Traditional Chinese Medicine Treatment, Gua Sha, can Induce Subtle Molecular Changes in Gene Expression / 生物医学与环境科学（英文）

OBJECTIVE@#Here, we explored molecular changes that could potentially mediate healing effects of Gua Sha - a method employed by the Chinese traditional medicine with proven track records of safe and efficient applications dating back to ancient times as well as support from randomized controlled trials performed by modern medical studies - yet remaining almost entirely unexplored by the modern-day high-throughput methods of the -omics sciences.@*METHODS@#We investigated transcriptome changes occurring shortly after Gua Sha treatment in the whole blood of healthy volunteers using bulk RNA-seq analysis. We applied various analytical tools to identify genes with consistent expression changes in multiple individuals in response to Gua Sha and their networks.@*RESULTS@#We found that while the changes were very subtle and individual-specific, we could identify consistent upregulation of three histone genes. Further analysis of the potential regulatory networks of these histone genes revealed the enrichment of functions involved in the immune response and inflammation.@*CONCLUSION@#The significance of these results in the context of potential effects of Gua Sha and the next steps in exploring the molecular mechanisms of action of this technique are discussed.

Mechanism of Dried Fruiting Bodies of Fomes officinalis Against Alzheimer's Disease： Based on Network Pharmacology and In Vitro Experimental Verification / 中国实验方剂学杂志

ObjectiveTo explore the possible mechanism of dried fruiting bodies of Fomes officinalis （FOA） against Alzheimer's disease （AD） based on network pharmacology and experimental verification. MethodThe effective components of FOA were retrieved from a Bioinformatics Analysis Tool for Molecular mechANism of Traditional Chinese Medicine （BATMAN-TCM） and previous reports. The targets of the components were searched from PharmMapper and TargetNet， and the targets related to AD from Gene Expression Omnibus （GEO）， DrugBank， among other databases. Thereby， the common targets of FOA and AD were obtained， and the protein-protein interaction （PPI） network and component-target network were established based on STRING and Cytoscape 3.7.1， followed by the topology analysis of the networks， and Gene Ontology （GO） term enrichment and Kyoto Encyclopedia of Genes and Genomes （KEGG） pathway enrichment analysis of the common targets. The results were verified by the molecular docking and the in vitro cell experiment. ResultA total of 24 candidate components and 242 predicted targets of FOA， and 96 common targets of FOA and AD were screened out. The key components included ［2-（1-carboxyhexadecylamino）-2-aminosuccinic acid］， 3-keto-dehydrosulfurenic acid， and eburicoic acid， and the active targets were albumin （ALB）， acetylcholinesterase （AChE）， estrogen receptor 1 （ESR1）， cysteine aspartate-specific protease-3 （Caspase-3）， and beta-secretase1 （BACE1）. The common targets were involved in 392 GO terms， and the key terms were the β-amyloid metabolic process and cholinesterase activity. A total of 77 KEGG pathways were obtained， which mainly included estrogen signaling pathway， cholinergic synapse， and AD. The results of molecular docking showed that 7 components of FOA had high binding affinity to amyloid precursor protein （APP）， BACE1， AChE， and Caspase-3. The cell survival rate rose （P<0.01） and the mRNA and protein expression of APP， BACE1， AChE， and Caspase-3 reduced in FOA groups in a dose-dependent manner compared with those in the model group （P<0.05）. ConclusionThis study reveals for the first time that FOA has multi-component， multi-target， and multi-pathway characteristics in the treatment of AD， which serves as a reference for further explaining the mechanism of FOA against AD.

Epidermal growth factor receptor-targeted ultra-small superparamagnetic iron oxide particles for magnetic resonance molecular imaging of lung cancer cells in vitro / 中华医学杂志(英文版)

<p><b>BACKGROUND</b>Magnetic resonance (MR) molecular imaging can detect abnormalities associated with disease at the level of cell and molecule. The epidermal growth factor receptor (EGFR) plays an important role in the development of lung cancer. This study aimed to explore new MR molecular imaging targeting of the EGFR on lung cancer cells.</p><p><b>METHODS</b>We attached ultra-small superparamagnetic iron oxide (USPIO) particles to cetuximab (C225) anti-human IgG using the carbodiimide method. We made the molecular MR contrast agents C225-USPIO and IgG-USPIO, the latter as a control reagent, and determined concentrations according to the Fe content. Lung cancer A549 cells were cultured and immunocytochemistry (SP) was used to detect the expression of EGFR on cells. We detected the binding rate of C225-USPIO to A549 cells with immunofluorescence staining and flow cytometry. We cultured A549 cells with C225-USPIO at a Fe concentration of 50 µg/ml and assayed the binding of C225-USPIO after 1 hour with Prussian blue staining and transmission electron microscopy (TEM). We determined the effects on imaging of the contrast agent targeted to cells using a 4.7T MRI. We did scanning on the cells labeled with C225-USPIO, IgG-USPIO, and distilled water, respectively. The scanning sequences included axial T1WI, T2WI.</p><p><b>RESULTS</b>Immunocytochemical detection of lung cancer A549 cells found them positive for EGFR expression. Immunofluorescence staining and flow cytometry after cultivation with different concentrations of C225-USPIO showed the binding rate higher than the control. Prussian blue staining and transmission electron microscopy revealed that in the C225-USPIO contrast agent group of cells the particle content of Fe in cytoplasmic vesicles or on surface was more than that in the control group. The 4.7T MR imaging (MRI) scan revealed the T2WI signal in the C225-USPIO group of cells decreased significantly more than in unlabeled cells, but there was no significant difference between the time gradients.</p><p><b>CONCLUSIONS</b>We successfully constructed the molecular imaging agent C225-USPIO targeting the EGFR of A549 lung cancer cells. The imaging agent showed good targeting effect and specificity, and reduced MRI T2 value significantly, thus such molecular contrast agents could provide a new way to measure EGFR levels.</p>

Protective effect of epidermal growth factor on proliferation and migration of the human Müller cell from oxidative damage / 中华实验眼科杂志

Background Oxidative damage plays an important role in pathogenesis of age-related macular degeneration( AMD ),and its mechanism is the destroy of blood-retinal barrier.Müller cells is a primary component to stabilize the inner barrier of the blood-retina.Researches showed that epidermal growth factor(EGF) can promote the proliferation and migration of animal Müller cells,but less study was found in the effect of EGF on human Müller cells. Objective The present study was to investigate the effects of EGF on the proliferation and migration of human Müller cells and its molecular mechanism. Methods Human Müller cell line MIO-M1 cells were cultured and incubated,and cultured cells were identified using glial fibrillory acidic protein (GFAP),factor Ⅷ,α-smooth muscle actin( α-SMA ),keratin and S-100.Different concentrations of EGF( 0,1,10,30,100 mg/L)was added in freeserum DMEM,and the positive rate of the cells was calculated using 5-bromo-2-deoxyuridine(BrdU) method.The cells were divided into EGF group,H2 O2 group,EGF + H2 O2 group,glucose oxidase ( GO ) group,GO + EGF group,EGF + LY294002+H2O2 group according to the different intervention,and the effects of LY294002 on the proliferation of Müller cells (A590 )were detected by colorimetric assay for cellular growth and survival( MTT assay).The scratch test of Müller cells was used to assess the influence of EGF(0,1,10,30,100 mg/L)on H2 O2-induced damage of human Müller cell.Western blot was used to detect the cell proliferation under the protection of EGF on co-cultured cells using LY294002 and H2O2 and the activation of Akt signal pathways. Results The proliferative rates of the cells were 28.0％,32.9％,39.0％ in 10,30,100 mg/L EGF groups respectively and obviously higher than those in 0,1 mg/L EGF groups (24.5 ％,26.2 ％ ).Under the H2O2 culture,GO culture,respectively,the A570 value of the Müller cell in high concentrations of EGF groups was significantly increased in comparison with lower concentrations EGF groups with the statistical significance among the groups( F=23.582,P=0.000).Compared with EGF+H2O2 group,the A570value of the Müller cells was lowed in EGF+LY294002+H2O2 group.The maximum migration rate of Müller cells was found in 10 mg/L EGF group.Western blot revealed that the presence of H2O2 reinforced the expression of Akt in Müller cells,however,pretreatment with 100 mg/L EGF antagonized the harmful effect of H2O2 on Müller cells.Meanwhile,pretreatment with EGF and LY294002 reduced the expression of Akt in Müller cells. Conclusions EGF can induce the proliferation and migration of human Müller cells with the strongest effect in 10 mg/L.100 mg/L exogenous EGF has a stronger protection to the Müiller cells against H2O2-induced cell damage by activating the PI3KAkt cell survival pathway.

The effects of arsenic trioxide on epidermal growth factor-induced proliferation and migration of retinal pigment epithelial cell / 中华实验眼科杂志

Background Growth factor-induced proliferation and migration of retinal pigment epithelium (RPE) cells are the major pathological changes of proliferative vitreoretinopathy (PVR).Arsenic trioxide ( As2O3 ) is an active ingredient of Chinese traditional medicines,which has an inhibition on proliferation and migration of tumor cells.However,it is not clear whether As2O3 could inhibit growth factor-induced proliferation and migration of RPE cells. Objective This study was to explore the effects of As2O3 on epidermal growth factor (EGF)-induced proliferation and migration of ARPE-19 cells. Methods RPE cell line (ARPE-19 cells) were cultured.Different concentrations of As2O3(0,0.5,1.0,2.0,5.0,10.0,20.0 μmol/L) were added in the culture plate to treat ARPE-19 cells with or without 10 mg/L EGF in serum-free group for 24 and 48 hours,respectively.The MTT colorimetric assay was used to check the cell viability and evaluate the drug toxicity.The effects of As2O3 on EGF-induced proliferation of ARPE-19 cells were analyzed to get an effective and avirulent concentrations of As2O3.The effects of As2O3 on EGF-induced migration of ARPE-19 cells were observed by scratch-wound assay and the Boyden chamber assay.Results MTT assay showed that the A values were gradually declined with the increase of As2O3 concentrations after As2O3 treatment without EGF for 24 hours and 48 hours ( Fgroup =38.269,P =0.000 ; Ftime =0.874,P =0.358 ).Compared with the control group,no significant differences were seen in the A values of ARPE-19 cells in 0.5-5.0 μmol/L groups (all P＞0.05).Meantime,As2O3 reduced the A values of ARPE-19 cell with 10 mg/L EGF in dose- and time-dependent manner ( Fgroup =152.155,P =0.000 ; Ftime =51.649,P =0.000 ).There were not significant differences in 10 mg/L EGF-induced cell growth after 0.5,1.0,2.0 μmol/L As2O3 was added for 24 and 48 hours ( Fgroup =2.215,P =0.126 ;Ftime =2.230,P =0.155).However,when 5.0-20.0 μmol/L As2O3 added,the A values of 10 mg/L EGF-induced ARPE-19 cells lowed,showing a significant difference in comparison with the control groups ( all P＜0.05),with the cellular inhibiting rate 12％,32％,37％ in 24 hours and 39％,44％ and 53％ in 48 hours.Scratch-wound assay showed that EGF-induced horizontal migration of ARPE-19 cells was slow after 0.5-2.0 μmol/L As2O3 treated,and the same results also appeared in cell lognitudinal migration by Boyden chamber assay,with the inhibitory rates 22％,33％ and 46％ respectively. Conclusions As2O3 is avirulent on ARPE-19 cells within definite concentration range.At ≤ 2.0 μmol/L concentrations,As2O3 dose not affect EGF-induced proliferation of ARPE-19 cells,but it suppresses EGF-induced cell migration.At ≥ 5.0 μmol/L concentrations,As2O3 plays an inhibitory role to EGF-induced proliferation of ARPE-19 cells.