Background: Somatic cell nuclear transfer (SCNT) is used widely in cloning, stem cell research, and regenerative medicine. The type of donor cells is a key factor affecting the SCNT efficiency. Objectives: This study examined whether urine-derived somatic cells could be used as donors for SCNT in pigs. Methods: The viability of cells isolated from urine was assessed using trypan blue and propidium iodide staining. The H3K9me3/H3K27me3 level of the cells was analyzed by immunofluorescence. The in vitro developmental ability of SCNT embryos was evaluated by the blastocyst rate and the expression levels of the core pluripotency factor. Blastocyst cell apoptosis was examined using a terminal deoxynucleotidyl transferase dUTP nick end-labeling assay. The in vivo developmental ability of SCNT embryos was evaluated after embryo transfer. Results: Most sow urine-derived cells were viable and could be cultured and propagated easily. On the other hand, most of the somatic cells isolated from the boar urine exhibited poor cellular activity. The in vitro development efficiency between the embryos produced by SCNT using porcine embryonic fibroblasts (PEFs) and urine-derived cells were similar.Moreover, The H3K9me3 in SCNT embryos produced from sow urine-derived cells and PEFs at the four-cell stage showed similar intensity. The levels of Oct4, Nanog, and Sox2 expression in blastocysts were similar in the two groups. Furthermore, there is a similar apoptotic level of cloned embryos produced by the two types of cells. Finally, the full-term development ability of the cloned embryos was evaluated, and the cloned fetuses from the urine-derived cells showed absorption. Conclusions Sow urine-derived cells could be used to produce SCNT embryos.

This study aimed to investigate the effect and the possible mechanism of Shenlian( SL) extract on tumor necrosis factor-α( TNF-α)-induced ECV304 injury. After the establishment of TNF-α-induced ECV304 cells injure model,MTT assay was used to detect cell viability and the level of reactive oxygen species( ROS) was measured by flow cytometry. The contents of superoxide dismutase( SOD),malondialdehyde( MDA),nitric oxide( NO),endothelin-1( ET-1) and interleukin-1β( IL-1β) in the supernatant were detected by biochemical method and enzyme linked immunosorbent assay( ELISA). The expression levels of apoptosis-related proteins B-lymphoma-2 gene( Bcl-2),Bcl-2 associated X protein( Bax),caspase-3,caspase-9 and nuclear factor E2 associated factor2( Nrf2)/Kelch like epichlorohydrin associated protein-1( Keap1) signaling pathway related proteins Nrf2,Keap1,quinone oxidoreductase( NQO1) and heme oxygenase 1( HO-1) were detected by Western blot. The results showed that 50 μg·L-1 TNF-α significantly damaged ECV304 cells,induced the impairment of cell viability( P<0. 01),the increase of ROS production,the decrease of SOD activity,and the increase of MDA,NO,ET-1 and IL-1β( P<0. 01),meanwhile,it caused the up-regulation of Keap1,caspase-9 and Bax protein expression,and down-regulation of NQO1 and Bcl-2 protein expression( P<0. 05) compared with the control group.Compared with the model group,SL extract reduced the damage of ECV304 cells induced by TNF-α,improved cell viability,reduced ROS production,increased SOD activity and decreased MDA,NO,ET-1,IL-1β content( P<0. 01 or P<0. 05). In addition,SL extract also down-regulated the protein expression levels of Keap1,caspase-3,caspase-9 and Bax,and increased the protein expressions of Nrf2,NQO1,HO-1 and Bcl-2( P<0. 01 or P<0. 05). The above results indicate that SL extract can provide protective effect on ECV304 cells injury induced by TNF-α,alleviate oxidative stress injury,inflammation and apoptosis,and its mechanism may be related to regulating Nrf2/Keap1 signaling pathway.
Apoptosis ; Kelch-Like ECH-Associated Protein 1/metabolism* ; NF-E2-Related Factor 2/metabolism* ; Oxidative Stress ; Plant Extracts ; Signal Transduction ; Tumor Necrosis Factor-alpha/genetics*

Excitatory toxicity(ET) is an important factor of neuropathic pain(NPP) induced by central sensitization(CS), and the association of pannexin-1(Panx1)-Src-N-methyl-D-aspartate receptor subunit 2 B(NMDAR-2 B) is an important new pathway for ET to initiate CS. The present study confirmed whether the central analgesic effect of Chuanxiong Rhizoma extract(CRE) was achieved through the synchronous regulation of the brain and spinal pathways of Panx1-Src-NMDAR-2 B. In this study, dynamic and simulta-neo-us microdialysis of the brain and spinal cord in vivo combined with behavioristics, high performance liquid chromatography(HPLC)-fluorescence detection, microdialysis analysis(ISCUS~(flex)), ultrasensitive multifactorial electrochemiluminescence immunoassay, ELISA, and Western blot was employed to investigate the protein expression of NMDAR-2 B, Src, and Panx1, extracellular excitatory amino acids, cytokines, energy metabolites, and substance P in spinal dorsal horn(SDH) and anterior cingulate cortex(ACC) after CRE intervention with the rat model of spared sciatic nerve injury(SNI) as the experimental tool. Compared with the sham group, the SNI group exhibited diminished mechanical withdrawal threshold(MWT)(P<0.01), increased cold spray scores(P<0.01), glutamate(Glu), D-serine(D-Ser), and glycine(Gly) in extracellular fluids of ACC, and Glu, D-Ser, interleukin-1β(IL-1β), and lactic acid(Lac) in extracellular fluids of SDH(P<0.05), dwindled tumor necrosis factor(TNF-α)(P<0.05), and elevated protein levels of NMDAR-2 B, Src, and Panx1 in ACC(P<0.05). Compared with the SNI model rats, high-and medium-dose CRE(CRE-H/M) could potentiate the analgesic activity as revealed by the MWT test(P<0.05) and CRE-M enabled the decrease in cold spray scores(P<0.05). CRE-H/M could inhibit the levels of Glu, D-Ser and Gly in the extracellular fluids of ACC(P<0.05), and the levels of Glu in the extracellular fluids of SDH(P<0.05) in SNI rats. CRE-M significantly increased the levels of glucose(Gluc), Lac, interferon-gamma(IFN-γ), keratinocyte chemoattractant/human growth-regulated oncogenes(KC/GRO), and IL-4 in extracellular fluids of SDH in SNI rats(P<0.05). CRE-H/M/L could also inhibit the levels of NMDAR-2 B, Src and Panx1 in ACC and SDH in SNI rats(P<0.05). The central analgesic effect of CRE is presumedly related to the inhibited release of excitatory amino acid transmitters(Glu, D-Ser and Gly) in ACC and SDH of SNI rats, decreased protein expression of NMDAR-2 B, Src and Panx1 in the two regions, and the regulation of the Panx1-Src-NMDAR-2 B pathway in the spinal cord and brain. The above findings partially clarified the scientific basis of clinical analgesic effect of Chuanxiong Rhizoma.
Animals ; Central Nervous System Sensitization ; Neuralgia/drug therapy* ; Rats ; Rats, Sprague-Dawley ; Receptors, N-Methyl-D-Aspartate/metabolism* ; Signal Transduction ; Spinal Cord/metabolism*

Objective:To establish an ultra-performance liquid chromatography-mass spectrometry （UPLC-MS/MS） for determining the plasma concentrations of 10 active ingredients in Wujiwan at different time points after oral administration， and to compare the pharmacokinetic characteristics between normal rats and rats with chronic visceral hypersensitive irritable bowel syndrome （CVH-IBS）. Method:CVH-IBS rat model was prepared by the neonatal rat colon percutaneous transluminal coronary angioplasty （PTCA） balloon stimulation method. After intragastric administration of Wujiwan （0.245 g·kg^-1）， blood was collected from the jugular vein at different time points， and the plasma concentrations of 10 active ingredients （berberine hydrochloride， palmatine hydrochloride， coptisine hydrochloride， jatrorrhizine hydrochloride， epiberberine， dihydroberberine， evodiamine， evodine， paeoniflorin， albiflorin） in Wujiwan was detected simultaneously by UPLC-MS/MS， the pharmacokinetic parameters of each component in normal rats and CVH-IBS rats were calculated. Result:The established UPLC-MS/MS could sensitively and accurately detect the plasma concentrations of 10 active ingredients of Wujiwan in rats. Compared with the normal group， the absorption rates of these 10 active ingredients of Wujiwan in the blood of CVH-IBS rats all decreased to a certain extent， and the peak time （t_max） was prolonged. Among them， the t_max of berberine hydrochloride and jatrorrhizine hydrochloride were significantly prolonged from 54 minute and 39 minute to 90 minute， respectively （P<0.05， P<0.01）. Area under the plasma concentration-time curve （AUC_0-t） of each component increased， and evodiamine and paeoniflorin were significantly different （P<0.05， P<0.01）. The clearance rates （CL/F） of these 10 active ingredients were all decreased， among which berberine hydrochloride， palmatine hydrochloride and evodiamine had significant differences （P<0.05， P<0.01）. Conclusion:There are significant differences in the pharmacokinetic behavior of the active ingredients in Wujiwan between normal rats and CVH-IBS rats， which may be related to the destruction of microstructure of intestinal epithelial cells and the change of activity of liver enzymes under the pathological state of IBS.

Objective:To compare the therapeutic efficacies of Wujiwan at two different compatibilities （No.1 and No.2） on irritable bowel syndrome （IBS） based on neuro-endocrine-immune network， and provide a theoretical basis for the treatment based on syndrome differentiation in traditional Chinese medicine （TCM）. Method:The chronic animal model of IBS with visceral hypersensitivity was established by colon irritation via percutaneous transluminal coronary angioplasty （PTCA） in suckling rats. The animals were randomly divided into a control group， a model group， a dicetel group （0.01 g·kg^-1）， low- （0.335 g·kg^-1）， medium- （0.67 g·kg^-1）， and high-dose （1.34 g·kg^-1） No. 1 Wujiwan groups， and low- （0.385 g·kg^-1）， medium- （0.77 g·kg^-1）， and high-dose （1.54 g·kg^-1） No. 2 Wujiwan groups. The thresholds of abdominal elevation and bow back elevation were evaluated to detect the effect of Wujiwan on intestinal sensitivity of IBS. The density of mast cells （MC） in the colonic tissue of model rats was detected by the modified toluidine blue staining method. The concentrations/positive expression of 5-hydroxytryptamine （5-HT）， substance P （SP）， somatostatin （SS）， and vasoactive intestinal peptide （VIP） in the blood/colon tissue were detected by enzyme-linked immunosorbent assay （ELISA） and immunohistochemistry （IHC） assay. Result:There was no significant difference in body weight among different groups. Compared with the control group， the model group exhibited decreased thresholds of abdominal elevation and bow back elevation （P<0.01）， increased density of MCs in the colon tissue （P<0.05）， up-regulated levels of 5-HT， SP， and SS in the blood and colon tissue （P<0.05， P<0.01）， and elevated VIP level in the colon tissue （P<0.05）. Compared with the model group， Wujiwan at different compatibilities could increase the thresholds of abdominal elevation and bow back elevation （P<0.01）， diminish the count of MC in the colon tissue （P<0.05）， and reduce the levels of 5-HT， SP， SS， and VIP （P<0.05）. As demonstrated by the comparison of No. 1 and No. 2 Wujiwan， No. 1 was superior to No. 2 in reducing the concentrations of 5-HT， SP， and SS in the blood， especially in 5-HT （P<0.01）. No significant difference between No. 1 and No. 2 in reducing 5-HT positive expression in the colon tissue was observed. Compared to the No. 1 Wujiwan， No. 2 significantly reduced SP expression， and the intensity and range of SS expression in the colon tissue in the No. 2 groups were smaller than those in the No. 1 groups （P<0.05）. Conclusion:Wujiwan at different compatibilities was capable of improving gastrointestinal hormone disorder of IBS to reduce intestinal sensitivity. In terms of systemic effect， No. 1 was superior to No. 2， while in terms of local effect， No. 2 was advantageous. No. 1 Wujiwan was superior to No. 2 in the effect on intestinal dynamics， while No. 2 had an advantageous effect on intestinal sensation over No. 1.

Corona virus disease 2019(COVID-19) has brought untold human sufferings and economic tragedy worldwide. It causes acute myocardial injury and chronic damage of cardiovascular system, which has attracted much attention from researchers. For the immediate strategy for COVID-19, "drug repurposing" is a new opportunity for developing drugs to fight COVID-19. Artemisinin and its derivatives have a wide range of pharmacological activities. Recent studies have shown that artemisinin has clear cardiovascular protective effects. This paper summarizes the research progress on the pathogenesis the pathogenesis of COVID-19 in cardiovascular damage by 2019 novel coronavirus(2019-nCoV) virus from myocardial cell injury directly by 2019-nCoV virus,viral ligands competitively bind to ACE2 and then reduce the protective effect of ACE2 on cardiovascular disease, "cytokine storm" related myocardial damage, arrhythmia and sudden cardiac death induced by the infection and stress, myocardial injury by hypoxemia, heart damage side effects from COVID-19 drugs and summarizing the cardiovascular protective effects of artemisinin and its derivatives have activities of anti-arrhythmia, anti-myocardial ischemia, anti-atherosclerosis and plaque stabilization. Then analyzed the possible multi-pathway intervention effects of artemisinin-based drugs on multiple complications of COVID-19 based on its specific immunomodulatory effects, protective effects of tissue and organ damage and broad-spectrum antiviral effect, to provide clues for the treatment of cardiovascular complications of COVID-19, and give a new basis for the therapy of COVID-19 through "drug repurposing".
Artemisinins ; COVID-19 ; Cardiovascular Diseases ; Heart Diseases ; Humans ; SARS-CoV-2

The normal immune system has the ability to distinguish between "self" and "non-self". Because of its dynamic balance of "immune activity-immune tolerance", it will produce immune response to the non-self antigen, but with no response or weak response to the self-antigen. However, if the balance was broken, T cell in the abnormal immune activation state will respond continually to the self-antigen, with an abnormal immune response, which caused autoimmune disease. Pathologically, "invalid" immune recognition and immune response become the main causes for autoimmune diseases. Co-stimulatory molecule is an important link between Attach antigen presenting cells（APC） and immune cells (T cell and B cell). Studies have proved that excessive co-stimulation and/or insufficient co-inhibition could cause detect of self-tolerance and induce autoimmunity. Although co-stimulatory and co-inhibitory pathways have a significant impact on all ADS, this paper focuses on their effect on two systemic autoimmune diseases [systemic lupus erythematosus （SLE） and rheumatoid arthritis（RA）] and two organ-specific autoimmune diseases [multiple sclerosis （MS） and type 1 diabetes （T1DM）], in order to discuss the pathogenesis and relationship between co-stimulatory molecules and autoimmune diseases.

Objective:To study the protective effect and mechanism of artemisinin on systemic inflammatory response syndrome （SIRS）mice using endotoxin （LPS）-induced SIRS mouse model. Method:Male BALB/c mice aged 5-7 weeks were randomly divided into normal group， LPS model group， low， medium and high-dose artemisinin groups （25， 50， 100 mg·kg^-1） and ibuprofen group （39 mg·kg^-1）. LPS （10 mg·kg^-1） was intraperitoneally injected at the 7^th day after the prophylaxis. According to the SIRS clinical diagnostic criteria， the respiratory rate， rectal temperature， lung index， spleen index， glycolipid metabolism， brain tissue inflammatory factors， and phosphorylation of lung tissue inflammation-related proteins were measured. Result:Intraperitoneal injection of LPS significantly reduced the respiratory rate of mice （P<0.05）， body temperature decreased significantly （P<0.01）， spleen index increased significantly （P<0.01）， peripheral blood neutrophil percentage increased significantly （P<0.05）， percentage of monocytes decreased significantly （P<0.01）， thrombocyte decreased （P<0.01）， platelet specific ratio decreased （P<0.01）， total cholesterol content in plasma decreased （P<0.01）， plasma glucose content decreased （P<0.01）. The expression of interleukin-1β increased in hippocampus and cortex of brain tissue （P<0.01）， and the secretion of tumor necrosis factor-α increased in hippocampus and cortex of brain tissue （P<0.01）. The expression of phosphorylated protein STAT1 was increased （P<0.01）， and the expression of phosphorylated protein c-Jun was increased （P<0.01）. After the administration of artemisinin， the body temperature and the respiratory rate of mice induced by LPS were significantly increased， the pathological changes of various organs induced by LPS were alleviated， the hypoglycemia induced by LPS was significantly increased （P<0.05）， the levels of inflammatory factors in hippocampus and cortex was significantly reduced， and the expressions of phosphorylated proteins STAT1 and c-Jun in lung tissue were significantly reduced （P<0.05， P<0.01）. Conclusion:Artemisinin has a significantly protective effect on SIRS mice induced by intraperitoneal injection of LPS possibly by reducing the secretion of inflammatory factors TNF-α and IL-1β.