mixtures obtained from such heterogenous sources. However, an emerging source for standards may be cell lines with engineered capacities for producing limited subsets of GAG features 3,48 , which should simplify separation and isolation of homogeneous and heterogenous oligosaccharides. In particular, the GAGOme method employing the robust Chinese hamster ovary (CHO) cell line to engineer and produce specifically restricted repertoires of GAGs with distinct features can help reduce complexities.…”

Section: Discussionmentioning

confidence: 99%

Shotgun ion mobility mass spectrometry sequencing of heparan sulfate saccharides

et al. 2020

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Despite evident regulatory roles of heparan sulfate (HS) saccharides in numerous biological processes, definitive information on the bioactive sequences of these polymers is lacking, with only a handful of natural structures sequenced to date. Here, we develop a "Shotgun" Ion Mobility Mass Spectrometry Sequencing (SIMMS 2) method in which intact HS saccharides are dissociated in an ion mobility mass spectrometer and collision cross section values of fragments measured. Matching of data for intact and fragment ions against known values for 36 fully defined HS saccharide structures (from di-to decasaccharides) permits unambiguous sequence determination of validated standards and unknown natural saccharides, notably including variants with 3O-sulfate groups. SIMMS 2 analysis of two fibroblast growth factorinhibiting hexasaccharides identified from a HS oligosaccharide library screen demonstrates that the approach allows elucidation of structure-activity relationships. SIMMS 2 thus overcomes the bottleneck for decoding the informational content of functional HS motifs which is crucial for their future biomedical exploitation.

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“…The Hs3st1 À/À MLEC line was derived from the WT parent line using CRISPR-Cas9 gene-editing and expressed normal levels of NS,6 -O-S,a nd 2-O-S (see Figure S5A), but reduced level of 3-O-S (confirmed by significantly reduced cell surface binding to antithrombin III requiring a3 -O-S for binding,s ee Figure S5B). [25] Biotinylated tau was generated and incubated with cells,f ollowed by washing and detection of surface-bound tau with streptavidin-HRP.T au bound strongly to the surface of WT MLECs,while the binding was greatly diminished on the Hs3st1 À/À MLECs surface,showing that 3-O-S strongly enhances HS binding of tau on the cell surface ( Figure 3A). We next incubated both WT and Hs3st1 À/À cells with Alexa488-labeled full-length tau (tau-Alexa) for 12 hours,f ollowed by detection with both flow cytometry ( Figure 3B)a nd confocal imagining (Figure 3C)tofurther investigate the effects of 3-O-S deletion on the cellular uptake of tau.…”

Section: Hs3st Knockout Reduces Tau Cell Surface Binding and Cellularmentioning

confidence: 99%

3‐O‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake

et al. 2019

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Prion-like transcellular spreading of tau in Alz-heimersD isease (AD) is mediated by tau binding to cell surface heparan sulfate (HS). However,t he structural determinants for tau-HS interaction are not well understood. Microarraya nd SPR assays of structurally defined HS oligosaccharides showt hat ar are 3-O-sulfation (3-O-S) of HS significantly enhances tau binding. In Hs3st1 À/À (HS 3-Osulfotransferase-1 knockout) cells,reduced 3-O-S levels of HS diminished both cell surface binding and internalization of tau. In ac ell culture,t he addition of a3 -O-S HS 12-mer reduced both tau cell surface binding and cellular uptake.N MR titrations mapped 3-O-S binding sites to the microtubule binding repeat 2(R2) and proline-richregion 2(PRR2) of tau. Taui so nly the seventh protein currently knownt or ecognize HS 3-O-sulfation. Our work demonstrates that this rare 3-Osulfation enhances tau-HS binding and likely the transcellular spread of tau, providing an ovel target for disease-modifying treatment of AD and other tauopathies.

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A mutant-cell library for systematic analysis of heparan sulfate structure–function relationships

Cited by 70 publications

References 62 publications

3‐O‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake

3‐O‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake

Shotgun ion mobility mass spectrometry sequencing of heparan sulfate saccharides

3‐O‐Sulfation of Heparan Sulfate Enhances Tau Interaction and Cellular Uptake

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