Effect of rhynchophylline on expression of TH in methamphetamine-induced CPP mice / 中国药理学通报

Aim To explore the effect of rhynchophyl-line on the expression of tyrosine hydroxylase ( TH) in hippocampus of methamphetamine-induced condition place preference ( CPP) mice. Methods Metham- phetamine was injected intraperitoneally to mice, and the expression of TH was observed by immunohisto-chemistry and Western blot. Results The CPP mouse model was established successfully by methamphet-amine ( 4 mg·kg-1) . Ketamine ( 15 mg·kg-1) , rhynchophylline low dosage group (40 mg·kg-1) and rhynchophylline high dosage group ( 80 mg·kg-1) could remove the effect of methamphetamine on CPP mice. The result of immunohistochemistry showed that methamphetamine ( 4 mg·kg-1) could increase the number of TH positive cells in hippocampus while ket-amine (4 mg·kg-1), rhynchophylline (40, 80 mg· kg-1) group could attenuate the change. Western blot-ting indicated the expression of TH of model group in-creased significantly, whereas ketamine ( 15 mg· kg-1) , rhynchophylline ( 40, 80 mg·kg-1) group presented less expression. Conclusions The CPP in-duced by methamphetamine in mice may be inhibited to some extent by rhynchophylline, and its mechanism may be associated with the expression of TH.

Research progress on role of exosomes-shuttle-RNAs within central nervous system / 中国药理学通报

Exosomes are nanoscale vesicles produced and secre-ted into extracellular fluid by all cells. They mediate cell com-munication through carrying and transferring informational car-goes ( proteins, nucleic acids, lipids and so on ) to recipient cells. In central nervous system, exosomes can be released from all cell types including neurons, neural stem cells and neuroglia cells. These exosomes shuttle nucleic acids ( miRNAs, mRNAs and so on) and play an important role in nervous system devel-opment and function as well as diseases including Alzheimer's disease and drug addiction. Furthermore, the functional effects and targeting characteristics of exosomes-shuttle-RNAs suggest that exosomes-shuttle-RNAs can be diagnostic and therapeutic targets. In this review, we elaborate the effects, functions and mechanisms of exosomes-shuttle-RNAs in order to gain a new recognition of CNS development and diseases.