Investigation into Drug-Induced Liver Damage Using Multimodal Mass Spectrometry Imaging.

Abstract

Drug toxicity during the development of candidate pharmaceuticals is the leading cause of discontinuation in preclinical drug discovery and development. Traditionally, the cause of the toxicity is often determined by histological examination, clinical pathology, and the detection of drugs and/or metabolites by liquid chromatography-mass spectrometry (LC-MS). While these techniques individually provide information on the pathological effects of the drug and the detection of metabolites, they cannot provide specific molecular spatial information without additional experiments. Matrix-assisted laser desorption/ionization-mass spectrometry imaging (MALDI-MSI) is a powerful, label-free technique for the simultaneous detection of pharmaceuticals, metabolites, and endogenous chemical species in tissue sections, which makes it suitable for mechanistic toxicological studies to directly correlate the distribution of the drug and its metabolites with histological findings. This capability was demonstrated by the analysis of the liver from dogs dosed with discontinued drug compound B and its N-desmethyl metabolite, compound A. Histological examination showed multifocal hepatocellular necrosis, bile duct hyperplasia, periportal fibrosis, and chronic inflammation. MALDI-MSI analysis of liver tissue dosed with only compound A indicated that liver lesions were associated exclusively with the parent compound, whereas liver lesions with compound B showed the presence of the parent compound and its two metabolites (compound A and an N-oxide metabolite). Using both positive and negative ion modes, simultaneous detection and identification of endogenous molecular markers of the connective tissue, blood vessels, liver parenchyma, and bile duct epithelium was achieved, allowing optimal visualization of histological lesions by mass spectrometry imaging.