BACKGROUND: Achyranthes bidentata (AR) is a traditional Chinese herb used for the treatment of hypertension and cerebral ischemia, but its pharmacological effects are not known.
OBJECTIVE: We aimed to detect and accurately identify the components and metabolites of AR in the plasma and brain tissue of Sprague Dawley rats.
METHODS: We employed ultrahigh performance liquid chromatography-high-resolution mass spectrometry (UHPLC-HR-MS) to detect AR components in the plasma and brain tissue of rats. The absorption and metabolites in the plasma and brain tissue of normal control rats and rats that underwent middle cerebral artery occlusion (MCAO) were characterized and compared.
RESULTS: A total of 281 compounds, including alkaloids, flavonoids, terpenoids, phenylpropanes, sugars and glycosides, steroids, triterpenes, amino acids, and peptides, was identified in samples of Achyranthes bidentata (TCM-AR). Four types of absorbable prototype components and 48 kinds of metabolites were identified in rats in the normal control plasma group which were given AR (AR plasma group), and five kinds of metabolites were identified in rats of the normal control brain tissue group which were given AR (AR brain group). Three absorbed prototype components and 13 metabolites were identified in the plasma of rats which underwent MCAO and were given AR (MCAO + AR plasma group). Six absorbed prototype components and two metabolites were identified in the brain tissue of rats who underwent MCAO and were administered AR (MCAO + AR brain group). These results showed that, after the oral administration of AR, the number of identified components in plasma was more than that in brain tissue. The number of prototype components in the AR plasma group was higher than that in the MCAO + AR plasma group, which may indicate that metabolite absorption in rats undergoing MCAO was worse. The number of prototype components in the MCAO + AR brain group was higher than that in the AR brain group, indicating that the blood-brain barrier was destroyed after MCAO, resulting in more compounds entering brain tissue.
CONCLUSIONS: UHPLC-HR-MS was used to rapidly analyze the components and metabolites of AR in the blood and brain of rats under normal and pathologic conditions, and to comprehensively characterize the components of TCM-AR. We also analyzed and compared the absorbable components and metabolites of normal rats under cerebral ischemia-reperfusion injury to explore the potential mechanism of action. This method could be applied to various Chinese herbs and disease models, which could promote TCM modernization.

Lurong Dabu decoction (LRDBD) is an effective traditional Chinese Korean ethnic medicine prescription composed of eight herbs, which is used for treating asthma. However, its material basis has not been studied yet. Herein, the use of a new and highly sensitive UHPLC-Q Exactive Orbitrap-HRMS technique is proposed for the high-resolution and accurate identification of the material basis of LRDBD. We identified 122 compounds belonging to different groups in LRDBD. Among these, 23 ingredients produced by decoction were identified and compared with 8 single herb compounds. Moreover, 39 other significantly different compounds were identified. Additionally, 29 absorbed prototype components and 35 metabolites were identified in rat plasma. Half of the prototype components were originated from antler velvet, it has corroborated the compatibility theory of Sasang medicine. To the best of our knowledge, the material basis of LRDBD was characterized for the first time. Our findings provide basic data and a method for further discovering potential drug targets and revealing the action mechanism of LRDBD in asthma treatment.