Effect and Mechanism of Cerebrovasodilation Induced by Total Flavonoids of Chuzhou Chrysanthemum in RatsOA
Objective:To investigate cerebral vasorelaxation of total flavonoids of Chuzhou chrysanthemum(TFCC)in rats and its mechanism.Methods:Cerebral basilar arteries(CBA)of rats were isolated,and the vasodilation induced by TFCC(10-2,560 mg/L)following pretension with 100 nmol/L U46619 or 30 mmol/L KCI were measured using a pressure myograph system.Addition of H_(2)S synthase cystathionine-γ-lyase(CSE)inhibitor dl-propargylglycine(PPG,100μmol/L),a large-conductance Ca^(2+)-activated potassium(BK_(Ca))channel blocker iberiotoxin(IBTX,100 nmol/L)and L-type Ca^(2+)channel blocker nifedipine(100 nmol/L)were added to determine the effect of pretreatment with the inhibitors on TFCC-induced vasorelaxation.KCI(30 mmol/L)was used as a contractile agent,TFCC(3.3-270 mg/L)-induced relaxation was detected by measuring the length of the long axis of rat cerebral vascular smooth muscle cells(VSMCs).Determination of the effect of pretreatment of VSMCs by IBTX or nifedipine on TFCC-induced cellular relaxation,and intracellular free Ca^(2+)concentration([Ca^(2+)]_(i))was detected by fluorescent method.Endothelial cells(ECs)were co-cultured with VSMCs to observe the effect of endogenous H_(2)S on TFCC-induced relaxation in VSMCs.Results:TFCC caused a concentrationdependent vasorelaxation in the rat CBA precontracted with KCI or U46619(P<0.01).Endothelial removal markedly attenuated this vasodilation,but the remaining vasorelaxation was still significant(P<0.01).The TFCC-induced cerebral vasorelaxation was remarkably inhibited by PPG,IBTX and nifedipine(P<0.01).TFCC caused a significant relaxation of rat CBA VSMCs(P<0.01).Co-culture with wild-type cerebral ECs but not with cystathionine-γ-lyaseor 3-mercaptosulfotransferase-knockout ECs markedly enhanced TFCC-induced relaxation of VSMCs(P<0.05)and increased H_(2)S content(P<0.01).TFCC decreased the[Ca^(2+)]_(i)in VSMCs(P<0.01),which was attenuated by PPG and IBTX.Conclusions:TFCC dilated rat CBA in both endothelium-dependent and-independent manner.Its endothelium-dependent dilation was probably involved in the blockade of L-type Ca^(2+)channels caused by endothelial H_(2)S activating BK_(Ca)channels in VSMCs;its endothelium-independent relaxation was primarily from the direct blockade of the L-type Ca^(2+)channels in VSMCs.
WANG Xiao;WU Miao;LI Yu-wen;ZHANG Xing-yu;CHENG Yong-feng;WEN Ji-yue;CHEN Shuo;CHEN Zhi-wu
Department of Pharmacology,School of Pharmaceutical Sciences,Anhui Medical University,Hefei,230032,ChinaDepartment of Pharmacology,School of Pharmaceutical Sciences,Anhui Medical University,Hefei,230032,ChinaDepartment of Pharmacology,School of Pharmaceutical Sciences,Anhui Medical University,Hefei,230032,ChinaDepartment of Pharmacology,School of Pharmaceutical Sciences,Anhui Medical University,Hefei,230032,ChinaClinical Medical College,Anhui Medical University,Hefei,230012,ChinaDepartment of Pharmacology,School of Pharmaceutical Sciences,Anhui Medical University,Hefei,230032,ChinaKey Laboratory of Xin’an Medicine,Ministry of Education,Anhui University of Chinese Medicine,Hefei,230038,ChinaDepartment of Pharmacology,School of Pharmaceutical Sciences,Anhui Medical University,Hefei,230032,China
医药卫生
total flavonoids of Chuzhou chrysanthemumcerebrovasodilationendothelial H_(2)Slarge-conductance calcium-activated potassium channelL-type Ca^(2+)channelChinese medicine
《Chinese Journal of Integrative Medicine》 2026 (1)
P.64-72,9
Key Natural Science Research Projects of Anhui Universities(No.2023AH050842)。
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