Purpose: The aim of this study was to use on-tissue reduction followed by MALDI-MS imaging (MSI) to identify an m/z 5812.85 peak, which is over-expressed in healthy human pancreatic tissue compared with type one Diabetes (T1D) tissue.
Experimental design: A major constraint of MALDI-MSI is identification of compounds with m/z ≥4000. On-tissue reduction using tris (2-carboxyethyl) phosphine (TCEP) breaks the inter-domain disulphide bonds generating low-molecular-weight peptides amenable to direct MS/MS analysis. Pancreatic tissues from healthy (n=4) and diabetic subjects (n=4) were profiled by MALDI-MSI with/without reduction.
Results: On-tissue reduction resulted in the loss of the over-expressed 5812.85 m/z peak and the simultaneous appearance of a 3430.664 m/z peak in healthy tissues. The latter peak presumably derived from the 5812.85 m/z peak was identified as the insulin B chain by MS/MS. MALDI-MSI images show that both the 5812.85 insulin peak before reduction and the 3430.664 peak after reduction co-localized with the healthy pancreatic islets.
Conclusion and clinical relevance: On-tissue reduction followed by MALDI-MSI resulted in the identification of insulin and localization of pancreatic islets of langerhans. The approach will be useful in the future identification of novel therapeutic molecular targets to β-cells lost during type one diabetes.
Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.