1.Application of Gene Recombinant Yeast Cell in Screening to Environmental Estrogen
Xiuyun CHEN ; Pingting ZHU ; Pengling SUN
Journal of Environment and Health 2007;0(11):-
Objective To research the estrogen-like activity of the DDTs and the extract of vehicle exhaust by recombinant yeast system.Methods Being added into the yeast cell culture fluid,the objects reached the final concentration of 10-9~10-15 mol/L for 17?-estradiol,10-4~10-9 mol/L for DDTs(p,p'-DDT,o,p'-DDT,p,p'-DDD,p,p'-DDE),0.25~8.00 ml/ml for the extract of vehicle exhaust,then the cultivation was performed for 4 hours,the quantitative assay of ?-galactosidase activity accounts for the estrogenlike effect of the samples was carried out.Results DDTs were a group of environmental estrogens hormones,which could integrate estrogen receptors as the stimulators do and express the estrogen-like effect.Being tested separately,the DDTs showed the estrogen-like activity,which was stronger for o,p'-DDT and weaker for p,p'-DDE.The?-galactosidase activity of gasoline-fueled vehicle exhaust at the final concentration of 2.00~4.00 ml/ml was significantly different from that of the DMSO(P
2.Crystallography of ATP hydrolysis mechanism in rat brain kinesin.
Qun WAN ; Pingting ZHU ; Houning LÜ ; Xinhong CHEN
Chinese Journal of Biotechnology 2014;30(4):644-657
Rat brain kinesin is a conventional kinesin that uses the energy from ATP hydrolysis to walk along the microtubule progressively. Studying how the chemical energy in ATP is utilized for mechanical movement is important to understand this moving function. The monomeric motor domain, rK354, was crystallized. An ATP analog, AMPPNP, was soaked in the active site. Comparing the complex structure of rK354 x AMPPNP and that of rK354ADP, a hypothesis is proposed that Glu237 in the Switch II region sensors the presence of gamma-phosphate and transfers the signal to the microtubule binding region.
Adenosine Triphosphate
;
metabolism
;
Adenylyl Imidodiphosphate
;
metabolism
;
Animals
;
Brain
;
metabolism
;
Catalytic Domain
;
Crystallography
;
Hydrolysis
;
Kinesin
;
metabolism
;
Microtubules
;
metabolism
;
Phosphates
;
Protein Binding
;
Rats
3.Expression, purification and crystallization of rat brain kinesin.
Qun WAN ; Pingting ZHU ; Houning LÜ ; Xinhong CHEN
Chinese Journal of Biotechnology 2014;30(3):485-491
Kinesin is a motor protein that uses the energy from ATP hydrolysis to move along the microtubule system. To investigate how the chemical energy stored in ATP is converted to mechanical movement, the corresponding N-terminal region of rat brain kinesin was expressed in BL21-Codon Plus (DE3)-RP competent cells. After SP-cation exchange chromatography and size exclusion chromatography, the protein yield reached 10 mg/L culture with the purity above 95%. The purified protein had ATPase activity and specifically reacted with the kinesin antibody in the Western blotting analysis. The purified kinesin was crystallized under the following condition: 1.7 mol/L (NH4)2SO4, 500 mmol/L NaCl, 20% glycerol. The kinesin crystal can diffract up to 2.0 angstroms resolution.
Animals
;
Brain
;
enzymology
;
Crystallization
;
Hydrolysis
;
Kinesin
;
chemistry
;
isolation & purification
;
Rats
4.Effects of the total flavonoids of scutellaria barbataon on atherosclerosis and expression of PLTP in ApoE gene deficiency mice
Pingting ZHU ; Yun SUN ; Zhaoguo LIU ; Yuping LIU ; Ping BU
Chinese Pharmacological Bulletin 2015;(6):833-837,838
Aim To observe the effects of the total fla-vonoids of scutellaria barbataon ( TFSB ) on high-fat
feeding ApoE gene deficiency mice in early atheroscle-rosis ( AS ) and its underlying mechanisms. Methods
40 ApoE-/ -male mice were divided into five groups:model group, SIM group and L-TFSB, M-TFSB, H-TFSB group, 5 C57BL/6J mice were selected as nor-mal control group. All mice in experimental group were fed with high-lipid diet for 4 weeks and all mice were killed after 8 weeks. H&E staining was used to observe morphology of aorta. Blood rheometer was used to ex-amine plasm viscosity and whole blood viscosity. Fully automatic biochemical analyser was used to detect the serum levels of TG, TC, LDL-C and HDL-C. The ex-pression levels of PLTP and VE in serum were meas-ured by ELISA. The expression levels of PLTP and FXR in liver were examined by Western blot. Results The model was established successfully. TFSB groups could improve the aorta AS morphology of model mice and significantly reduce the serum levels of TG, TC and LDL-C, while increase the level of HDL-C ( P<0. 05 or P<0. 01 ) . TFSB groups could decrease the
hematocrit value, plasma viscosity and whole blood vis-cosity of AS model mice significantly and had statistical significance when compared with model group ( P <0. 01 ) . The expression levels of PLTP of serum were reduced significantly when compared with model group ( P <0. 01 ) . We also found that the expression of PLTP was in negative correlation with VE ( r = -0. 675,P<0. 01). M-TFSB and H-TFSB group could decrease the expressions of PLTP and FXR of liver when compared with model group ( P <0. 01 ) . Con-clusion TFSB may exert its anti-AS effect partly through inhibiting the levels of FXR and PLTP of ApoE-/ -mice, increasing the level of VE, regulating blood lipids, improving blood rheology and reducing the damage of AS in mice.
5.Research progress on relationship between glucose transporter 1 and tumor energy metabolism
Suyun YU ; Zhaoguo LIU ; Qi JIA ; Lichuan CHEN ; Pingting ZHU ; Wenxing CHEN ; Aiyun WANG ; Yin LU
Chinese Pharmacological Bulletin 2016;32(7):906-909
The study on tumor metabolism has been gradually be-come a hot spot in recent years .A lot of proteins involved in the regulation of tumor metabolism especially the glucose transporter protein 1(GLUT1).As a key regulatory factor mediating energy metabolism within tumor cells , GLUT1 can regulate the glucose intake and maintain the basic level of metabolism in tumor cells . More importantly, the abnormal expression of GLUT1 was asso-ciated with many kinds of tumors , of which GLUT1 was used to meet the energy requirement for the fast growth of tumor .Thus GLUT1 also played a crucial role in growth , differentiation and metastasis of tumor cells and prognosis of tumors .Meanwhile , as three-dimensional crystal structure of GLUT 1 was determined , it is possible to design the small molecular inhibitors of GLUT 1, which can realize “starve to death” tumor cells.GLUT1 can be a particularly attractive target for tumor treatment and interfer-ence.The relationship between abnormal expression of GLUT 1 protein and tumor metabolism was reviewed . Moreover , the mechanism of tumor metabolism regulated by GLUT 1 protein ex-pression and treatment of cancers were discussed , which may provide references for future research and clinical treatment .
6.Experimental research of inhibitory effects of garlic active ingredients DATS on PAF-mediated melanoma metastasis
Ying SHEN ; Yuping LIU ; Xu WANG ; Peiliang SHEN ; Pingting ZHU ; Wenxing CHEN ; Aiyun WANG ; Yin LU
Chinese Pharmacological Bulletin 2016;32(12):1670-1676
Aim To discuss the impact of important ac-tive ingredient of garlic diallyl sulfide———DATS on platelet activating factor (PAF ) mediated melanoma metastasis and its mechanisms.Methods ①MTT was used to test the effect of different concentrations of DATS on B16F10 and A375 melanoma cell growth number;②Scratch test and transwell were employed to test the effect of different concentrations of DATS on B16F10 and A375 melanoma cell migration;③ West-ern blot was used to test the effect of DATS on expres-sion of MMP-2,ERK,p38 induced by PFA;④Intrave-nous injection of tumor metastasis model was used to check the inhibition of DATS in PAF-mediated melano-ma metastasis.Results B16F10 cells relative growth rate fell to 73.21% and 48.78%,respectively,when DATS concentration reached 50 and 100 μmol·L-1 . DATS inhibited the levels of PAF-induced migration of melanoma cells B16F10 and vertical migration signifi-cantly,and inhibited B16F10 cells migration induced by PAF through inhibiting the expression of MMP-2, paxillin protein,FAK and other proteins.Conclusion DATS can significantly inhibit PAF-induced tumor metastasis, which is related to the inactivation of MAPKs.
7.Role of ADAM8 in tumor metastasis
Qi JIA ; Zhaoguo LIU ; Suyun YU ; Lichuan CHEN ; Pingting ZHU ; Wenxing CHEN ; Aiyun WANG ; Yin LU
Chinese Pharmacological Bulletin 2017;33(8):1037-1040
Tumor metastasis is one of the important biological characteristics of malignant tumor,which is closely related with the prognosis of the cancer patients.High expression of ADAM8 in varieties of tumors was revealed in many recent studies,and such aberrant expression played a crucial role in regulating of tumor metastasis.Studies showed that overexpression of ADAM8 attenuated the intercellular adhesion effect,promoted tumor angiogenesis,and enhanced the degradation of ECM as well as the releasing of cytokines.Therefore,suppression of ADAM8 may lead to inhibition of tumor metastasis,which makes ADAM8 a particular attractive target as it can be used as a prognostic indicator and a potential therapeutic target of malignant tumor.A review about the relations between ADAM8 protein′s abnormal expression and tumor occurrence was discussed in this paper,also include discussion about the mechanisms of ADAM8 protein′s disorder-induced tumor formation,as well as therapeutic strategies based on ADAM8-targeted,which may provide references for follow-up research and clinical treatment.
8.An inverted-repeat RNA construct for silencing dengue virus type 2 pre-membrane gene suppresses viral replication in BHK-21 cells.
Pingting ZHU ; Jing PAN ; Xueli ZHENG
Journal of Southern Medical University 2013;33(5):642-648
OBJECTIVETo evaluate the anti-viral effects of a plasmid expressing an inverted-repeat RNA targeting dengue virus type-2 (DENV-2) pre-membrane (prM) gene.
METHODSuckling mice were inoculated with live DENV-2 in the brain. The total RNA was extracted from the brain tissue of the infected mice, and the prM gene fragments were amplified by RT-PCR and then subcloned into XhoI/EcoR I of the pcDNA3.1(+) plasmid in antisense orientation to construct the plasmid pcDNA-asprM. DENV-2 prM sequences were also subcloned into pMD18-T-vector in sense orientation to construct the plasmid pMD18-T- prM. pcDNA-irRNA was constructed by inserting in sense orientation the prM fragment isolated from pMD18-T-prM into the NheI/Kpn I of pcDNA-asprM. The plasmid pcDNA-irRNA was transfected into BHK-21 cells and the anti-viral effects were analyzed by semi-quantitative PCR and real-time PCR.
RESULTSTransfection with the plasmid pcDNA-irRNA caused a reduction of NS3 mRNA expression level by 28% in BHK-21 cells following a 96-h challenge with DENV-2 as compared to the cells without plasmid transfection (positive control). The viral copies in pcDNA-irRNA-transfected cells was 1.44-fold lower than those in the positive control cells following a 72-h virus challenge, and the mRNA expression levels of NS1 were also significantly lower in the transfected cells at 96 h after viral challenge (P<0.05) as shown by real-time quantitative PCR.
CONCLUSIONThe inverted-repeat RNA for DENV-2 prM gene silencing can suppress DENV-2 replication in BHK-21 cells, which provides a basis for developing dengue virus gene vaccine.
Animals ; Base Sequence ; Cells, Cultured ; Cricetinae ; Dengue Virus ; physiology ; Gene Silencing ; Mice ; Mice, Inbred Strains ; RNA, Viral ; genetics ; Terminal Repeat Sequences ; Viral Envelope Proteins ; genetics ; Virus Replication ; genetics
9.Research progress on tumor ECM fibrogenesis in tumor metastasis
Peiliang SHEN ; Zhaoguo LIU ; Xu WANG ; Ying SHEN ; Hongyan WU ; Pingting ZHU ; Wenxing CHEN ; Aiyun WANG ; Yin LU
Chinese Pharmacological Bulletin 2015;(11):1485-1487,1488
Tumor metastasis is one of the most important biologi-cal characteristics of malignant tumor, and it is also the main factor resulting in poor prognosis and leading to failure of treat-ment. In recent years, studies have shown that the extracellular matrix ( ECM) of tumor microenvironment plays a critical role in tumor metastasis. Tumor ECM fibrogenesis could form the cross-linked network structure, which not only provides nutrition and support to tumor, also it is necessary to tumor growth and inva-sion. These research results indicate that blocking ECM fibro-genesis may exert an inhibitory effect on tumor metastasis. Therefore, targeting ECM fibrogenesis has become a particularly attractive strategy as it can be used in the treatment of metasta-sis-related diseases. The ECM fibrogenesis in tumor is reviewed in this paper as well as the treatment strategies on tumor metas-tasis by targeting ECM fibrogenesis, which may provide refer-ences for follow-up research and clinical treatment.