An On‐Tissue Paternò–Büchi Reaction for Localization of Carbon–Carbon Double Bonds in Phospholipids and Glycolipids by Matrix‐Assisted Laser‐Desorption–Ionization Mass‐Spectrometry Imaging

Bednařík, Antonín; Bölsker, Stefan; Soltwisch, Jens; Dreisewerd, Klaus

doi:10.1002/anie.201806635

Cited by 151 publications

(146 citation statements)

References 30 publications

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“…For instance, OzID implemented with matrix-assisted laser desorption ionization (MALDI) MSI revealed altered fractions of phosphatidylcholine (PC) sn-isomers in a tumorous mouse brain 45 . Similarly, MSI based on PB-MS/MS 34,46 and UVPD 47 showed the spatial distribution of lipid C=C location isomers in brain, thyroid, and breast cancer tissues, revealing significant fractional changes of C=C location isomers in cancerous tissues. These studies highlight the significance of developing lipid analysis methods with high structural specificities and their huge potentials in uncovering biological features invisible to conventional lipid profiling.…”

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confidence: 93%

“…Other approaches include ion mobility spectrometry (IMS) 36,37 and alternative gas-phase ion activation [38][39][40][41][42][43][44] . These lipid characterizing methods were also compatible with mass spectrometry imaging (MSI) [45][46][47][48][49][50] . For instance, OzID implemented with matrix-assisted laser desorption ionization (MALDI) MSI revealed altered fractions of phosphatidylcholine (PC) sn-isomers in a tumorous mouse brain 45 .…”

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confidence: 99%

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Large-scale lipid analysis with C=C location and sn-position isomer resolving power

Cao¹,

Cheng²,

Yang³

et al. 2020

Nat Commun

138

183

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Lipids play a pivotal role in biological processes and lipid analysis by mass spectrometry (MS) has significantly advanced lipidomic studies. While the structure specificity of lipid analysis proves to be critical for studying the biological functions of lipids, current mainstream methods for large-scale lipid analysis can only identify the lipid classes and fatty acyl chains, leaving the C=C location and sn-position unidentified. In this study, combining photochemistry and tandem MS we develop a simple but effective workflow to enable large-scale and near-complete lipid structure characterization with a powerful capability of identifying C=C location(s) and sn-position(s) simultaneously. Quantitation of lipid structure isomers at multiple levels of specificity is achieved and different subtypes of human breast cancer cells are successfully discriminated. Remarkably, human lung cancer tissues can only be distinguished from adjacent normal tissues using quantitative results of both lipid C=C location and sn-position isomers.

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mentioning

confidence: 93%

mentioning

confidence: 99%

Large-scale lipid analysis with C=C location and sn-position isomer resolving power

Cao¹,

Cheng²,

Yang³

et al. 2020

Nat Commun

138

183

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“…Bednarik et al. extended the use of PB reactions to MALDI‐MSI . Here a PB derivatization protocol using benzaldehyde was developed that allowed efficient PB reactions to occur on tissue sections while preserving the spatial location of the lipids.…”

Section: Ms Imaging With Isomer Resolutionmentioning

confidence: 99%

“…Here a PB derivatization protocol using benzaldehyde was developed that allowed efficient PB reactions to occur on tissue sections while preserving the spatial location of the lipids. After derivatization, the tissue was studied using post‐ionization‐enhanced MALDI‐MS/MS‐MSI . This enabled the localization and distinction of db‐isomers from a variety of lipid classes, including PC, PS, and hexosylceramides (HexCer) in mouse and pig brain tissues.…”

Section: Ms Imaging With Isomer Resolutionmentioning

confidence: 99%

Reshaping Lipid Biochemistry by Pushing Barriers in Structural Lipidomics

Siegel

Ekroos²,

Ellis

2019

Angewandte Chemie

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Lipidomics is a rapidly growing field with numerous examples showing the importance of lipid molecules throughout biology. It has also shed light onto the vast and complex functions performed by many lipids that possess an immense diversity in molecular structures. Mass spectrometry (MS) is the tool of choice for analyzing lipids and has been the key catalyst driving the field forward. However, MS does not yet permit true molecular lipidomics wherein the identification and quantification of lipids having defined molecular structures can be routinely achieved. Here we describe recent advances in MS‐based lipidomics that allow access to higher levels of molecular information in lipidomics experiments. These advances will form a key piece of the puzzle as the field moves towards systems characterization of lipids at the molecular level.

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“…Although it is still very challenging,some MS-based techniques have been developed for identification of C = Cl ocation of lipids. [21] Coupling PCTE with aP B reaction and MS/MS should allow for fast identification of lipid structures in biofluids.T his was realized by mixing acetone with the elution solvent after enrichment. [7] PB-MS/MS has shown good performance in lipid extracts [20] and tissue slices for isomer imaging.…”

mentioning

confidence: 99%

A Polymer Coating Transfer Enrichment Method for Direct Mass Spectrometry Analysis of Lipids in Biofluid Samples

Zhang

Chiang

et al. 2019

Angew Chem Int Ed

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Ap orous polymer coating transfer enrichment method is developed for the direct mass spectrometry (MS) analysis of lipids.T he enrichment is fast (ca. 1min) and enables the profiling and quantitation of lipids in small-volume biofluid samples.C oupled with ap hotochemical Paternò-Büchi reaction, this method enables the fast determination of lipid structure at the C = Clocation level and point-of-care lipid biomarker analysis.Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under: https://doi.

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An On‐Tissue Paternò–Büchi Reaction for Localization of Carbon–Carbon Double Bonds in Phospholipids and Glycolipids by Matrix‐Assisted Laser‐Desorption–Ionization Mass‐Spectrometry Imaging

Cited by 151 publications

References 30 publications

Large-scale lipid analysis with C=C location and sn-position isomer resolving power

Large-scale lipid analysis with C=C location and sn-position isomer resolving power

Reshaping Lipid Biochemistry by Pushing Barriers in Structural Lipidomics

A Polymer Coating Transfer Enrichment Method for Direct Mass Spectrometry Analysis of Lipids in Biofluid Samples

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