Conductive carbon tape used for support and mounting of both whole animal and fragile heat-treated tissue sections for MALDI MS imaging and quantitation |
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Authors: | Goodwin Richard J A Nilsson Anna Borg Daniel Langridge-Smith Pat R R Harrison David J Mackay C Logan Iverson Suzanne L Andrén Per E |
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Affiliation: | 1. Global Distribution Imaging, DMPK IM, AstraZeneca R&;D, Södertälje, Sweden;2. Medical Mass Spectrometry, Department of Pharmaceutical Biosciences, Uppsala University, Uppsala, Sweden;3. SIRCAMS, School of Chemistry, University of Edinburgh, Edinburgh, UK;4. Medical and Biological Sciences Building, University of St Andrews, North Haugh, St Andrews, Fife, UK |
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Abstract: | Analysis of whole animal tissue sections by MALDI MS imaging (MSI) requires effective sample collection and transfer methods to allow the highest quality of in situ analysis of small or hard to dissect tissues. We report on the use of double-sided adhesive conductive carbon tape during whole adult rat tissue sectioning of carboxymethyl cellulose (CMC) embedded animals, with samples mounted onto large format conductive glass and conductive plastic MALDI targets, enabling MSI analysis to be performed on both TOF and FT-ICR MALDI mass spectrometers. We show that mounting does not unduly affect small molecule MSI detection by analyzing tiotropium abundance and distribution in rat lung tissues, with direct on-tissue quantitation achieved. Significantly, we use the adhesive tape to provide support to embedded delicate heat-stabilized tissues, enabling sectioning and mounting to be performed that maintained tissue integrity on samples that had previously been impossible to adequately prepare section for MSI analysis. The mapping of larger peptidomic molecules was not hindered by tape mounting samples and we demonstrate this by mapping the distribution of PEP-19 in both native and heat-stabilized rat brains. Furthermore, we show that without heat stabilization PEP-19 degradation fragments can detected and identified directly by MALDI MSI analysis. |
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Keywords: | MS imaging Whole body Heat-stabilized |
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