Profiling the endogenous tissue metabolites with spatial features is significant for our understanding of molecular histology, and provides an insightful way to uncover the complex associations between tissue metabolic response and external stimuli. Matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI-MSI) is an effective molecular imaging technology to illustrate the spatial locations of molecules in tissue. However, due to the limited sensitivity and the presence of multiple matrix-related ions, it is still challenging to globally image the small molecule metabolites (SMMs) using MALDI, especially for those low-content functional ones. Here, a simple acetone washing method was developed to improve the sensitivity of MALDI-MS for imaging SMMs. After immersing in acetone and shaken for 15 min, key functional SMMs were well-visualized with significantly enhanced ion intensities. In addition to lipids, more than 160 SMM ions, including polyamines, cholines, carnitines, amino acids, nitrogenous bases, nucleosides, carbohydrates, organic acids, vitamins were imaged. The acetone washes-based MALDI-MSI was then applied to profile the metabolic alternations that occurred in osteosarcoma, and the abnormally altered SMMs and lipids were clearly visualized. Moreover, with the protection of acetone against tissue antigenicity, we successfully characterized the expression of three metabolites-related enzymes, fatty acid synthase (FASN), glutaminase (GLS), and cytosolic phospholipase A2 (cPLA2) in osteosarcoma. The spatially-resolved metabolite and corresponding enzyme information reveals what occured in osteosarcoma at the molecular level, providing new insights into the understanding of tumour metabolic reprogramming.
Keywords: Acetone immersion; Biological tissues; MALDI-MSI; Osteosarcoma; Small molecule metabolites.
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