The effect of tacrolimus-induced toxicity on metabolic profiling in target tissues of mice
- BMC Pharmacol Toxicol. 2022 Nov 28;23(1):87. doi: 10.1186/s40360-022-00626-x.
- 1. Tengzhou Central People's Hospital, Tengzhou, 277500, China.
- 2. Translational Pharmaceutical Laboratory, Jining First People's Hospital, Jining, 272000, China.
- 3. Department of Gastroenterology, Shanting District People's Hospital, Zaozhuang, 277200, China.
- 4. Translational Pharmaceutical Laboratory, Jining First People's Hospital, Jining, 272000, China. [email protected].
- 5. Tengzhou Central People's Hospital, Tengzhou, 277500, China. [email protected].
- # Contributed equally.
Tacrolimus (Tac) is a common immunosuppressant that used in organ transplantation. However, its therapeutic index is narrow, and it is prone to adverse side effects, along with an increased risk of toxicity, namely, cardio-, nephro-, hepato-, and neurotoxicity. Prior metabolomic investigations involving Tac-driven toxicity primarily focused on changes in individual organs. However, extensive research on multiple matrices is uncommon. Hence, in this research, the authors systemically evaluated Tac-mediated toxicity in major organs, namely, serum, brain, heart, liver, lung, kidney, and intestines, using gas chromatography-mass spectrometry (GC-MS). The authors also employed multivariate analyses, including orthogonal projections to the latent structure (OPLS) and t-test, to screen 8 serum metabolites, namely, D-proline, glycerol, D-fructose, D-glucitol, sulfurous acid, 1-monopalmitin (MG (16:0/0:0/0:0)), glycerol monostearate (MG (0:0/18:0/0:0)), and Cholesterol. Metabolic changes within the brain involved alterations in the levels of butanamide, tartronic acid, aminomalonic acid, scyllo-inositol, dihydromorphine, myo-inositol, and 11-octadecenoic acid. Within the heart, the acetone and D-fructose metabolites were altered. In the liver, D-glucitol, L-sorbose, palmitic acid, myo-inositol, and uridine were altered. In the lung, L-lactic acid, L-5-oxoproline, L-threonine, phosphoric acid, phosphorylethanolamine, D-allose, and Cholesterol were altered. Lastly, in the kidney, L-valine and D-glucose were altered. Our findings will provide a systematic evaluation of the metabolic alterations in target organs within a Tac-driven toxicity mouse model.
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Cat. No.Product NameDescriptionTargetResearch Area
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Research Areas: Inflammation/Immunology