Tongxinluo reduces myocardial no-reflow and ischemia-reperfusion injury by stimulating the phosphorylation of eNOS via the PKA pathway.

Li XD ，Yang YJ ，Geng YJ ，Jin C ，Hu FH ，Zhao JL ，Zhang HT ，Cheng YT ，Qian HY ，Wang LL ，Zhang BJ ，Wu YL ... -  《-》

Phosphorylation of endothelial NOS contributes to simvastatin protection against myocardial no-reflow and infarction in reperfused swine hearts: partially via the PKA signaling pathway.

Li XD ，Yang YJ ，Geng YJ ，Zhao JL ，Zhang HT ，Cheng YT ，Wu YL ... -  《-》

PKA-mediated eNOS phosphorylation in the protection of ischemic preconditioning against no-reflow.

To investigate whether ischemic preconditioning (IP) can reduce myocardial no-reflow by activating endothelial (e-) nitric oxide synthase (NOS) via the protein kinase A (PKA) pathway. In a 90-min ischemia and 3-h reperfusion model, minipigs were assigned into sham, ischemia-reperfusion (IR), IR+IP, IR+IP+L-NNA (an eNOS inhibitor, 10mg·kg(-1)), IR+IP+H-89 (a PKA inhibitor, 1.0μg·kg(-1)·min(-1)), IR+L-NNA, and IR+H-89 groups. IP pretreatment improved cardiac function and coronary blood flow, decreased the activities of creatine kinase by 36.6% after 90 min of ischemia and by 32.8% after 3 h of reperfusion (P<0.05), reduced the no-reflow areas from 49.9% to 11.0% (P<0.01), and attenuated the infarct size from 78.2% to 35.4% (P<0.01). IP stimulated myocardial PKA activities and the expression of PKA and Ser(133) phosphorylated (p-) cAMP response element-binding protein (CREB) in the reflow and no-reflow myocardium, and enhanced the activities of constitutive NOS and the phosphorylation of eNOS at Ser(1179) and Ser(635) in the no-reflow myocardium. IP suppressed the expression of tumor necrosis factor-α and P-selectin, and attenuated cardiomyocytes apoptosis by regulating the expression of Bcl-2 and caspase-3 in the reflow and no-reflow myocardium. The eNOS inhibitor L-NNA completely canceled these beneficial effects of IP without any influence on PKA activity, whereas the PKA inhibitor H-89 partially blocked the IP cardioprotective effects and eNOS phosphorylation at the same time. IP attenuates myocardial no-reflow and infarction after ischemia and reperfusion by activating the phosphorylation of eNOS at Ser(1179) and Ser(635) in a partly PKA-dependent manner.

Li XD ，Cheng YT ，Yang YJ ，Meng XM ，Zhao JL ，Zhang HT ，Wu YJ ，You SJ ，Wu YL ... -  《-》

Protein kinase A-mediated cardioprotection of Tongxinluo relates to the inhibition of myocardial inflammation, apoptosis, and edema in reperfused swine hearts.

Li XD ，Yang YJ ，Cheng YT ，Dou KF ，Tian Y ，Meng XM ... -  《-》

Tongmai Yangxin pill reduces myocardial no-reflow by regulating apoptosis and activating PI3K/Akt/eNOS pathway.

Tongmai Yangxin pill (TMYX) is derived from the Zhigancao decoction recorded in Shang han lun by Zhang Zhongjing during the Han dynasty and was further improved by Professor Ruan Shiyi, a cardiovascular expert at Tianjin University of Traditional Chinese Medicine. TMYX is used for the clinical treatment of chest pain, heartache, and qi-yin-deficiency coronary heart disease and can improve vascular endothelial function in patients with angina pectoris or coronary heart disease by up-regulating nitric oxide activity and then regulating vascular tension. Whether TMYX can further improve myocardial no-reflow by up-regulating NO activity and then dilating blood vessels remains unclear. This study aimed to reveal whether TMYX can further improve myocardial NR by up-regulating NO activity and then dilating blood vessels. The mechanism underlying PI3K/Akt/eNOS pathway activation and apoptosis regulation is also explored. The left anterior descending coronary arteries of healthy adult male SD rats were ligated to establish a NR model. The rats were assigned to 14 groups: control, sham, NR, TMYX (4.0 g/kg), sodium nitroprusside (SNP), Tongxinluo capsule (TXL), PI3K blocker (LY), TMYX + LY, SNP + LY, TXL + LY, eNOS blocker (L-NAME), TMYX + L-NAME, SNP + L-NAME, and TXL + L-NAME groups. Cardiac function was measured through echocardiography. Thioflavin S, Evans Blue, and TTC staining were adopted to evaluate NR and ischemic areas. Cell inflammation degree and edema were assessed by hematoxylin-eosin staining. Automated biochemical analyzer and kit were used to detect the activities of myocardial oxidants, including reactive oxygen species, super oxide dismutase, malonaldehyde, and NO. The expression levels of genes and proteins in the PI3K/Akt/eNOS signaling pathway and apoptosis were detected via real-time fluorescence quantitative PCR and Western blot analysis, respectively. A microvascular tension sensor was adopted to detect coronary artery diastolic function in vitro. TMYX reduced NR and ischemic areas; suppressed LV-mass; enhanced EF, FS, LVOT peak, and LVSV; and improved cardiac structure and function. Moreover, it decreased creatine kinase (CK), CK-MB, and lactic dehydrogenase activities. TMYX increased NO and super oxide dismutase activities; inhibited malonaldehyde activity; reduced muscle fiber swelling and inflammatory cell infiltration; and improved vasodilation in vitro. In the NR myocardium, TMYX stimulated myocardial PI3K activities and PI3K (Tyr458) phosphorylation and enhanced Akt activities and Akt phosphorylation at Tyr315. TMYX increased the activities of eNOS and the phosphorylation of eNOS at Ser1177 in the NR myocardium and attenuated cardiomyocyte apoptosis by increasing the expression of Bcl-2 and decreasing that of caspase-3 and Bax. All these effects of TMYX were abolished by the specific inhibitors of PI3K (LY) and eNOS (L-NAME). TMYX attenuates myocardial NR after ischemia and reperfusion by activating the PI3K/Akt/eNOS pathway and regulating apoptosis, further up-regulating NO activity and relaxing coronary microvessels.

Chen R ，Chen T ，Wang T ，Dai X ，Meng K ，Zhang S ，Jiang D ，Wang Y ，Zhou K ，Geng T ，Xu J ，Wang Y ... -  《-》