Objective:To investigate impact of leonurine(Leo)on necrotic apoptosis in rats with myocardial ischemia/reperfu-sion(MIR)injury by regulating receptor interacting protein 1(RIP1)-receptor interacting protein 3(RIP3)-mixed lineage kinase domain-like protein(MLKL)pathway.Methods:Fifteen rats were randomly selected as sham surgery group(Sham),left anterior descending coronary artery of remaining rats were ligated to construct MIR model,and randomly grouped into MIR group,Leo group(15 mg/kg),Compound 6i group(1 mg/kg RIP1-RIP3-MLKL pathway activator Compound 6i)and Leo+Compound 6i group(15 mg/kg Leo+1 mg/kg Compound 6i),with 15 rats in each group.MIR group and Sham group were injected with equal amounts of physiological saline.Cardiac function indicators were observed through ultrasound electrocardiogram;ELISA was applied to detect myocardial injury indicators and inflammatory factor levels;HE staining was applied to observe pathological damage of heart;TTC staining was applied to detect myocardial infarction area;TUNEL staining was applied to detect cell apoptosis;Western blot was applied to detect expres-sions of RIP1-RIP3-MLKL pathway proteins.Results:Myocardial cells in Sham group were intact and arranged in an orderly manner;arrangement of myocardial cells was disordered and swollen,myofibril contracted,and sarcolemma was destroyed in MIR group,ejec-tion fraction(EF)and cardiac output(CO)level were obviously lower than Sham group(P<0.05),Mb,cTnⅠ,CK-Mb contents,IL-6,IL-18 levels,myocardial infarction area,myocardial cell apoptosis rate,RIP1,RIP3 and MLKL protein levels were obviously increased(P<0.05);compared with MIR group,Leo group had improved cell arrangement disorder and edema,and obviously increased EF and CO levels(P<0.05),Mb,cTnⅠ,CK-Mb contents,IL-6,IL-18 levels,myocardial infarction area,myocardial cell apoptosis rate,RIP1,RIP3 and MLKL protein levels were obviously reduced(P<0.05),trend of Compound 6i group was opposite;myocardial tissue structure of Leo+Compound 6i group was similar to MIR group,and Compound 6i eliminated cardioprotective effect of Leo on MIR rats.Conclusion:Leo may alleviate myocardial necrosis apoptosis in MIR rats by down-regulating RIP1-RIP3-MLKL pathway,thus playing a therapeutic role in MIR.

Objective:To investigate impact of leonurine(Leo)on necrotic apoptosis in rats with myocardial ischemia/reperfu-sion(MIR)injury by regulating receptor interacting protein 1(RIP1)-receptor interacting protein 3(RIP3)-mixed lineage kinase domain-like protein(MLKL)pathway.Methods:Fifteen rats were randomly selected as sham surgery group(Sham),left anterior descending coronary artery of remaining rats were ligated to construct MIR model,and randomly grouped into MIR group,Leo group(15 mg/kg),Compound 6i group(1 mg/kg RIP1-RIP3-MLKL pathway activator Compound 6i)and Leo+Compound 6i group(15 mg/kg Leo+1 mg/kg Compound 6i),with 15 rats in each group.MIR group and Sham group were injected with equal amounts of physiological saline.Cardiac function indicators were observed through ultrasound electrocardiogram;ELISA was applied to detect myocardial injury indicators and inflammatory factor levels;HE staining was applied to observe pathological damage of heart;TTC staining was applied to detect myocardial infarction area;TUNEL staining was applied to detect cell apoptosis;Western blot was applied to detect expres-sions of RIP1-RIP3-MLKL pathway proteins.Results:Myocardial cells in Sham group were intact and arranged in an orderly manner;arrangement of myocardial cells was disordered and swollen,myofibril contracted,and sarcolemma was destroyed in MIR group,ejec-tion fraction(EF)and cardiac output(CO)level were obviously lower than Sham group(P<0.05),Mb,cTnⅠ,CK-Mb contents,IL-6,IL-18 levels,myocardial infarction area,myocardial cell apoptosis rate,RIP1,RIP3 and MLKL protein levels were obviously increased(P<0.05);compared with MIR group,Leo group had improved cell arrangement disorder and edema,and obviously increased EF and CO levels(P<0.05),Mb,cTnⅠ,CK-Mb contents,IL-6,IL-18 levels,myocardial infarction area,myocardial cell apoptosis rate,RIP1,RIP3 and MLKL protein levels were obviously reduced(P<0.05),trend of Compound 6i group was opposite;myocardial tissue structure of Leo+Compound 6i group was similar to MIR group,and Compound 6i eliminated cardioprotective effect of Leo on MIR rats.Conclusion:Leo may alleviate myocardial necrosis apoptosis in MIR rats by down-regulating RIP1-RIP3-MLKL pathway,thus playing a therapeutic role in MIR.

Alfalfa (Medicago sativa) is an important food and feed crop which rich in mineral sources. The WUSCHEL-related homeobox (WOX) gene family plays important roles in plant development and identification of putative gene families, their structure, and potential functions is a primary step for not only understanding the genetic mechanisms behind various biological process but also for genetic improvement. A variety of computational tools, including MAFFT, HMMER, hidden Markov models, Pfam, SMART, MEGA, ProtTest, BLASTn, and BRAD, among others, were used. We identified 34 MsWOX genes based on a systematic analysis of the alfalfa plant genome spread in eight chromosomes. This is an expansion of the gene family which we attribute to observed chromosomal duplications. Sequence alignment analysis revealed 61 conserved proteins containing a homeodomain. Phylogenetic study sung reveal five evolutionary clades with 15 motif distributions. Gene structure analysis reveals various exon, intron, and untranslated structures which are consistent in genes from similar clades. Functional analysis prediction of promoter regions reveals various transcription binding sites containing key growth, development, and stress-responsive transcription factor families such as MYB, ERF, AP2, and NAC which are spread across the genes. Most of the genes are predicted to be in the nucleus. Also, there are duplication events in some genes which explain the expansion of the family. The present research provides a clue on the potential roles of MsWOX family genes that will be useful for further understanding their functional roles in alfalfa plants.