Fangji Fuling Decoction Alleviates Sepsis by Blocking MAPK14/FOXO3A Signaling Pathway / 中国结合医学杂志

OBJECTIVE@#To examine the therapeutic effect of Fangji Fuling Decoction (FFD) on sepsis through network pharmacological analysis combined with in vitro and in vivo experiments.@*METHODS@#A sepsis mouse model was constructed through intraperitoneal injection of 20 mg/kg lipopolysaccharide (LPS). RAW264.7 cells were stimulated by 250 ng/mL LPS to establish an in vitro cell model. Network pharmacology analysis identified the key molecular pathway associated with FFD in sepsis. Through ectopic expression and depletion experiments, the effect of FFD on multiple organ damage in septic mice, as well as on cell proliferation and apoptosis in relation to the mitogen-activated protein kinase 14/Forkhead Box O 3A (MAPK14/FOXO3A) signaling pathway, was analyzed.@*RESULTS@#FFD reduced organ damage and inflammation in LPS-induced septic mice and suppressed LPS-induced macrophage apoptosis and inflammation in vitro (P<0.05). Network pharmacology analysis showed that FFD could regulate the MAPK14/FOXO signaling pathway during sepsis. As confirmed by in vitro cell experiments, FFD inhibited the MAPK14 signaling pathway or FOXO3A expression to relieve LPS-induced macrophage apoptosis and inflammation (P<0.05). Furthermore, FFD inhibited the MAPK14/FOXO3A signaling pathway to inhibit LPS-induced macrophage apoptosis in the lung tissue of septic mice (P<0.05).@*CONCLUSION@#FFD could ameliorate the LPS-induced inflammatory response in septic mice by inhibiting the MAPK14/FOXO3A signaling pathway.

C-Fos directly interacts with mitogen activated protein kinase 14 to regulate the proliferation and apoptosis of rheumatoid arthritis fibroblast-like synovial cells / 中华风湿病学杂志

Objective:To explore the interaction between C-Fos and mitogen activated protein kinase 14 (MAPK14) in rheumatoid arthritis fibroblast-like synoviocytes (RA-FLS), and its effect on the proliferation and apoptosis of RA-FLSs.Methods:RA-FLS and normal fibroblast-like synovial cells (FLS) were cultured. Real-time fluorescent quantitative polymerase chain reaction (RT-qPCR) and Western blotting were used to detect the expression levels of C-Fos mRNA and protein in the two groups. RA-FLS cells were divided into C-Fos overexpression group (transfected with pcDNA3.1-Myc-C-Fos plasmid), overexpression control group (transfected with pcDNA3.1-Myc empty plasmid), and C-Fos silent group (transfection siRNA-C-Fos), silence control group (transfection siRNA-NC) and blank control group (without any treatment). CCK-8 method was used to detect cell proliferation in each group, and flow cytometry was used to detect cell apoptosis in each group. Western blotting was used to detect the expression levels of C-Fos, MAPK14, p-MAPK14, ki-67 and Bax protein in each group. The indirect immunofluorescence experiment analyzed the spatial co-localization of C-Fos and MAPK14, and the co-immunoprecipitation experiment analyzed whether there was interactions between C-Fos and MAPK14 protein. The results of the experimental data were analyzed by Graph Pad Prism 5.0 software. The data of normal distribution was shown as Mean ± standard deviation, and the comparison between the two independent samples using the t test. One-way Analysis of Variance (ANOVA) was used for overall comparison among the multiple groups in the experimental group, and LSD- t test was used for pair comparison within the group. P<0.05 indicated that the difference was statistically significant. Results:The mRNA levels of C-Fos (5.37±0.91) in RA-FLS were significantly higher than FLS (1.46±0.32) ( t=9.94, P<0.001). The protein levels of C-Fos (1.12±0.15) were significantly higher than FLS (0.81±0.07) ( t=3.18, P=0.017). Compared with the blank control group and the overexpression control group, RA-FLS cells transfected with pcDNA3.1-Myc-C-Fos could promote the proliferation of RA-FLS cells, inhibit apoptosis, significantly up-regulate the expression levels of C-Fos, p-MAPK14, ki-67, and significantly down-regulate cellular Bax protein levels (all P<0.05). Compared with the blank control group and the silent control group, RA-FLS cells transfected with siRNA-C-Fos could inhibit the proliferation of RA-FLS cells, promote apoptosis, down-regulate the expression levels of C-Fos, p-MAPK1, ki-67, and up-regulate the cellular Bax protein expression level (all P<0.05). The results of indirect immunofluorescence experiments showed that both C-Fos and MAPK14 could be expressed in the nucleus of RA-FLS. The co-immunoprecipitation experiment verified that C-Fos and MAPK14 protein interact with each other. Conclusion:The interaction of C-Fos-MAPK14 promotes the autophosphorylation of MAPK14, thereby promoting the proliferation of rheumatoid arthritis fibroblast-like synovial cells and inhibiting apoptosis.

Mechanism of suppressing astrocyte mitogen-activated protein kinase 14 to alleviate neuronal injury caused by glutamate excitatory toxicity / 中华创伤杂志

Objective:To explore the action mechanism of suppressing expression of mitogen- activated protein kinase 14（MAPK14）to alleviate glutamate excitatory toxicity and its neuronal protection effect.Methods:Lentivirus-mediated MAPK14 interference vector was synthetized by Shanghai Jikai Gene Chemical Technology Co.，Ltd. Astrocytes were obtained from SD rats 48 hours after birth，which were cultured in vitro and transfected by lentivirus-mediated transfection. According to the random number table，the cells were divided into three groups：（1）un-transfected group（normal group）with normal astrocytes and the cells were cultured in regular medium composed of Dulbecco's?modified Eagle's?medium（DMEM）；（2）negative control group with astrocytes transfected by MAPK14 no-loaded interference vector；（3）lentivirus transfected group with astrocytes transfected by MAPK14 interference vector. Seventy-two hours after transfection，astrocytes were co-cultured with neurons for 48 hours，and then they were cultured in a medium containing glutamate for 2 hours. The detection indexes included the optimal multiplicity of infection（MOI）value for astrocytes transfected by lentivirus vector，mRNA levels of MAPK14 and glial glutamate transporter 1（GLT-1）detected by rPCR 72 hours after transfection，protein levels of MAPK14 and GLT-1 detected by Western blot 72 hours after transfection，level of lactate dehydrogenase（LDH）and mortality of neurons measured by spectrophotometry and flow cytometry 2 hours after culturing in the medium with glutamate. Results:（1）The optimal MOI value for lentivirus transfecting astrocytes was 30，and astrocytes grew well after transfection.（2）Seventy-two after transfection，the mRNA level of MAPK14 in lentivirus transfected group（0.005 7±0.000 6）was significantly decreased as compared with un-transfected group（0.013 1±0.001 1）and negative control group（0.013 9±0.001 0）（ P<0.01），the mRNA level of GLT-1 in lentivirus transfected group（0.009 1±0.001 2）was not significantly changed as compared with un-transfected group（0.008 7±0.000 3）and negative control group（0.008 9±0.001 1）（ P>0.05）.（3）Seventy-two hours after transfection，the protein level of MAPK14 in lentivirus transfected group（0.29±0.04）was significantly decreased as compared with non-transfected group（0.61±0.05）and negative control group（0.63±0.01）（ P<0.01），the protein level of GLT-1 in lentivirus transfected group（0.73±0.06）was significantly increased as compared with un-transfected group（0.20±0.03）and negative control group（0.23±0.09）（ P<0.01）.（4）After astrocytes were co-cultured with neurons and subsequently cultured in the medium containing glutamate for 2 hours，the level of LDH in lentivirus transfected group［（109.67±2.40）U/L］was significantly lower than that in un-transfected group［（141.52±3.88）U/L］and negative control group［（141.29±3.61）U/L］（ P<0.01）. The mortality of neurons in lentivirus transfected group［（38.72±0.26）%］was significantly lower than that in un-transfected group［（52.94±1.36）%］and negative control group［（54.30±1.23）%］（ P<0.01）. Conclusions:The transfection with lentivirus-mediated MAPK14 interference vector can increase expression of GLT-1 in astrocytes to increase glutamate re-uptake and relieve the glutamate excitatory toxicity in neurons，which may provide a new experimental basis for future use of astrocyte gene regulation to alleviate neuronal injury caused by glutamate excitatory toxicity after traumatic brain injury.

Thromboxane A2 modulates migration, proliferation, and differentiation of adipose tissue-derived mesenchymal stem cells

Prostanoid metabolites are key mediators in inflammatory responses, and accumulating evidence suggests that mesenchymal stem cells (MSCs) can be recruited to injured or inflamed tissues. In the present study, we investigated whether prostanoid metabolites can regulate migration, proliferation, and differentiation potentials of MSCs. We demonstrated herein that the stable thromboxane A2 (TxA2) mimetic U46619 strongly stimulated migration and proliferation of human adipose tissue-derived MSCs (hADSCs). Furthermore, U46619 treatment increased expression of alpha-smooth muscle actin (alpha-SMA), a smooth muscle marker, in hADSCs, suggesting differentiation of hADSCs into smooth muscle-like cells. U46619 activated ERK and p38 MAPK, and pretreatment of the cells with the MEK inhibitor U0126 or the p38 MAPK inhibitor SB202190 abrogated the U46619-induced migration, proliferation, and alpha-SMA expression. These results suggest that TxA2 plays a key role in the migration, proliferation, and differentiation of hADSCs into smooth muscle-like cells through signaling mechanisms involving ERK and p38 MAPK.