Synergy of "Yiqi" and "Huoxue" components of QishenYiqi formula in ischemic stroke protection via lysosomal/inflammatory mechanisms.

ABSTRACT

ETHNOPHARMACOLOGICAL RELEVANCE Ischemic stroke is one of the leading causes of mortality and long-term disability worldwide. Currently, approved therapies of intravenous thrombolysis and mechanical thrombectomy are limited only to selected patients with rescuable brain tissue. Chinese medicine that benefits Qi (Yiqi, YQ) and activates blood (Huoxue, HX) is widely used in the clinic for treating stroke, but their mechanisms are not well understood yet. We have previously reported that QishenYiqi (QSYQ) formula exerts cerebral protective effect and promotes post-stroke recovery. AIM OF THE STUDY This study aimed to explore the chemical basis and molecular mechanism of anti-stroke therapy of QSYQ and its YQ and HX components further. MATERIALS AND METHODS: Serum pharmacochemistry was performed to identify the bioactive constituents in QSYQ for cerebral protection. The survival rate, mNSS test, open field test, gait analysis, cerebral infarction volume, and blood-brain barrier (BBB) integrity were determined to uncover the synergistic and differential contributions of YQ and HX components in a cerebral ischemia/reperfusion injury (CI/RI) model. Bioinformatic mining of QSYQ proteomics data and experimental validation were executed to access the functional mechanism of YQ and HX components. RESULTS: Eleven prototype ingredients and six metabolites were successfully identified or tentatively characterized in rat plasma. Therapeutically, YQ and HX components of QSYQ synergistically boosted the survival rate, improved neurological and motor functions, alleviated cerebral infarction as well as protected BBB integrity in CI/RI model in rats. Individually, YQ component contributed more to ameliorating locomotive ability than that of HX component. Mechanistically, HX component played a more prominent role in the modulation of galectin-3 mediated inflammation whereas YQ component regulated lysosomal-autophagy signaling. CONCLUSIONS: This study identifies major prototype ingredients and metabolites of QSYQ in plasma which may contribute to its cerebral protection. YQ and HX components of QSYQ differentially and synergistically protect the brain from CI/RI by regulating galectin-3-mediated inflammation and lysosomal-autophagy signaling. These findings demonstrate that a maximal stroke protection by a component-based Chinese medicine could be attributed to the combination of its individual components via different mechanisms. It may shed new light on our understanding of the TCM principle of tonifying Qi and activating blood, particularly in a setting of ischemic stroke.