1.Effect of P62 on the migration and motility of human epidermal cell line HaCaT in high glucose microenvironment and its mechanism.
Yu Ping ZHANG ; Qiong ZHANG ; Fang DENG ; Bing CHEN ; Jun Hui ZHANG ; Jiongyu HU
Chinese Journal of Burns 2022;38(11):1014-1022
Objective: To investigate the effect of P62 on the migration and motility of human epidermal cell line HaCaT in high glucose microenvironment and its possible molecular mechanism, so as to explore the mechanism of refractory diabetic foot wound healing. Methods: The method of experimental research was used. HaCaT cells in logarithmic growth phase was taken for experiment. The cells were collected and divided into normal control group (culture solution containing glucose with final molarity of 5.5 mmol/L) and high glucose (culture solution containing glucose with final molarity of 30.0 mmol/L) 24 h group, high glucose 48 h group, and high glucose 72 h group according to the random number table (the same grouping method below). The cells in normal control group were routinely cultured for 72 h, cells in high glucose 72 h group were cultured with high glucose for 72 h, cells in high glucose 48 h group were routinely cultured for 24 h then cultured with high glucose for 48 h, cells in high glucose 24 h group were routinely cultured for 48 h then cultured with high glucose for 24 h. Then the protein expression of P62 was detected by Western blotting. The cells were collected and divided into normal control group and high glucose group. After being correspondingly cultured for 48 h as before, the protein expression of P62 was detected by immunofluorescence method (indicated as green fluorescence). The cells were collected and divided into negative control small interfering RNA (siRNA) group, P62-siRNA-1 group, P62-siRNA-2 group, and P62-siRNA-3 group, and transfected with the corresponding reagents. At post transfection hour (PTH) 72, the protein expression of P62 was detected by Western blotting. The cells were collected and divided into normal glucose+negative control siRNA group, normal glucose+P62-siRNA group, high glucose+negative control siRNA group, and high glucose+P62-siRNA group. After the corresponding treatment, the protein expression of P62 was detected by Western blotting at PTH 72 h, the cell migration rate was detected and calculated at 24 h after scratching by scratch test, with the number of samples being 9; and the range of cell movement was observed and the trajectory velocity was calculated within 3 h under the living cell workstation, with the number of samples being 76, 75, 80, and 79 in normal glucose+negative control siRNA group, normal glucose+P62-siRNA group, high glucose+negative control siRNA group, and high glucose+P62-siRNA group, respectively. The cells were collected and divided into normal glucose+phosphate buffered solution (PBS) group, high glucose+PBS group, and high glucose+N-acetylcysteine (NAC) group. After the corresponding treatment, the protein expression of P62 at 48 h of culture was detected by Western blotting and immunofluorescence method, respectively. Except for scratch test and cell motility experiment, the number of samples was all 3 in the rest experiments. Data were statistically analyzed with one-way analysis of variance and least significant difference test. Results: Compared with the protein expression in normal control group, the protein expressions of P62 of cells in high glucose 24 h group, high glucose 48 h group, and high glucose 72 h group were significantly increased (P<0.01). At 48 h of culture, the green fluorescence of P62 of cells in high glucose group was stronger than that in normal control group. At PTH 72, compared with the protein expression in negative control siRNA group, the protein expressions of P62 of cells in P62-siRNA-1 group, P62-siRNA-2 group, and P62-siRNA-3 group were significantly decreased (P<0.01). At PTH 72, compared with the protein expression in normal glucose+negative control siRNA group, the protein expression of P62 of cells in normal glucose+P62-siRNA group was significantly decreased (P<0.01), while the protein expression of P62 of cells in high glucose+negative control siRNA group was significantly increased (P<0.01); compared with the protein expression in high glucose+negative control siRNA group, the protein expression of P62 of cells in high glucose+P62-siRNA group was significantly decreased (P<0.01). At 24 h after scratching, compared with (55±7)% in normal glucose+negative control siRNA group, the cell migration rate in normal glucose+P62-siRNA group was significantly increased ((72±14)%, P<0.01), while the cell migration rate in high glucose+negative control siRNA group was significantly decreased ((37±7)%, P<0.01); compared with that in high glucose+negative control siRNA group, the cell migration rate in high glucose+P62-siRNA group was significantly increased ((54±10)%, P<0.01). Within 3 h of observation, the cell movement range in high glucose+negative control siRNA group was smaller than that in normal glucose+negative control siRNA group, while the cell movement range in normal glucose+P62-siRNA group was larger than that in normal glucose+negative control siRNA group, and the cell movement range in high glucose+P62-siRNA group was larger than that in high glucose+negative control siRNA group. Compared with that in normal glucose+negative control siRNA group, the cell trajectory speed in normal glucose+P62-siRNA group was significantly increased (P<0.01), while the cell trajectory speed in high glucose+negative control siRNA group was significantly decreased (P<0.01); compared with that in high glucose+negative control siRNA group, the cell trajectory speed in high glucose+P62-siRNA group was significantly increased (P<0.01). At 48 h of culture, compared with that in normal glucose+PBS group, the protein expression of P62 of cells in high glucose+PBS group was significantly increased (P<0.01); compared with that in high glucose+PBS group, the protein expression of P62 of cells in high glucose+NAC group was significantly decreased (P<0.01). At 48 h of culture, the green fluorescence of P62 of cells in high glucose+PBS group was stronger than that in normal glucose+PBS group, while the green fluorescence of P62 of cells in high glucose+NAC group was weaker than that in high glucose+PBS group. Conclusions: In HaCaT cells, high glucose microenvironment can promote the protein expression of P62; knockdown of P62 protein can promote the migration and increase the mobility of HaCaT cells; and the increase of reactive oxygen species in high glucose microenvironment may be the underlying mechanism for the increase of P62 expression.
Humans
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RNA, Small Interfering/genetics*
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Cell Line
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Epidermis
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Glucose/pharmacology*
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Epidermal Cells
2.Intervention of ERRα Expression on Apoptosis Induction of Multiple Myeloma MM.1S Cells Cultured in Vitro.
Rui-Xi ZHANG ; Yu-Qing GAO ; Lei LEI ; De-Pei WU ; Ting-Ting ZHU ; Jian-Hong CHU
Journal of Experimental Hematology 2022;30(2):476-480
OBJECTIVE:
To investigate the effect of two different approaches ERRα strategy on the apoptosis in multiple myeloma cell line MM.1S.
METHODS:
For the one strategy, shRNA was mediated by lentivirus. Stable cell clones were established by transfecting the lentivirus into MM.1S cells and screened by puromycin. For the other strategy, XCT790, a specific reverse agonist of ERRα, was used to treat MM.1S cells. The apoptosis of the cells was analyzed by flow cytometry after ERRα was down-regulated. Western blot assay was used to detect the apoptosis of related proteins.
RESULTS:
The knocked down ERRα was achieved, lentivirus with shERRα were successfully infected into MM.1S and ERRα was reduced significantly. Knockdown of ERRα could induce MM.1S cell apoptosis dramatically. Meanwhile, the expression of cleaved PARP (a kind of apoptosis related markers) was significantly increased following depletion of ERRα in MM.1S cells. XCT790 could significantly down-regulate the expression of ERRα protein in MM.1S cells, which was consistent with the effect caused by shRNA.
CONCLUSION
Interference the expression of ERRα by shRNA or XCT790 can induce apparent apoptosis in MM.1S cells, which indicating that ERRα is crucial for the survival of myeloma cells.
Apoptosis
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Cell Line, Tumor
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Cell Proliferation
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Humans
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Lentivirus
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Multiple Myeloma
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RNA, Small Interfering/pharmacology*
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Receptors, Estrogen
3.Inhibitory effect of siRNA on bcr-abl gene expression in K562 cell line.
Lei JIANG ; Jian-Bo WU ; Kang YU ; Wu-Hua NI
Journal of Experimental Hematology 2004;12(3):332-334
To explore a new way to treat CML, inhibitory effect of small interfering RNA (SiRNA) on bcr-abl fusion gene expression of K562 cell line was studied. SiRNA for bcr-abl gene was designed and transfected into K562 cells, bcr-abl gene expression was tested by RT-PCR. The results showed that bcr-abl gene expression was inhibited by using siRNA in dose-dependent manner and reduced to 19.9% and 26.6% of the control at 24 and 48 hours after transfection with 0.2 micro g siRNA respectively. K562 cells proliferation was suppressed finally, but bcr-abl gene expression restored at 72 hours. In conclusion, anti-bcr-abl siRNA can effectively inhibit bcr-abl gene expression of K562 cell line.
Dose-Response Relationship, Drug
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Genes, abl
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Humans
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K562 Cells
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metabolism
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RNA, Messenger
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analysis
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RNA, Small Interfering
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pharmacology
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Transfection
4.Role of PNPT1 in cardiomyocyte apoptosis induced by oxygen-glucose deprivation.
Xin Qin ZHANG ; Xiong WANG ; Qin LI ; Ying Mei CHEN ; Xin Yan ZHANG ; Peng WANG ; Mu YUAN ; Hai Feng PEI
Journal of Southern Medical University 2022;42(4):584-590
OBJECTIVE:
To explore the effect of inhibiting polyribonucleotide nucleotidyl-transferase 1 (PNPT1) on oxygen-glucose deprivation (OGD)-induced apoptosis of mouse atrial myocytes.
METHODS:
Cultured mouse atrial myocytes (HL-1 cells) with or without OGD were transfected with PNPT1-siRNA or a negative control siRNA (NC-siRNA group), and the cell survival rate was detected using CCK-8 assay. The expression levels of ACTB and TUBA mRNA were detected with qPCR, and the protein expression of PNPT1 was detected with Western blotting. The apoptosis rate of the treated cells was determined with flow cytometry, the mitochondrial membrane potential was detected using JC-1 kit, and the mitochondrial morphology was observed using transmission electron microscope.
RESULTS:
With the extension of OGD time, the protein expression levels of PNPT1 increased progressively in the cytoplasm of HL-1 cells (P < 0.05). Transfection with PNPT1-siRNA significantly reduced PNPT1 expression in HL-1 cells (P < 0.05). Exposure to OGD significantly enhanced degradation of ACTB and TUBA mRNA (P < 0.05) and markedly increased the apoptosis rate of HL-1 cells (P < 0.05), and these changes were significantly inhibited by transfection with PNPT1-siRNA (P < 0.05), which obviously increased mitochondrial membrane potential and improved mitochondrial morphology of HL-1 cells exposed to OGD.
CONCLUSION
Inhibition of PNPT1 improves mitochondrial damage and reduces degradation of apoptotic-associated mRNAs to alleviate OGD-induced apoptosis of mouse atrial myocyte.
Animals
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Apoptosis
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Cell Survival
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Glucose/pharmacology*
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Mice
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Myocytes, Cardiac
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Oxygen/metabolism*
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RNA, Messenger/metabolism*
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RNA, Small Interfering/metabolism*
5.GPCR/endocytosis/ERK signaling/S2R is involved in the regulation of the internalization, mitochondria-targeting and -activating properties of human salivary histatin 1.
Dandan MA ; Wei SUN ; Cuicui FU ; Kamran NAZMI ; Enno C I VEERMAN ; Richard T JASPERS ; Jan G M BOLSCHER ; Floris J BIKKER ; Gang WU
International Journal of Oral Science 2022;14(1):42-42
Human salivary histatin 1 (Hst1) exhibits a series of cell-activating properties, such as promoting cell spreading, migration, and metabolic activity. We recently have shown that fluorescently labeled Hst1 (F-Hst1) targets and activates mitochondria, presenting an important molecular mechanism. However, its regulating signaling pathways remain to be elucidated. We investigated the influence of specific inhibitors of G protein-coupled receptors (GPCR), endocytosis pathways, extracellular signal-regulated kinases 1/2 (ERK1/2) signaling, p38 signaling, mitochondrial respiration and Na+/K+-ATPase activity on the uptake, mitochondria-targeting and -activating properties of F-Hst1. We performed a siRNA knockdown (KD) to assess the effect of Sigma-2 receptor (S2R) /Transmembrane Protein 97 (TMEM97)-a recently identified target protein of Hst1. We also adopted live cell imaging to monitor the whole intracellular trafficking process of F-Hst1. Our results showed that the inhibition of cellular respiration hindered the internalization of F-Hst1. The inhibitors of GPCR, ERK1/2, phagocytosis, and clathrin-mediated endocytosis (CME) as well as siRNA KD of S2R/TMEM97 significantly reduced the uptake, which was accompanied by the nullification of the promoting effect of F-Hst1 on cell metabolic activity. Only the inhibitor of CME and KD of S2R/TMEM97 significantly compromised the mitochondria-targeting of Hst1. We further showed the intracellular trafficking and targeting process of F-Hst1, in which early endosome plays an important role. Overall, phagocytosis, CME, GPCR, ERK signaling, and S2R/TMEM97 are involved in the internalization of Hst1, while only CME and S2R/TMEM97 are critical for its subcellular targeting. The inhibition of either internalization or mitochondria-targeting of Hst1 could significantly compromise its mitochondria-activating property.
Endocytosis/physiology*
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Histatins/pharmacology*
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Humans
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Membrane Proteins
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Mitochondria/metabolism*
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RNA, Small Interfering/pharmacology*
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Receptors, G-Protein-Coupled/metabolism*
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Receptors, sigma
6.Inhibiting severe acute respiratory syndrome-associated coronavirus by small interfering RNA.
Renli ZHANG ; Zhongmin GUO ; Jiahai LU ; Jinxiu MENG ; Canquan ZHOU ; Ximei ZHAN ; Bing HUANG ; Xinbing YU ; Min HUANG ; Xinghua PAN ; Wenhua LING ; Xigu CHEN ; Zhuoyue WAN ; Huanying ZHENG ; Xinge YAN ; Yifei WANG ; Yanchao RAN ; Xinjian LIU ; Junxin MA ; Chengyu WANG ; Biliang ZHANG
Chinese Medical Journal 2003;116(8):1262-1264
OBJECTIVETo evaluate the effectiveness of small interfering RNA (siRNA) on inhibiting severe acute respiratory syndrome (SARS)-associated coronavirus replication, and to lay bases for the future clinical application of siRNA for the treatment of viral infectious diseases.
METHODSVero-E6 cells was transfected with siRNA before SARS virus infection, and the effectiveness of siRNA interference was evaluated by observing the cytopathic effect (CPE) on Vero-E6 cells.
RESULTSFive pairs of siRNA showed ability to reduce CPE dose dependently, and two of them had the best effect.
CONCLUSIONsiRNA may be effective in inhibiting SARS-associated coronavirus replication.
Animals ; Cercopithecus aethiops ; RNA, Small Interfering ; pharmacology ; SARS Virus ; drug effects ; Transfection ; Vero Cells ; Virus Replication ; drug effects
7.Enhancive effect of HMGB1 gene silence on adriamycin-induced apoptosis in K562/A02 drug resistance leukemia cells.
Min XIE ; Rui KANG ; Yan YU ; Shan ZHU ; Yu-Lei HE ; Wang-Qiong XU ; Dao-Lin TANG ; Li-Zhi CAO
Chinese Journal of Hematology 2008;29(8):549-552
OBJECTIVETo investigate the effect of high mobility group boxl (HMGBI) gene silence on adriamycin (ADM)-induced apoptosis in K562/A02 drug resistance leukemia cells.
METHODSK562/ A02 cells were transient transfected with HMGB1- small interference RNA(siRNA) vector, and the levels of HMGB1 gene differential expression pre-and post-transfection were measured by RT-PCR and Western blotting. 50% inhibition concentration (IC50) of ADM on K562/A02 was determined by WST-8 assay. Cell apoptosis was assessed by flow cytometry. The release of Smac/DIABLO from the mitochondria to the cytoplasm was assayed by Western blotting. Activity of Caspase-3 was assayed with a Caspase Colorimetric Assay Kit.
RESULTS(1) The HMGB1 expression at mRNA and protein levels in HMGB1 siRNA transfected K562/A02 cells were decreased by 86% and 71% respectively compared with control. (2) Suppression of HMGB1 by siRNA in K562/A02 cells resulted in a reversal of the resistance to ADM, and decreased IC50 from (4.83 +/- 0.08) microg/ml to (1.33 +/- 0.10) microg/ml. 1 microg/ml and 5 microg/ml of ADM treatment increased cell apoptotic rate by 27% and 32% respectively. (3) HMGB1 suppression in K562/A02 cells significantly promoted ADM- induced Smac/DIABLO release from the mitochondria to the cytoplasm, and increased the activities of Caspase-3.
CONCLUSIONHMGB1 gene silence can enhance sensitivity of K562/A02 cells to ADM and reverse cell resistant to ADM.
Apoptosis ; drug effects ; genetics ; Doxorubicin ; pharmacology ; Gene Silencing ; HMGB1 Protein ; genetics ; Humans ; K562 Cells ; RNA, Small Interfering ; genetics
8.Effect of Apollon siRNA combined with tetramethylpyrazine on proliferation and apoptosis of leukemia K562 cells.
Xiu-Hong JIA ; Fei-Fei XIAO ; Jian-Chang LI
Chinese Journal of Contemporary Pediatrics 2014;16(2):135-140
OBJECTIVETo investigate the effect of small interfering RNA (siRNA) silencing Apollon gene combined with tetramethylpyrazine (TMP) on the proliferation and apoptosis of human chronic myeloid leukemia cell line K562.
METHODSK562 cells were divided into blank control, negative control, and RNA interference (RNAi) group. For the RNAi group, the pGPHI-GFP-Neo-Apollon eukaryotic expression vector based on the best Apollon siRNA fragments screened out in previous experiments was constructed; the blank control group received no treatment, and the negative control group was transfected with negative plasmid vector. The mRNA and protein expression of Apollon was measured by RT-PCR and cell immunofluorescence, respectively. Additionally, TMP (320 μg/mL) was applied to set TMP, TMP+negative control, and TMP+RNAi groups. The cell viability and apoptosis rate were determined by MTT assay and flow cytometry, respectively.
RESULTSThe constructed vector was stably expressed in K562 cells. The RNAi group had significantly lower mRNA and protein expression of Apollon than the blank control group and negative control (P<0.05). The RNAi group had significantly increased proliferation inhibition rate and apoptosis rate, as compared with the blank contorl group (P<0.05). The TMP+RNAi group had significantly increased proliferation inhibition rate and apoptosis rate, as compared with the RNAi, and TMP groups (P<0.05).
CONCLUSIONSApollon siRNA can significantly inhibit the proliferation and promote the apoptosis of K562 cells, and the addition of TMP can further increase the proliferation inhibition rate and apoptosis rate, suggesting that siRNA technology combined with drugs has a significant potential value in the treatment of leukemia.
Apoptosis ; Cell Proliferation ; Flow Cytometry ; Humans ; Inhibitor of Apoptosis Proteins ; antagonists & inhibitors ; genetics ; K562 Cells ; Pyrazines ; pharmacology ; RNA, Small Interfering ; genetics
9.Effects of human ERMAP-siRNA on erythroid differentiation of K562 cells induced by Ara-C.
Jie-Fang LIANG ; Ying CHEN ; Tie-Zhen YE ; Ying-Yi HE ; Xin-Rong HE ; Li-Dan LIN ; Sai-Jun GAO
Journal of Experimental Hematology 2009;17(1):49-53
In order to investigate the potential role of human ERMAP gene in erythropoiesis, the ERMAP-dsDNA was designed, ERMAP-shRNA expressing plasmids was constructed, and ERMAP-shRNA/K562 cell was established. Cell morphology, biphenylamine staining, expression of cell surface antigens as well as quantitative level of human ERMAP gene were observed during K562 cells differentiating toward erythroid lineage induced by Ara-C. The results showed that at 72 hours after Ara-C treatment, ERMAP-shRNA/K562 cell size became large with increasing cytoplasm content. The percentage of biphenylamine positive cells increased from 1.17% to 2.04% (p < 0.05), but still lower than that in group K562 + Ara-C. The percentage of CD36(-)/CD235a(+) increased from 8.83% to 11.28%, CD36(+)/CD235a(+) increased from 1.23% to 2.64%, and CD36(+)/CD235a(-) increased from 0.59% to 1.47% respectively, which were all lower than that in group K562 + Ara-C at either time point. At the same time, the level of ERMAP expression increased slowly from 2.52 x 10(-3) to 4.53 x 10(-3), which was also significantly lower than that of group K562 + Ara-C. It is concluded that the ERMAP-shRNA inhibits the Ara-C-induced erythroid differentiation of K562 cells, which further suggests that there is relationship between hERMAP and erythroid differentiation and development.
Blood Group Antigens
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genetics
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Butyrophilins
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Cell Differentiation
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drug effects
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Cytarabine
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pharmacology
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Erythropoiesis
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drug effects
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Humans
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K562 Cells
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RNA, Messenger
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RNA, Small Interfering
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pharmacology
10.Activating effect of citrus flavonoids on neuromedin U2 receptor and analysis on siRNA interference.
Dao-Qing WANG ; Xu-Xu ZHENG ; Zhong-Yi YIN ; Li-Xia GUO ; Xiao-Hong DENG ; Gang CHEN
China Journal of Chinese Materia Medica 2012;37(22):3462-3466
OBJECTIVETo screen out active substances on Neuromedin U2 receptor (NMU2R) by using stable NMU2R cell lines and negative cell lines and analyzing siRNA interference.
METHODNMU2R cells were used to observe the activating effect of nine nine citrus flavonoids on NMU2R cell. Afterwards, false-positive interference of citrus flavonoids that showed higher activating effect was eliminated by using negative cells and analyzing the efficiency of siRNA interference.
RESULTHesperidin and nobiletin contained in citrus flavonoids were found to effectively activate NMU2R. The efficacy, EC50 and potency values of hesperidin were 4.688, 318.970 micromol x L(-1) and 200.933 micromol x L(-1), while the efficacy, EC50 and potency values of nobiletin were 4.758, 5.832 micromol x L(-1) and 3.124 micromol x L(-).
CONCLUSIONHesperidin and nobiletin contained in citrus flavonoids can activate NMU2R. Nobiletin shows such a low EC50 that it has medicinal value.
Cell Line ; Citrus ; chemistry ; Flavonoids ; pharmacology ; Gene Expression ; drug effects ; Humans ; Plant Extracts ; pharmacology ; RNA Interference ; drug effects ; RNA, Small Interfering ; genetics ; metabolism ; Receptors, Neurotransmitter ; genetics ; metabolism