The improvement of on-tissue chemical
derivatization for mass spectrometry
imaging (MSI) of low-abundance and/or poorly ionizable functional
molecules in biological tissue without delocalization is challenging.
Here, we developed a novel hydrogel-assisted chemical derivatization
(HCD) approach coupled with airflow-assisted desorption electrospray
ionization (AFADESI)-MSI, allowing for enhanced visualization of inaccessible
molecules in biological tissues. The derivatization reagent Girard’s
P (GP) reagent was creatively packaged into a hydrogel to form HCD
blocks that have reactivity to carbonyl compounds as well as the feasibility
of “cover/uncover” contact mode with tissue sections.
The HCD blocks provided a favorable liquid microenvironment for the
derivatization reaction and reduced matrix effects from derivatization
reagents and tissue without obvious molecular migration, thus improving
the derivatization efficiency. With this methodology, unusual carbonyl
metabolites, including 166 fatty aldehydes (FALs) and 100 oxo fatty
acids (FAs), were detected and visualized in rat brain, kidney, and
liver tissue. This study provides a new approach to enhance chemical
labeling for in situ tissue submetabolome profiling and improves our
knowledge of the molecular histology and complex metabolism of biological
tissues.