Deep MALDI-MS Spatial ‘Omics guided by Quantum Cascade Laser Mid-infrared Imaging Microscopy

Author:

Gruber LarsORCID,Schmidt StefanORCID,Enzlein ThomasORCID,Vo Huong GiangORCID,Cairns James LucasORCID,Ucal YaseminORCID,Keller FlorianORCID,Abu Sammour DenisORCID,Rudolf RüdigerORCID,Eckhardt MatthiasORCID,Iakab Stefania AlexandraORCID,Bindila LauraORCID,Hopf CarstenORCID

Abstract

AbstractIn spatial ‘omics, highly confident molecular identifications are indispensable for the investigation of complex biology and for spatial biomarker discovery. However, current mass spectrometry (MS)-based spatial ‘omics must compromise between data acquisition speed and biochemical profiling depth, thus often leading to only “putative” molecular identifications. Here, we introduce fast quantum cascade laser mid-infrared imaging microscopy to guide MS imaging to confined tissue areas of high interest,e.g.,multicellular spheroid cores or kidney glomeruli, for spatial lipidomics profiling at maximized analytical depth utilizing magnetic resonance-MS imaging at >106resolution or prm-PASEF-MS2fragmentation imaging. Instigating selective sulfatide accumulation in arylsulfatase A-deficient mice as ground truth concept, we demonstrate that deep QCL-infrared-guidedon-tissuespatial ‘omics unequivocally identifies 120 sulfatides. This approach enables identifications of odd-chain sulfatides and studies of structure-ion mobility-relationships that provide chemical rationales for improvements to current ion mobility prediction algorithms. Workflows and data processing tools are provided as community resources.

Publisher

Cold Spring Harbor Laboratory

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