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OBJECTIVE:To investigate the effects of Shenfu yixin decoction on the utilization of fatty acid in primary hypoxic cardiomyocytes and its potential mechanism. METHODS :The apical tissue of neonatal SD rats with 1-3 days old were collected , and the primary cardiomyocytes were isolated ,cultured and identified. The cardiomyocytes were randomly divided into normal group,model group ,coenzyme Q 10 group(positive control ,1×10-4 mol/L),Shenfu yixin decoction low-dose and high-dose groups(0.25,0.5 mg/mL). Except for normal group ,cells in other groups were cultured under 5%O2,5%CO2 and 90%N2 for 6 hours to induce hypoxic injury model. After 6 hours of hypoxia ,the content of ATP was detected by luciferase luminescence assay. Western blotting assay was adopted to detect the expression of FAT/CD 36,PPARα and PPARβ/δ. RESULTS:Compared with normal group ,the content of ATP and relative expression of FAT/CD 36 protein were decreased significantly in model group (P< 0.05). Compared with model group ,the content of ATP was increased significantly in coenzyme Q 10 group and Shenfu yixin decoction high-dose group ,while the relative expression of FAT/CD 36 and PPARα protein in coenzyme Q10 group,the relative expression of FAT/CD 36 protein in Shenfu yixin decoction high-dose group as well as the relative expression of PPARα and PPARβ/δ protein in Shenfu yixin decoction groups were decreased significantly (P<0.05). CONCLUSIONS :Shenfu yixin decoction can inhibit the utilization of fatty acid of primary hypoxic cardiomyocytes and improve their energy metabolism by inhibiting the expression of FAT/CD 36,PPARα and PPARβ/δ protein.
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OBJECTIVE: To observe the effects of Shenfu yixin decoction on reactive oxygen species (ROS) and energy metabolism in primary hypoxic cardiomyocytes. METHODS: After isolation, culture and identification, primary cardiomyocytes of neonatal SD rats were randomly divided into normal group, model group, positive control group (coenzyme Q10, 0.1 mmol/L) and Shenfu yixin decoction low-dose and high-dose groups (0.25, 0.5 mg/mL). Except for normal group, other groups were cultured with 5%O2, 5%CO2 and 90%N2 for 6 h to induce hypoxic injury model. After 6 hours of hypoxia, ROS contents in cardiomyocytes and mitochondria of each group were detected by ROS probe and flow cytometry. Luciferase luminescence and Western blotting were used to detect ATP content and CK protein expression of each group. Transmission electron microscope was used to observe ultrastructure of cardiomyocytes in each group. RESULTS: Compared with normal group, the expression of ROS in primary hypoxic cardiomyocytes and mitochondria as well as the content of ROS were increased significantly, while the content of ATP and expression levels of CK protein were decreased significantly (P<0.05); there were swelling of endoplasmic reticulum and mitochondria, dissolution or even disappearance of mitochondrial ridge, obvious cardiomyocytes injury. Compared with model group, the expression of ROS in primary hypoxic cardiomyocytes and mitochondria of administration groups, the contents of ROS in primary hypoxic cardiomyocytes of positive control group and Shenfu yixin decoction high-dose group as well as the content of ROS in primary hypoxic cardiomyocytes mitochondria of administration groups were all decreased significantly, while ATP contents in primary hypoxic cardiomyocytes of positive control group and Shenfu yixin decoction high-dose group as well as expression levels of CK protein in primary hypoxic cardiomyocytes of administration groups were all increased significantly (P<0.05). The primary hypoxic cardiomyocytes injury was relieved significantly in positive control group and Shenfu yixin decoction high-dose group. CONCLUSIONS: Shenfu yixin decoction can improve primary hypoxic cardiomyocytes, down-regulate the expression of ROS in cardiomyocytes and mitochondria and also improve its energy metabolism.
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<p><b>OBJECTIVE</b>To detect the effects of microwave on calcium levels in primary hippocampal neurons and primary cardiomyocytes by the real-time microwave exposure combined with laser scanning confocal microscopy.</p><p><b>METHODS</b>The primary hippocampal neurons and primary cardiomyocytes were cultured and labeled with probes, including Fluo-4 AM, Mag-Fluo-AM, and Rhod-2, to reflect the levels of whole calcium [Ca2+], endoplasmic reticulum calcium [Ca2+]ER, and mitochondrial calcium [Ca2+]MIT, respectively. Then, the cells were exposed to a pulsed microwave of 2.856 GHz with specific absorption rate (SAR) values of 0, 4, and 40 W/kg for 6 min to observe the changes in calcium levels.</p><p><b>RESULTS</b>The results showed that the 4 and 40 W/kg microwave radiation caused a significant decrease in the levels of [Ca2+], [Ca2+]ER, and [Ca2+]MIT in primary hippocampal neurons. In the primary cardiomyocytes, only the 40 W/kg microwave radiation caused the decrease in the levels of [Ca2+], [Ca2+]ER, and [Ca2+]MIT. Primary hippocampal neurons were more sensitive to microwave exposure than primary cardiomyocytes. The mitochondria were more sensitive to microwave exposure than the endoplasmic reticulum.</p><p><b>CONCLUSION</b>The calcium efflux was occurred during microwave exposure in primary hippocampal neurons and primary cardiomyocytes. Additionally, neurons and mitochondria were sensitive cells and organelle respectively.</p>
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Aim To observe whether matrix metallo-proteinase-14 ( MMP-14) and tissue matrix metallopro-teinase inhibitor-4 ( TIMP-4) were involved in the car-diac-protection of mitochondrial aldehyde dehydrogen-ase 2 ( ALDH2) against high glucose induced rat pri-mary cardiomyocyte injury. Methods Rat primary cardiomyocytes were cultured. The cardiomyocyte via-bility was detected by MTT assay at different concentra-tion of glucose at different time point. After established high glucose-induced cardiomyocytes injury model, cardiomyocytes were randomly divided into 4 groups:normal control group ( NG, glucose at 5.5 mmol· L-1) , NG + Alda-1 group ( Alda-1 at 20 μmol·L-1) , high glucose group ( HG, glucose at 30 mmol·L-1) and HG+Alda-1 group. The cell viability at 48 h and oxidative stress level were detected by MTT and DHE staining methods. The protein expressions of ALDH2, MMP-14 and TIMP-4 were determined by Western blot. Results The cardiomyocytes injury model was established according to the cell activity result. Com-pared with NG group, the cell viability, the protein ex-pressions of ALDH2, MMP-14, the ratio of MMP-14/TIMP-4 were decreased, TIMP-4 protein expression and the level of oxidative stress were increased in HG group. Compared with HG group, in HG + Alda-1 group, the cell viability, the protein expressions of AL-DH2, MMP-14, the ratio of MMP-14/TIMP-4 were in-creased, the levels of oxidative stress and TIMP-4 pro-tein expression were decreased. Conclusion Activa-tion of mitochondrial ALDH2 may relieve high glucose induced cardiomyocytes injury. The protective effect was likely related to the inhibition of oxidative damage, down-regulation of MMP-14 and up-regulation of TIMP-4 proteins.
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OBJECTIVE:To study the protective effect and mechanism of astragaloside Ⅳ on D-galactose(D-gal)-induced primary cardiomyocytes apoptosis. METHODS:Wistar neonatal rat primary cardiomyocytes were isolated and cultured. The cardiomyocytes were divided into normal control group(DMEM high glucose medium without serum),D-gal group(DMEM high glucose medium without serum containing 5 g/L D-gal)and astragaloside Ⅳ low-concentration,medium-concentration and high-concentration groups(after cultured with DMEM high glucose medium without serum containing 25,50,100 μg/mL astragaloside Ⅳ for 1 h,and then replaced with DMEM high glucose medium without serum containing corresponding concentration of astragaloside Ⅳ and 5 g/L D-gal). Cardiomyocytes activity was detected by CCK-8 kit after cultured for 48 h.The apoptosis level was detected by Hoechst staining(cultured for 24 h)and flow cytometry(cultured for 48 h). The mRNA expressions of apoptosis related factors(Bcl-2,Bax,Caspase-3)and ANP in cardiomyocytes were detected by RT-PCR after cultured for 24 h. RESULTS:Compared with normal control group,the activity of cardiomyocytes,mRNA level of Bcl-2 and ratio of Bcl-2/Bax were decreased in D-gal group,while apoptosis rate and mRNA levels of Bax,Caspase-3 and ANP were increased, with statistical significance(P<0.05 or P<0.01). Compared with D-gal group,the activity of cardiomyocytes,mRNA level of Bcl-2 and ratio of Bcl-2/Bax were increased in astragaloside Ⅳ groups,while apoptosis rate and mRNA levels of Bax,Caspase-3 and ANP were decreased,with statistical significance(P<0.05 or P<0.01),and in concentration-dependent manner. CONCLUSIONS:Astragaloside Ⅳ can protect D-gal induced primary cardiomyocytes from apoptosis,the mechanism of which may be associated with the increase of Bcl-2/Bax ratio and the decrease of mRNA expressions of Caspase-3 and ANP.