ABSTRACT
Aim To evaluate the effects of morphine preconditioning ( MPC ) on the expression of microR-NAs ( miRNAs ) induced by hypoxia-reoxygenation (H/R) in H9c2 myocardial cells. Methods H9c2 cells were randomly divided into 3 groups ( n=4 each) as follows:control group ( CON) , hypoxia/ reoxygen-ation group ( H/R ) and morphine preconditioning group ( MPC+H/R) . The cells were cultured in nor-mal condition in CON group. The cells were subjected to 5 h hypoxia followed by 1 h reoxygenation in H/R group and MPC+H/R group. Specifically, the cells in MPC+H/R group were preconditioned with morphine with the final concentration of 1 μmol·L-1 for 10 min before H/R. After the treatment, CCK-8 was used to detect cell viability and chemical colorimetry was used to detect lactate dehydrogenase ( LDH ) activity in the culture medium. Cell apoptosis was assessed by An-nexin-V-FITC/PI flow cytometry. Relative expression of Fas protein was detected by Western blot. The ex-pression of miRNA in myocardial cells was analyzed by quantitative reverse transcription polymerase chain re-action ( qRT-PCR ) . Results Compared with CON group, the cell viability was significantly decreased, while the LDH activity, apoptotic rate and Fas protein expression were dramatically increased in group H/R (P<0. 01). However, MPC significantly increased the cell viability, whereas it decreased the LDH activity, apoptotic rate and Fas protein expression induced by H/R injury ( P < 0. 01 ) . The expressions of miR-133a-5p, miR-133b-5p, miR-664-1-5p, miR-6216 and let-7 e-5 p were markedly down-regulated by H/R as compared to CON group ( P <0. 05 ) , while MPC inhibited these miRNAs which were significantly down-regulated by H/R group ( P <0. 01 ) . Conclusion Morphine preconditioning might protect H9 c2 myocar-dial cells against H/R injury by regulating the expres-sion of miRNAs such as miR-133a-5p, miR-133b-5p, miR-664-1-5p, miR-6216 and let-7e-5p.
ABSTRACT
Aim To screen the differentially expressed microRNAs ( miRNAs ) induced by hypoxia precondi-tioning ( HPC ) in adult rat cardiomyocytes, and pre-dict miRNAs-regulated target genes and their func-tions. Methods Cardiomyocytes were isolated from a-dult rat ventricular myocardium and cultured ( in vitro) . The cells were divided into 2 groups: control group ( CON ) and hypoxia preconditioning group ( HPC) . The cardiomyocytes in HPC group were sub-jected to 10 min hypoxia followed by 30 min reoxygen-ation, while the cells in CON group were cultured un-der normal condition. After that, total RNA was ex-tracted and then subjected to miRNA microarray to screen differentially expressed miRNAs. The microar-ray results were further validated by quantitative RT-PCR ( qRT-PCR ) . Bioinformatics analysis was per-formed to predict the miRNAs-regulated target genes and analyze the enriched gene ontology ( GO) and sig-naling pathway ( Pathway) . Results HPC caused sig-nificant changes in miRNAs expression in cardiomyo-cytes as compared to CON group. A total of 12 miR-NAs were up-regulated and 14 miRNAs were down-reg-ulated ( P 500 were selected for further bioinformatics analysis. The expression of miR-133b-5p, miR-664-1-5p and miR-6216 detected by qRT-PCR exhibited the similar patterns of up or down regulation to those shown in mi-croarray results. Bioinformatics analysis revealed that miRNAs-regulated target genes were significantly en-riched in 27 GOs and 6 signal pathways. Conclusion The expression profile of miRNAs in rat cardiomyo-cytes is significantly affected by HPC. These differenti-ally expressed miRNAs might participate in HPC-in-duced cardioprotection by regulating their target genes in rat cardiomyocytes.