Correlative Imaging of Trace Elements and Intact Molecular Species in a Single Tissue Sample at the 50 Micron Scale

JANELLA MARIE DE JESUS; CATIA DANIELA SANTOS COSTA; Amy Burton; VLADIMIR PALITSIN; ROGER PAUL WEBB; Adam Taylor; Chelsea Nikula; Alex Dexter; Firat Kaya; MARK CHAMBERS; Veronique Dartois; Richard J.A. Goodwin; Josephine Bunch; MELANIE JANE BAILEY

doi:10.1021/acs.analchem.1c01927

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Correlative Imaging of Trace Elements and Intact Molecular Species in a Single Tissue Sample at the 50 Micron Scale

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Correlative Imaging of Trace Elements and Intact Molecular Species in a Single Tissue Sample at the 50 Micron Scale

JANELLA MARIE DE JESUS, CATIA DANIELA SANTOS COSTA, Amy Burton, VLADIMIR PALITSIN, ROGER PAUL WEBB, Adam Taylor, Chelsea Nikula, Alex Dexter, Firat Kaya, MARK CHAMBERS, …

Analytical Chemistry, Vol.93(40), pp.13417-13742

12/10/2021

DOI: https://doi.org/10.1021/acs.analchem.1c01927

Abstract

Elemental and molecular imaging play a crucial role in understanding disease pathogenesis. To accurately correlate elemental and molecular markers, it is desirable to perform sequential elemental and molecular imaging on a single tissue section. However, very little is known about the impact of performing these measurements in sequence. In this work, we highlight some of the challenges and successes associated with performing elemental mapping in sequence with mass spectrometry imaging. Specifically, the feasibility of molecular mapping using the mass spectrometry imaging (MSI) techniques matrix assisted laser desorption ionisation (MALDI) and desorption electrospray ionisation (DESI) in sequence with the elemental mapping technique particle induced X-ray emission (PIXE) is explored. Challenges for integration include substrate compatibility, as well as delocalisation and spectral changes. We demonstrate that whilst sequential imaging comes with some compromises, sequential DESI-PIXE imaging is sufficient to correlate sulphur, iron and lipid markers in a single tissue section at the 50-micrometre scale.

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Title: Correlative Imaging of Trace Elements and Intact Molecular Species in a Single Tissue Sample at the 50 Micron Scale
Creators: JANELLA MARIE DE JESUS - University of Surrey, Department of Chemistry
CATIA DANIELA SANTOS COSTA - University of Surrey, School of Computer Science and Electronic Engineering
Amy Burton - National Physical Laboratory
VLADIMIR PALITSIN - University of Surrey, School of Computer Science and Electronic Engineering
ROGER PAUL WEBB - University of Surrey, School of Computer Science and Electronic Engineering
Adam Taylor - National Physical Laboratory
Chelsea Nikula - National Physical Laboratory
Alex Dexter - National Physical Laboratory
Firat Kaya - Rutgers, The State University of New Jersey
MARK CHAMBERS - University of Surrey, School of Veterinary Medicine
Veronique Dartois - Rutgers, The State University of New Jersey
Richard J.A. Goodwin - University of Glasgow
Josephine Bunch - National Physical Laboratory
MELANIE JANE BAILEY (Corresponding Author) - University of Surrey, Department of Chemistry
Publication Details: Analytical Chemistry, Vol.93(40), pp.13417-13742
Publisher: American Chemical Society
First online publication date: 01/10/2021
Publication Date: 12/10/2021
Date accepted for publication: 30/07/2021
Grants: Ion Beam Analysis for the 2020's and Beyond: An Integration of Elemental Mapping and 'omics', EP/R031118/1, Engineering and Physical Sciences Research Council (United Kingdom, Swindon) - EPSRC
EP/P001440/1, Engineering and Physical Sciences Research Council (United Kingdom, Swindon) - EPSRC
Grant note: This study was funded by an EPSRC strategic equipment award (EP/P001440/1) and an EPSRC sponsored fellowship (EP/R031118/1), the Surrey-NPL studentship fund. Beam time was provided by EPSRC National Research Facility UKNIBC NS/A000059/1 and RADIATE (Horizon 2020, grant agreement No 824096, proposal 19001813-ST). Special thanks to John Swales from AstraZeneca for providing tissue homogenates. The authors acknowledge R.T Steven from NPL for experimental support. We thank Laura E Via and Danielle Weiner from the NIAID-NIH for providing infected lung tissues.
Identifiers: 99595023302346; WOS:000708550500006
Academic Unit: Department of Chemistry; School of Computer Science and Electronic Engineering; School of Veterinary Medicine
Resource Type: Journal article
Data Access Statement: The Supporting Information is available free of charge athttps://pubs.acs.org/doi/10.1021/acs.analchem.1c01927.Additional PIXE, DESI, and MALDI data including elemental and molecular maps, tabulated data on investigated substrates and optical images (PDF)

Correlative Imaging of Trace Elements and Intact Molecular Species in a Single Tissue Sample at the 50 Micron Scale

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