Chemical profiles with cardioprotective and anti-depressive effects of Morus macroura Miq. leaves and stem branches dichloromethane fractions on isoprenaline induced post-MI depression.
Dalia I HamdanSamia S HafezWafaa H B HassanMai M MorsiHeba Muhammed Ali KhalilYasmine H AhmedOmar A Ahmed-FaridRiham Adel El-ShiekhPublished in: RSC advances (2022)
This study was conducted to explore the potential cardioprotective and anti-depressive effects of dichloromethane (DCM) fractions of Morus macroura leaves (L) and stem branches (S) on post-myocardial infarction (MI) depression induced by isoprenaline (ISO) in rats in relation to their metabolites. The study was propped with a UPLC-ESI-MS/MS profiling and chromatographic isolation of the secondary metabolites. Column chromatography revealed the isolation of lupeol palmitate (6) that was isolated for the first time from nature with eight known compounds. In addition, more than forty metabolites belonging, mainly to flavonoids, and anthocyanins groups were identified. The rats were injected with ISO (85 mg kg -1 , s.c) in the first two days, followed by the administration of M. macroura DCM-L and DCM-S fractions (200 mg kg -1 p.o) for 19 days. Compared with the ISO exposed rats, the treated rats displayed a reduction in cardiac biomarkers (LDH and CKMB), anxiety, and depressive-like behaviour associated with an increase in the brain defense system (SOD and GSH), neuronal cell energy, GABA, serotonin, and dopamine, confirmed by histopathological investigations. In conclusion, DCM-L and DCM-S fractions' cardioprotective and anti-depressive activities are attributed to their metabolite profile. Therefore, they could serve as a potential agent in amending post-MI depression.
Keyphrases
- ms ms
- bipolar disorder
- depressive symptoms
- single cell
- sleep quality
- stress induced
- left ventricular
- mass spectrometry
- stem cells
- liquid chromatography
- simultaneous determination
- multiple sclerosis
- high performance liquid chromatography
- physical activity
- resting state
- high glucose
- functional connectivity
- human health
- high speed
- climate change
- high resolution