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Qi J, Lv C, Guo J, Li Y, Sima M, Luo R, Xiang H, Xia X, Zhou Y, Wang T. Schisandra chinensis (Turcz.) Baill. polysaccharide inhibits influenza A virus in vitro and in vivo. FEBS Open Bio 2023; 13:1831-1843. [PMID: 37544014 PMCID: PMC10549229 DOI: 10.1002/2211-5463.13690] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/12/2023] [Revised: 08/01/2023] [Accepted: 08/04/2023] [Indexed: 08/08/2023] Open
Abstract
Influenza virus is prone to seasonal spread and widespread outbreaks, which pose important challenges to public health security. Therefore, it is important to effectively prevent and treat influenza virus infection. Schisandra polysaccharide (SPJ) is a polysaccharide derived from the fruit of Schisandra chinensis (Turcz.) Baill. In this study, we evaluated the antiviral activity of SPJ in vitro and in vivo, especially against influenza A virus (IAV) infection. By analyzing SPJ structure and monosaccharide composition, the molecular weight of SPJ was determined to be 115.5 KD, and it is composed of galacturonic acid (89.4%), rhamnose (0.8%), galactose (4.4%), arabinose (3.8%), and glucose (1.7%). Immunofluorescence analysis showed that SPJ treatment reduced the positive rate of viral nucleoproteins in cells, indicating that the compound had an inhibitory effect on influenza virus replication. Furthermore, SPJ therapy improved the survival of infected mice. Lung virus titer assays indicated that SPJ treatment significantly reduced viral loading in the lung tissue of infected mice and alleviated the pathological damage caused by influenza virus infection. Moreover, SPJ reduced cytokine expression during influenza virus challenge. In conclusion, SPJ has anti-influenza virus effects and may have potential as an anti-influenza drug candidate in further clinical studies.
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Affiliation(s)
- Jing Qi
- College of Life SciencesNortheast Normal UniversityChangchunChina
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
| | - Chaoxiang Lv
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
- The Research Center for Preclinical MedicineSouthwest Medical UniversityLuzhouChina
| | - Jin Guo
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
- College of Life SciencesShandong Normal UniversityJinanChina
| | - Yuanguo Li
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
| | - Mingwei Sima
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
- College of Basic MedicineChangchun University of Chinese MedicineChina
| | - Rongbo Luo
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
| | - Haiyang Xiang
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
| | - Xianzhu Xia
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
| | - Yifa Zhou
- College of Life SciencesNortheast Normal UniversityChangchunChina
| | - Tiecheng Wang
- Changchun Veterinary Research Institute, Chinese Academy of Agricultural SciencesChina
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Popov SV, Mukhomedzyanov AV, Voronkov NS, Derkachev IA, Boshchenko AA, Fu F, Sufianova GZ, Khlestkina MS, Maslov LN. Regulation of autophagy of the heart in ischemia and reperfusion. Apoptosis 2023; 28:55-80. [PMID: 36369366 DOI: 10.1007/s10495-022-01786-1] [Citation(s) in RCA: 20] [Impact Index Per Article: 20.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Accepted: 10/17/2022] [Indexed: 11/13/2022]
Abstract
Ischemia/reperfusion (I/R) of the heart leads to increased autophagic flux. Preconditioning stimulates autophagic flux by AMPK and PI3-kinase activation and mTOR inhibition. The cardioprotective effect of postconditioning is associated with activation of autophagy and increased activity of NO-synthase and AMPK. Oxidative stress stimulates autophagy in the heart during I/R. Superoxide radicals generated by NADPH-oxidase acts as a trigger for autophagy, possibly due to AMPK activation. There is reason to believe that AMPK, GSK-3β, PINK1, JNK, hexokinase II, MEK, PKCα, and ERK kinases stimulate autophagy, while mTOR, PKCδ, Akt, and PI3-kinase can inhibit autophagy in the heart during I/R. However, there is evidence that PI3-kinase could stimulate autophagy in ischemic preconditioning of the heart. It was found that transcription factors FoxO1, FoxO3, NF-κB, HIF-1α, TFEB, and Nrf-2 enhance autophagy in the heart in I/R. Transcriptional factors STAT1, STAT3, and p53 inhibit autophagy in I/R. MicroRNAs could stimulate and inhibit autophagy in the heart in I/R. Long noncoding RNAs regulate the viability and autophagy of cardiomyocytes in hypoxia/reoxygenation (H/R). Nitric oxide (NO) donors and endogenous NO could activate autophagy of cardiomyocytes. Activation of heme oxygenase-1 promotes cardiomyocyte tolerance to H/R and enhances autophagy. Hydrogen sulfide increases cardiac tolerance to I/R and inhibits apoptosis and autophagy via mTOR and PI3-kinase activation.
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Affiliation(s)
- Sergey V Popov
- Cardiology Research Institute, Tomsk National Research Medical Centre, the Russian Academy of Sciences, Tomsk, Russia, 634012
| | - Alexander V Mukhomedzyanov
- Cardiology Research Institute, Tomsk National Research Medical Centre, the Russian Academy of Sciences, Tomsk, Russia, 634012
| | - Nikita S Voronkov
- Cardiology Research Institute, Tomsk National Research Medical Centre, the Russian Academy of Sciences, Tomsk, Russia, 634012
| | - Ivan A Derkachev
- Cardiology Research Institute, Tomsk National Research Medical Centre, the Russian Academy of Sciences, Tomsk, Russia, 634012
| | - Alla A Boshchenko
- Cardiology Research Institute, Tomsk National Research Medical Centre, the Russian Academy of Sciences, Tomsk, Russia, 634012
| | - Feng Fu
- School of Basic Medicine, Fourth Military Medical University, No.169, West Changle Road, Xi'an, 710032, China
| | | | | | - Leonid N Maslov
- Cardiology Research Institute, Tomsk National Research Medical Centre, the Russian Academy of Sciences, Tomsk, Russia, 634012.
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Cheng L, Wang X, Chou H, Liu T, Fu H, Li G. Proteomic Sequencing of Stellate Ganglions in Rabbits With Myocardial Infarction. Front Physiol 2021; 12:687424. [PMID: 34975513 PMCID: PMC8716754 DOI: 10.3389/fphys.2021.687424] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/29/2021] [Accepted: 11/17/2021] [Indexed: 11/20/2022] Open
Abstract
The stellate ganglion (SG) of the autonomic nervous system plays important role in cardiovascular diseases (CDs). Myocardial infarction (MI) is associated with sustained increasing cardiac sympathetic nerve activity. Expressions and functions of proteins in SG tissue after MI are remaining unclear. This study is to explore the expression characteristics of proteins in SGs associated with MI. Japanese big-ear white rabbits (n = 22) were randomly assigned to the control group and MI group. The MI model was established by left anterior descending coronary artery ligation and confirmed by serum myocardial enzymes increasing 2,3,5-triphenyltetrazolium (TTC) staining and echocardiography. The expressions of proteins in rabbit SGs after MI were detected using tandem mass tags (TMT) quantitative proteomic sequencing. There were 3,043 credible proteins were predicted in rabbit SG tissues and 383 differentially expressed proteins (DEPs) including 143 upregulated and 240 downregulated proteins. Gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis showed that the DEPs involved in adrenergic signaling in cardiomyocytes, positive regulation of ERK1 and ERK2 cascade, and other biological processes. Three kinds of proteins directly correlated to CDs were selected to be validated by the subsequent western blot experiment. This study first identified the characterization of proteins in rabbit SG after MI, which laid a solid foundation for revealing the mechanism of roles of SG on the MI process.
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