Application of AP-MALDI Imaging Mass Microscope for the Rapid Mapping of Imipramine, Chloroquine, and Their Metabolites in the Kidney and Brain of Wild-Type Mice

Application of AP-MALDI Imaging Mass Microscope for the Rapid Mapping of Imipramine, Chloroquine, and Their Metabolites in the Kidney and Brain of Wild-Type Mice

Mass spectrometry imaging (MSI) is well-known for the non-labeling visualization of analytes, including drugs and their metabolites in biological samples. In this study, we applied three different tools of MSI, desorption electrospray ionization (DESI)-MSI, matrix-assisted laser desorption ionizatio...

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Bibliographic Details
Published in:Pharmaceuticals (Basel, Switzerland) Vol. 15; no. 11; p. 1314
Main Authors: Islam, Ariful, Sakamoto, Takumi, Zhai, Qing, Rahman, Md. Muedur, Mamun, Md. Al, Takahashi, Yutaka, Kahyo, Tomoaki, Setou, Mitsutoshi
Format: Journal Article
Language:English
Published: Basel MDPI AG 25-10-2022
MDPI
Subjects:
AP-MALDI-MSI
Atmospheric pressure
Brain
Brain research
Chemical properties
Chloroquine
Communication
DESI-MSI
Drug metabolism
Drugs
Imaging systems
Imipramine
iMScope QT
Ions
Kidneys
Localization
MALDI-MSI
Mass spectrometry
Measurement
Medical examination
Metabolites
MSI
Pharmacology, Experimental
Physiological aspects
Scientific imaging
Tumor necrosis factor-TNF
visualization
Japan
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Summary:Mass spectrometry imaging (MSI) is well-known for the non-labeling visualization of analytes, including drugs and their metabolites in biological samples. In this study, we applied three different tools of MSI, desorption electrospray ionization (DESI)-MSI, matrix-assisted laser desorption ionization (MALDI)-MSI, and a newly developed atmospheric pressure (AP)-MALDI-MSI known as iMScopeTM QT for rapid mapping of imipramine, chloroquine, and their metabolites in C57BL/6 male wild-type mice. Among three MSI tools, better detection capability for targeted drugs at higher speed (up to 32 pixels/s) was observed in iMScope QT. It revealed that imipramine and its metabolites were significantly accumulated in the renal cortex of mice, but chloroquine and its metabolites were highly accumulated in the renal pelvis and renal medulla of mice. Additionally, a higher accumulation of imipramine was noted in the thalamus, hypothalamus, septum, and hindbrain of mice brains. However, chloroquine and its metabolites showed notable accumulation in the lateral ventricle, fourth ventricle, and fornix of the mice brains. These findings of our study can be helpful in understanding clinically relevant properties, efficacy, and potential side effects of these drugs. Our study also showed the potentiality of iMScope QT for rapid mapping of small drugs and their metabolites in biological samples.
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ISSN:1424-8247
1424-8247
DOI:10.3390/ph15111314