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Volume 27,Issue 2,2020 Table of Contents
2020, 27(2):103-108.
DOI: 10.3872/j.issn.1007-385X.2020.02.001
Abstract:
Precision detection techniques have promoted the development of individualized diagnosis and treatment of tumors in the era of precision medicine. At the same time, clinical demands of precision treatments have further driven the development and application of precision detection techniques. In recent years, precision medical detection techniques realized rapid transformations from low-throughput to high-throughput genomic sequencing, from tissue biopsies to liquid biopsies, and from multicell promiscuous detection to single cell precision sequencing. All these changes have promoted the emergence and development of new technologies, new targets, and new drugs in the era of precision oncology medicine. In the future, multi-dimensional combined detection could help to improve the accuracy of precision medicine; ctDNA methylation detection analysis could broaden the research field of precision medicine; and the transformation of clinical trial design could also contribute to promote the in-depth development of precision medicine.
Precision detection techniques have promoted the development of individualized diagnosis and treatment of tumors in the era of precision medicine. At the same time, clinical demands of precision treatments have further driven the development and application of precision detection techniques. In recent years, precision medical detection techniques realized rapid transformations from low-throughput to high-throughput genomic sequencing, from tissue biopsies to liquid biopsies, and from multicell promiscuous detection to single cell precision sequencing. All these changes have promoted the emergence and development of new technologies, new targets, and new drugs in the era of precision oncology medicine. In the future, multi-dimensional combined detection could help to improve the accuracy of precision medicine; ctDNA methylation detection analysis could broaden the research field of precision medicine; and the transformation of clinical trial design could also contribute to promote the in-depth development of precision medicine.
YUE Ran
,
LIU Ziyang
,
ZHENG Yan
,
LU Xiaodan
,
HU Shanshan
,
ZHANG Bingyong
,
LI Xiuling
,
LI Jingguo
,
HAN Shuangyin
2020, 27(2):109-114.
DOI: 10.3872/j.issn.1007-385X.2020.02.002
Abstract:
Objective: To explore the gene transduction method of chimeric antigen receptor (CAR) mediated by novel cationic polymer nanocarrier mPEG-P (Asp-AED-g-HFB) (PAEF) and PigyBac transposon system to modify natural killer (NK) cells, providing a new strategy for immunotherapy of cancer cells. Methods: PAEF/DNA (transposase+transposon) complex were prepared. The particle size distribution and surface potential of PAEF/DNA complexes were measured with Nano-ZSE Dynamic Light Scattering System (Malvern Instruments). The DNA encapsulation rate, release and stability of PAEF were evaluated by DNA gel electrophoresis, and then by combiningwithparticlesizeandsurfacepotentialtodeterminethepreferentialN/PratiotoenterNKcells.Thecell cytotoxicity of PAEF/DNA complexes under different N/P ratios was analyzed by CCK-8 cytotoxicity test. Transduction efficiency of NK cells was evaluated by Fluorescence microscopy and Flow cytometry, and the feasibility of PAEF gene transfection vectors was assessed. Results: PAEF could encapsulate DNA to form nano-complexes with the diameter of 100-150 nm, which was suitable to mediate DNA entering into cells. PAEF could completely encapsulate DNA with N/P ratio of 20. In the presence of reducing agent dithiothreitol (DTT), PAEF had a good ability to release DNA. NK-92 cells transfected with PAEF/DNA complex, which was formed at the N/P ratio of 80, attained a significantly higher cell viability than cells of lipofectamine transfection group [(72.50±3.9)% vs (64.03±1.8)%, P<0.05]; Fluorescence microscopic observation showed more fluorescence and higher fluorescence intensity in cells of PAEF/DNA group; Flow cytometry showed the highest transfection efficiency of 83.4%. Conclusions: Nanocarrier PAEF can encapsulate DNA well by electrostatic adsorption, and has good biocompatibility and high efficiency for gene transduction. It provides a good experimental basis for adoptive immunotherapy.
Objective: To explore the gene transduction method of chimeric antigen receptor (CAR) mediated by novel cationic polymer nanocarrier mPEG-P (Asp-AED-g-HFB) (PAEF) and PigyBac transposon system to modify natural killer (NK) cells, providing a new strategy for immunotherapy of cancer cells. Methods: PAEF/DNA (transposase+transposon) complex were prepared. The particle size distribution and surface potential of PAEF/DNA complexes were measured with Nano-ZSE Dynamic Light Scattering System (Malvern Instruments). The DNA encapsulation rate, release and stability of PAEF were evaluated by DNA gel electrophoresis, and then by combiningwithparticlesizeandsurfacepotentialtodeterminethepreferentialN/PratiotoenterNKcells.Thecell cytotoxicity of PAEF/DNA complexes under different N/P ratios was analyzed by CCK-8 cytotoxicity test. Transduction efficiency of NK cells was evaluated by Fluorescence microscopy and Flow cytometry, and the feasibility of PAEF gene transfection vectors was assessed. Results: PAEF could encapsulate DNA to form nano-complexes with the diameter of 100-150 nm, which was suitable to mediate DNA entering into cells. PAEF could completely encapsulate DNA with N/P ratio of 20. In the presence of reducing agent dithiothreitol (DTT), PAEF had a good ability to release DNA. NK-92 cells transfected with PAEF/DNA complex, which was formed at the N/P ratio of 80, attained a significantly higher cell viability than cells of lipofectamine transfection group [(72.50±3.9)% vs (64.03±1.8)%, P<0.05]; Fluorescence microscopic observation showed more fluorescence and higher fluorescence intensity in cells of PAEF/DNA group; Flow cytometry showed the highest transfection efficiency of 83.4%. Conclusions: Nanocarrier PAEF can encapsulate DNA well by electrostatic adsorption, and has good biocompatibility and high efficiency for gene transduction. It provides a good experimental basis for adoptive immunotherapy.
2020, 27(2):115-122.
DOI: 10.3872/j.issn.1007-385X.2020.02.003
Abstract:
Objective: To investigate the effects of antimicrobial peptides merecidin on the biological functions of human lung adenocarcinomaA549 cells and the potential signaling pathways and targets that involved in promoting apoptosis, by studying the changes of phosphorylation levels of proteins in A549 cells after merecidin treatment. Methods: The antibacterial peptide mericidin (9 μmol/L) was applied to treat A549 cells for 6 h, and the total protein was collected and extracted. The peptide was digested by trypsin and labeled with TMT, and then fractionated by HPLC. The phosphorylated peptides were enriched with IMAC-Fe, and finally subjected to mass spectrometry analysis. Library identification and quantification of phosphorylated peptides obtained by mass spectrometry were processed using MaxQuant software, to further analyze the functions and pathways of differentially expressed phosphorylated proteins by combining with bioinformatic analysis. Results: Through IPA analysis of phosphorylated proteins in the normal control group and the antibacterial peptide merecidin treatment group, 753 differentially phosphorylated proteins in mericidin treatment group were screened out under the conditions of |Fold Change|≥2 and P<0.05, including 229 significantly up-regulated genes and 417 down-regulated genes. Among them, the differentially expressed proteins related to apoptosis included RB1, MAPK1, ARAF, PTK2, FOXO, MARCKSandsoon.Theresultsofbiologicalprocessanalysisshowedthatdifferentiallyexpressed phosphorylated proteins were mainly concentrated in cell signal transduction, degradation and transport of nucleic acid, and cellular energy metabolism, protein translation and synthesis, and cytoskeleton formation etc. The enrichment results showed that the differentially expressed phosphorylated proteins were mainly involved in apoptosis-related MAPK, ErbB, PI3K-Akt, and Ras signaling pathways. Protein-protein interaction analysis indicated the associations among apoptosis-related proteins PTK2, PRKCA, MA2PK2, MAPK1, and LMNA. Conclusion: The antibacterial peptide merecidin may induce apoptosis and alteration of other cell functions by affecting a variety of genes and signaling pathways such as RB1, MAPK1,ARAF, PTK2, FOXO and MARCKS etc.
Objective: To investigate the effects of antimicrobial peptides merecidin on the biological functions of human lung adenocarcinomaA549 cells and the potential signaling pathways and targets that involved in promoting apoptosis, by studying the changes of phosphorylation levels of proteins in A549 cells after merecidin treatment. Methods: The antibacterial peptide mericidin (9 μmol/L) was applied to treat A549 cells for 6 h, and the total protein was collected and extracted. The peptide was digested by trypsin and labeled with TMT, and then fractionated by HPLC. The phosphorylated peptides were enriched with IMAC-Fe, and finally subjected to mass spectrometry analysis. Library identification and quantification of phosphorylated peptides obtained by mass spectrometry were processed using MaxQuant software, to further analyze the functions and pathways of differentially expressed phosphorylated proteins by combining with bioinformatic analysis. Results: Through IPA analysis of phosphorylated proteins in the normal control group and the antibacterial peptide merecidin treatment group, 753 differentially phosphorylated proteins in mericidin treatment group were screened out under the conditions of |Fold Change|≥2 and P<0.05, including 229 significantly up-regulated genes and 417 down-regulated genes. Among them, the differentially expressed proteins related to apoptosis included RB1, MAPK1, ARAF, PTK2, FOXO, MARCKSandsoon.Theresultsofbiologicalprocessanalysisshowedthatdifferentiallyexpressed phosphorylated proteins were mainly concentrated in cell signal transduction, degradation and transport of nucleic acid, and cellular energy metabolism, protein translation and synthesis, and cytoskeleton formation etc. The enrichment results showed that the differentially expressed phosphorylated proteins were mainly involved in apoptosis-related MAPK, ErbB, PI3K-Akt, and Ras signaling pathways. Protein-protein interaction analysis indicated the associations among apoptosis-related proteins PTK2, PRKCA, MA2PK2, MAPK1, and LMNA. Conclusion: The antibacterial peptide merecidin may induce apoptosis and alteration of other cell functions by affecting a variety of genes and signaling pathways such as RB1, MAPK1,ARAF, PTK2, FOXO and MARCKS etc.
4 Screen of differentially expressed genes in liver cancer xenograft tissues after CDC25Agene silence
2020, 27(2):123-128.
DOI: 10.3872/j.issn.1007-385X.2020.02.004
Abstract:
Objective: To explore the genes that may be regulated by cell division cycle 25A (CDC25A) with gene chip technology, and to elucidate and verify that CDC25A has a regulatory effect on the expression of liver cancer related genes. Methods: CDC25A expression in human liver cancer HepG2 cells was silenced by siRNA interference technology and a nude mouse xenograft model of liver cancer was successfully constructed in our previous research. Affymetrix human gene expression profiling microarray was used to further screen differentially expressed genes (DEGs) after silencing CDC25A in liver cancer xenografts, and GO analysis and KEGG analysis were performed. Some of the DEGs were verified by qPCR. Results: The chip screened 188 DEGs in liver cancer xenograft tissues after CDC25A silence, including 78 up-regulated genes and 110 down-regulated genes. These DEGs mainly involved in cell proliferation, apoptosis, protein complex binding, extracellular space, etc., and associated with the changes in pathways such as focal adhesions and extracellular matrix (ECM) receptor interactions. qPCR showed that the expression of HIPK2 mRNA was up-regulated and the mRNA expressions of (microfibrillar-associated protein 5(MFAP5) and cyclin D1 (CCND1) were down-regulated, which were consistent with the results of microarray detection. Conclusion: Using human gene expression profiling chip, the DEGs in liver cancer xenograft tissues in nude mice after silencing CDC25Awere successfully screened, providing effective clues for exploring the effect of CDC25Aon the growth of liver cancer.
Objective: To explore the genes that may be regulated by cell division cycle 25A (CDC25A) with gene chip technology, and to elucidate and verify that CDC25A has a regulatory effect on the expression of liver cancer related genes. Methods: CDC25A expression in human liver cancer HepG2 cells was silenced by siRNA interference technology and a nude mouse xenograft model of liver cancer was successfully constructed in our previous research. Affymetrix human gene expression profiling microarray was used to further screen differentially expressed genes (DEGs) after silencing CDC25A in liver cancer xenografts, and GO analysis and KEGG analysis were performed. Some of the DEGs were verified by qPCR. Results: The chip screened 188 DEGs in liver cancer xenograft tissues after CDC25A silence, including 78 up-regulated genes and 110 down-regulated genes. These DEGs mainly involved in cell proliferation, apoptosis, protein complex binding, extracellular space, etc., and associated with the changes in pathways such as focal adhesions and extracellular matrix (ECM) receptor interactions. qPCR showed that the expression of HIPK2 mRNA was up-regulated and the mRNA expressions of (microfibrillar-associated protein 5(MFAP5) and cyclin D1 (CCND1) were down-regulated, which were consistent with the results of microarray detection. Conclusion: Using human gene expression profiling chip, the DEGs in liver cancer xenograft tissues in nude mice after silencing CDC25Awere successfully screened, providing effective clues for exploring the effect of CDC25Aon the growth of liver cancer.
JI Huanhuan
,
DONG Xiaolei
,
ZHU Feng
,
LIU Guoxiang
,
HAN Jingjing
,
YANG Fanghao
,
YANG Yifan
,
LI Bing
2020, 27(2):129-134.
DOI: 10.3872/j.issn.1007-385X.2020.02.005
Abstract:
Objective: To investigate the effect of C-phycocyanin (C-PC) on the epithelial-mesenchymal transition (EMT) of cervical cancer Caski cells induced by transforming growth factor beta1 (TGF-β1). Methods: According to different treatment methods, Caski cells were divided into three groups: 10 ng/ml TGF-β1 treatment group, 10 ng/ml TGF-β1+300 μg/ml C-PC co-treatment group and control group (untreated). After 24 h of treatment, the morphological changes of Caski cells were observed, and the effects of TGF-β1 and C-PC on the migration and invasion of Caski cells were detected by Scratch test and Transwell test, respectively. Western blotting was used to detect the effect of C-PC on the expression of epithelial phenotypic marker protein E-cadherin and stromal phenotypic marker protein N-cadherin in TGF-β1-induced Caski cells, and qPCR was used to detect the mRNA expressions of EMT related factors Snail, Zeb1 and Twist. Results: Caski cells in the TGF-β1 treatment group lost the characteristics of the original epithelial phenotype, while the cells in the TGF-β1+C-PC co-treatment group maintained the characteristics of normal epithelial phenotype; the migration rate ([60.0±1.4]% vs [33.5±2.2]%, [40.0±2.8]%, both P<0.05) and the number of invasive transmembrane cells ([108.2±6.2] vs [25.2±3.1], [39.8±5.4], both P<0.01]) of Caski cells in the TGF- β1 treatment group were significantly higher than those in the co-treatment group and the control group. Compared with the control group, the expression of E-cadherin in Caski cells treated with TGF-β1 decreased sig ·· nificantly (P<0.05), while the mRNA expressions of Twist, Snail and Zeb1 increased significantly (all P<0.05); However, co-treatment with C-PC reversed above changes (P<0.05 or P<0.01), and significantly decreased the protein expression level of N-cadherin (P< 0.05). Conclusion: C-PC treatment can inhibit the invasion and metastasis ability of Caski cells induced by TGF-β1 and further affects the EMT process. The mechanism may be related to the decrease of mRNAexpressions of Twist, Snail and Zeb1 by C-PC treatment.
Objective: To investigate the effect of C-phycocyanin (C-PC) on the epithelial-mesenchymal transition (EMT) of cervical cancer Caski cells induced by transforming growth factor beta1 (TGF-β1). Methods: According to different treatment methods, Caski cells were divided into three groups: 10 ng/ml TGF-β1 treatment group, 10 ng/ml TGF-β1+300 μg/ml C-PC co-treatment group and control group (untreated). After 24 h of treatment, the morphological changes of Caski cells were observed, and the effects of TGF-β1 and C-PC on the migration and invasion of Caski cells were detected by Scratch test and Transwell test, respectively. Western blotting was used to detect the effect of C-PC on the expression of epithelial phenotypic marker protein E-cadherin and stromal phenotypic marker protein N-cadherin in TGF-β1-induced Caski cells, and qPCR was used to detect the mRNA expressions of EMT related factors Snail, Zeb1 and Twist. Results: Caski cells in the TGF-β1 treatment group lost the characteristics of the original epithelial phenotype, while the cells in the TGF-β1+C-PC co-treatment group maintained the characteristics of normal epithelial phenotype; the migration rate ([60.0±1.4]% vs [33.5±2.2]%, [40.0±2.8]%, both P<0.05) and the number of invasive transmembrane cells ([108.2±6.2] vs [25.2±3.1], [39.8±5.4], both P<0.01]) of Caski cells in the TGF- β1 treatment group were significantly higher than those in the co-treatment group and the control group. Compared with the control group, the expression of E-cadherin in Caski cells treated with TGF-β1 decreased sig ·· nificantly (P<0.05), while the mRNA expressions of Twist, Snail and Zeb1 increased significantly (all P<0.05); However, co-treatment with C-PC reversed above changes (P<0.05 or P<0.01), and significantly decreased the protein expression level of N-cadherin (P< 0.05). Conclusion: C-PC treatment can inhibit the invasion and metastasis ability of Caski cells induced by TGF-β1 and further affects the EMT process. The mechanism may be related to the decrease of mRNAexpressions of Twist, Snail and Zeb1 by C-PC treatment.
2020, 27(2):135-141.
DOI: 10.3872/j.issn.1007-385X.2020.02.006
Abstract:
Objective: To investigate the effect of panax japlcus var polysaccharide (PJPS) on the proliferation and apoptosis of gastric cancer MKN45 cells and its regulatory mechanism. Methods: Human gastric cancer cell lines (HGC27, MGC803, MKN45) and gastric mucosal epithelial cell line GES-1 were selected for this study. Let-7a mimics and let-7a inhibitor were transfected into MKN45 cells; Gastric cancer cell lines were treated with 100 μg/ml PJPS and MKN45 was selected as the subsequent experimental cell line. MKN45 cells were cultured with 0, 10, 50, 100 and 120 μg/ml PJPS, respectively. The proliferation and apoptosis rate of MKN45 cells were detected by CCK-8 and flow cytometry, respectively. Expressions of cell cycle dependent kinase 6 (CDK6) and apoptosis-related proteins in MKN45 cells were detected by Western blotting, and the expression level of miRNAs regulating the proliferation of gastric cancer cells was detectedbyReal-timequantitativePCR (qPCR).TheDualluciferasereportergeneassaywasusedtovalidatethetargeting relationship between let-7a and CDK6. Results: Compared with other gastric cancer cells, 100 μg/ml PJPS significantly inhibited the proliferation of MKN45 cells (P<0.01). At the same time, 100 μg/ml PJPS significantly up-regulated the expression of let-7a in MKN45 cells (P<0.01). The Dual luciferase reporter gene assay confirmed that CDK6 was the target gene of let-7a. Furthermore, PJPS inhibited the expression of CDK6 by up-regulating let-7a, thereby inhibiting the proliferation and inducing apoptosis of MKN45 cells (all P<0.01). Conclusion: PJPS inhibits proliferation and induces apoptosis of gastric cancer MKN45 cells by regulating the let-7a/ CDK6 axis.
Objective: To investigate the effect of panax japlcus var polysaccharide (PJPS) on the proliferation and apoptosis of gastric cancer MKN45 cells and its regulatory mechanism. Methods: Human gastric cancer cell lines (HGC27, MGC803, MKN45) and gastric mucosal epithelial cell line GES-1 were selected for this study. Let-7a mimics and let-7a inhibitor were transfected into MKN45 cells; Gastric cancer cell lines were treated with 100 μg/ml PJPS and MKN45 was selected as the subsequent experimental cell line. MKN45 cells were cultured with 0, 10, 50, 100 and 120 μg/ml PJPS, respectively. The proliferation and apoptosis rate of MKN45 cells were detected by CCK-8 and flow cytometry, respectively. Expressions of cell cycle dependent kinase 6 (CDK6) and apoptosis-related proteins in MKN45 cells were detected by Western blotting, and the expression level of miRNAs regulating the proliferation of gastric cancer cells was detectedbyReal-timequantitativePCR (qPCR).TheDualluciferasereportergeneassaywasusedtovalidatethetargeting relationship between let-7a and CDK6. Results: Compared with other gastric cancer cells, 100 μg/ml PJPS significantly inhibited the proliferation of MKN45 cells (P<0.01). At the same time, 100 μg/ml PJPS significantly up-regulated the expression of let-7a in MKN45 cells (P<0.01). The Dual luciferase reporter gene assay confirmed that CDK6 was the target gene of let-7a. Furthermore, PJPS inhibited the expression of CDK6 by up-regulating let-7a, thereby inhibiting the proliferation and inducing apoptosis of MKN45 cells (all P<0.01). Conclusion: PJPS inhibits proliferation and induces apoptosis of gastric cancer MKN45 cells by regulating the let-7a/ CDK6 axis.
2020, 27(2):142-148.
DOI: 10.3872/j.issn.1007-385X.2020.02.007
Abstract:
Objective: To study the expression of miR-142-5p in lung adenocarcinoma tissues, and to explore its effect on proliferation, invasion, migration and epithelieal-mesenchymal transition (EMT) of H1650 cells and the potential mechanisms. Methods:Atotal of 107 pairs of lung adenocarcinoma tissues and corresponding para-cancerous tissues from patients, who underwent tumor resection and were pathologically confirmed at the Department of Thoracic Surgery, the Fourth Hospital of Hebei Medical University between Jan. 2014 and Jan. 2015, were collected for this study; in addition, human lung adenocarcinoma cell lines (H1650, HCC827, A549, H1975, PC9) and human bronchial epithelial BEAS-2B cells were also used in this study. qPCR was used to detect the expression of miR-142-5p in lung adenocarcinoma tissues and cell lines. The correlation between expression of miR-142-5p and clinical features was analyzed.After transfection with miR-142-5p mimics or miR-negative control (miR-NC) plasmid, the proliferation, invasion and migration of H1650 cells were detected with CCK-8, Transwell invasion assay and Wound healing assay, respectively. The bioinforamtics tool was used to predict the target genes of miR-142-5p, and Luciferase reporter gene assay was performed to validate the regulation of miR-142-5p on target gene. Western blotting (WB) was used to detect the expressions of cyclin-dependent kinase 5 (CDK5) and EMTrelated protein. Results: Compared to Para-cancerous tissues and BEAS-2B cells, the expression of miR-142-5p was lower in lung adenocarcinoma tissues and cell lines (all P<0.01). Of the 107 cases of lung adenocarcinoma tissues, 61 cases (57.01%) showed decreased miR-142-5 expression, which was correlated with the TNM stage and lymph node metastasis (both P<0.01). Transfection of miR-142-5p mimics significantly up-regulated the expression of miR-142-5p and decreased the proliferation, invasion and migration of H1650 cells (all P<0.05 or P<0.01). Bioinformatics showed that CDK5 was a target gene of miR-142-5p. Luciferase reporter gene assay and WB validated that miR-142-5p could significantly down-regulate CDK5 expression in H1650 cells, up-regulate the expression of E-cadherin and down-regulate the expressions of N-cadherin, Twist and Snail in H1650 cells (all P<0.01). Conclusion: miR-142-5p is low expressed in lung adenocarcinoma tissues and cell lines; it suppresses the EMT process to inhibit, invasion and migration of H1650 cells via down-regulating the expression of CDK5.
Objective: To study the expression of miR-142-5p in lung adenocarcinoma tissues, and to explore its effect on proliferation, invasion, migration and epithelieal-mesenchymal transition (EMT) of H1650 cells and the potential mechanisms. Methods:Atotal of 107 pairs of lung adenocarcinoma tissues and corresponding para-cancerous tissues from patients, who underwent tumor resection and were pathologically confirmed at the Department of Thoracic Surgery, the Fourth Hospital of Hebei Medical University between Jan. 2014 and Jan. 2015, were collected for this study; in addition, human lung adenocarcinoma cell lines (H1650, HCC827, A549, H1975, PC9) and human bronchial epithelial BEAS-2B cells were also used in this study. qPCR was used to detect the expression of miR-142-5p in lung adenocarcinoma tissues and cell lines. The correlation between expression of miR-142-5p and clinical features was analyzed.After transfection with miR-142-5p mimics or miR-negative control (miR-NC) plasmid, the proliferation, invasion and migration of H1650 cells were detected with CCK-8, Transwell invasion assay and Wound healing assay, respectively. The bioinforamtics tool was used to predict the target genes of miR-142-5p, and Luciferase reporter gene assay was performed to validate the regulation of miR-142-5p on target gene. Western blotting (WB) was used to detect the expressions of cyclin-dependent kinase 5 (CDK5) and EMTrelated protein. Results: Compared to Para-cancerous tissues and BEAS-2B cells, the expression of miR-142-5p was lower in lung adenocarcinoma tissues and cell lines (all P<0.01). Of the 107 cases of lung adenocarcinoma tissues, 61 cases (57.01%) showed decreased miR-142-5 expression, which was correlated with the TNM stage and lymph node metastasis (both P<0.01). Transfection of miR-142-5p mimics significantly up-regulated the expression of miR-142-5p and decreased the proliferation, invasion and migration of H1650 cells (all P<0.05 or P<0.01). Bioinformatics showed that CDK5 was a target gene of miR-142-5p. Luciferase reporter gene assay and WB validated that miR-142-5p could significantly down-regulate CDK5 expression in H1650 cells, up-regulate the expression of E-cadherin and down-regulate the expressions of N-cadherin, Twist and Snail in H1650 cells (all P<0.01). Conclusion: miR-142-5p is low expressed in lung adenocarcinoma tissues and cell lines; it suppresses the EMT process to inhibit, invasion and migration of H1650 cells via down-regulating the expression of CDK5.
2020, 27(2):149-155.
DOI: 10.3872/j.issn.1007-385X.2020.02.008
Abstract:
Objective: To analyze the mutation of target genes in extranodal natural killer/T-cell lymphoma (ENKTL) by using nextgeneration sequencing, and to explore its relationship with prognosis and clinical characteristics, as to provide evidence for the pathogenesis, clinical diagnosis and targeted therapy of ENKTL. Methods: According to previous literature reports, the genes whose mutations can affect the development of lymphoma were selected as the target genes for this study. 29 patients with ENKTL, who were newly diagnosed at the Fourth Hospital of Hebei Medical University from August 2010 to October 2018, were selected for this study. The mutation of 9 target genes in the specimen was detected by thenext-generationsequencingtechnology.Therelationshipsamongclinicalfeatures,diseaseprognosisandmutationofthetargetgeneswereanalyzedbySPSS21.0statisticalsoftware.Results: :Ninetargetgenes were were screened. AT-rich interactive-domain 1A(ARID1A) gene showed the highest mutation rate in ENKTL (10 cases, 34.48%) followedbylysinemethyltransferase2D(KMT2D)gene(31.03%)andtumorprotein P53 (TP53) gene (24.13%). Kaplan-Meier survival analysis showed that the overall survival of ENKTL patients with KMT2D gene wild type was significantly better than patients with KMT2D gene mutation (P=0.006). The KMT2D gene mutation was found to besignificantlyrelatedtoclinicalstage,CRP,albumin,lymphocyte count and Ki67 expression in ENKTL patients (all P<0.05). COX regression analysis showed that KMT2D gene mutation was an independent adverse prognostic factor (P<0.05). Conclusion: The KMT2D gene has a high mutant frequency in ENKTL and is associated with patients’prognosis, suggesting that KMT2D gene plays an important role in the initiation and development of ENKTL. It could be used as a clinical therapeutic target for ENKTL.
Objective: To analyze the mutation of target genes in extranodal natural killer/T-cell lymphoma (ENKTL) by using nextgeneration sequencing, and to explore its relationship with prognosis and clinical characteristics, as to provide evidence for the pathogenesis, clinical diagnosis and targeted therapy of ENKTL. Methods: According to previous literature reports, the genes whose mutations can affect the development of lymphoma were selected as the target genes for this study. 29 patients with ENKTL, who were newly diagnosed at the Fourth Hospital of Hebei Medical University from August 2010 to October 2018, were selected for this study. The mutation of 9 target genes in the specimen was detected by thenext-generationsequencingtechnology.Therelationshipsamongclinicalfeatures,diseaseprognosisandmutationofthetargetgeneswereanalyzedbySPSS21.0statisticalsoftware.Results: :Ninetargetgenes were were screened. AT-rich interactive-domain 1A(ARID1A) gene showed the highest mutation rate in ENKTL (10 cases, 34.48%) followedbylysinemethyltransferase2D(KMT2D)gene(31.03%)andtumorprotein P53 (TP53) gene (24.13%). Kaplan-Meier survival analysis showed that the overall survival of ENKTL patients with KMT2D gene wild type was significantly better than patients with KMT2D gene mutation (P=0.006). The KMT2D gene mutation was found to besignificantlyrelatedtoclinicalstage,CRP,albumin,lymphocyte count and Ki67 expression in ENKTL patients (all P<0.05). COX regression analysis showed that KMT2D gene mutation was an independent adverse prognostic factor (P<0.05). Conclusion: The KMT2D gene has a high mutant frequency in ENKTL and is associated with patients’prognosis, suggesting that KMT2D gene plays an important role in the initiation and development of ENKTL. It could be used as a clinical therapeutic target for ENKTL.
2020, 27(2):156-160.
DOI: 10.3872/j.issn.1007-385X.2020.02.009
Abstract:
Objective: To investigate the effect of Notch4 regulatingATF2 (activating transcription factor 2) on the invasion and migration of pancreatic cancer (PC) cells and its possible mechanism. Methods:Atotal of 60 pairs of PC tissues and corresponding para-cancerous tissues that surgically resected at Taizhou University Hospital during February 2015 and July 2019 were collected for this study. The expression of Notch4 was detected by immunohistochemistry. siRNA technology was used to knock down Notch4 gene expression in PC cell lines (MiaPaCa-2 and PANC-1). Transwell assay was used to analyze the effect of Notch4 knockdown on cell invasion and migration. qPCR and Western blotting (WB) were used to detect the effects of Notch4 knockdown on mRNA and protein expressions of Notch4 and ATF2. Results: Compared with para-cancerous tissues, the expression of Notch4 in PC tissues significantly higher (P<0.01). After Notch4 siRNA transfection, the mRNA and protein expressions of Notch4 and ATF2 in MiaPaCa-2 and PANC-1 cells significantly decreased (all P<0.01). Compared with Control siRNA group, the migration and invasion ability of PC cells in Notch4 siRNA groupsignificantlyreduced(allP<0.01).Conclusion:Notch4ishighlyexpressedinPCtissues.Knockdown of Notch4 can down-regulate the expression ofATF2 at the transcriptional level, thereby inhibiting the invasion and migration ability of PC cells.
Objective: To investigate the effect of Notch4 regulatingATF2 (activating transcription factor 2) on the invasion and migration of pancreatic cancer (PC) cells and its possible mechanism. Methods:Atotal of 60 pairs of PC tissues and corresponding para-cancerous tissues that surgically resected at Taizhou University Hospital during February 2015 and July 2019 were collected for this study. The expression of Notch4 was detected by immunohistochemistry. siRNA technology was used to knock down Notch4 gene expression in PC cell lines (MiaPaCa-2 and PANC-1). Transwell assay was used to analyze the effect of Notch4 knockdown on cell invasion and migration. qPCR and Western blotting (WB) were used to detect the effects of Notch4 knockdown on mRNA and protein expressions of Notch4 and ATF2. Results: Compared with para-cancerous tissues, the expression of Notch4 in PC tissues significantly higher (P<0.01). After Notch4 siRNA transfection, the mRNA and protein expressions of Notch4 and ATF2 in MiaPaCa-2 and PANC-1 cells significantly decreased (all P<0.01). Compared with Control siRNA group, the migration and invasion ability of PC cells in Notch4 siRNA groupsignificantlyreduced(allP<0.01).Conclusion:Notch4ishighlyexpressedinPCtissues.Knockdown of Notch4 can down-regulate the expression ofATF2 at the transcriptional level, thereby inhibiting the invasion and migration ability of PC cells.
2020, 27(2):161-169.
DOI: 10.3872/j.issn.1007-385X.2020.02.010
Abstract:
Objective: To identify the specific Hub genes in young hepatocellular carcinoma (HCC) patients, and to explore their biological and clinical significance by using bioinformatic methods. Methods: The data information of HCC and normal tissues of young (≤40 years old at diagnosis) and old (>40 years old at diagnosis) HCC patients were obtained from GEO chip data set GSE45267. The differentially expressed genes (DEGs) in HCC tissues as comparing to normal tissues in the two groups were screened by using GEO2R and Venn chart software. The Protein-Protein Interaction (PPI) network of the specific DEGs in young group was constructed by bioinformatics tools STRING and Cytoscape to screen the Hub genes and significant modules. The Hub genes were verified by GEPIA database, and the overall survival time was analyzed by Kaplan-Meier. Finally, Gene Ontology (GO) Enrichment analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis were used to analyze the DEGs specific to young group and the common DEGs of the two groups by DAVID. Results: Finally, 117 up-regulated and 179 down-regulated DEGs specific to the young group were screened out, and PPI network screened 10 most connected genes as Hub genes, among which 7 Hub genes were concentrated in the first module. Six up-regulated Hub genes, including TYMS, CDC6, BUB1, TPX2, OIP5 and KIF23, were indicated to associate with the poor prognosis in young HCC patients by GEPIA and Kaplan-Meier analysis. GO function and KEGG pathway analyses showed that the DEGs specific to young HCC patients were mainly involved in biological processes such as ATP binding, and were mainly enriched in S phase of cell cycle; while the common DEGs of two groups were mainly involved in biological processes such as cyclooxygenase P450 and cell division, and were mainly enriched in the G2/M phase of the cell cycle. Conclusion: In this study, 6 up-regulated DEGs specific to young group that suggested poor prognosis were identified, which may be the potential therapeutic and prognostic targets for young patients with HCC.
Objective: To identify the specific Hub genes in young hepatocellular carcinoma (HCC) patients, and to explore their biological and clinical significance by using bioinformatic methods. Methods: The data information of HCC and normal tissues of young (≤40 years old at diagnosis) and old (>40 years old at diagnosis) HCC patients were obtained from GEO chip data set GSE45267. The differentially expressed genes (DEGs) in HCC tissues as comparing to normal tissues in the two groups were screened by using GEO2R and Venn chart software. The Protein-Protein Interaction (PPI) network of the specific DEGs in young group was constructed by bioinformatics tools STRING and Cytoscape to screen the Hub genes and significant modules. The Hub genes were verified by GEPIA database, and the overall survival time was analyzed by Kaplan-Meier. Finally, Gene Ontology (GO) Enrichment analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis were used to analyze the DEGs specific to young group and the common DEGs of the two groups by DAVID. Results: Finally, 117 up-regulated and 179 down-regulated DEGs specific to the young group were screened out, and PPI network screened 10 most connected genes as Hub genes, among which 7 Hub genes were concentrated in the first module. Six up-regulated Hub genes, including TYMS, CDC6, BUB1, TPX2, OIP5 and KIF23, were indicated to associate with the poor prognosis in young HCC patients by GEPIA and Kaplan-Meier analysis. GO function and KEGG pathway analyses showed that the DEGs specific to young HCC patients were mainly involved in biological processes such as ATP binding, and were mainly enriched in S phase of cell cycle; while the common DEGs of two groups were mainly involved in biological processes such as cyclooxygenase P450 and cell division, and were mainly enriched in the G2/M phase of the cell cycle. Conclusion: In this study, 6 up-regulated DEGs specific to young group that suggested poor prognosis were identified, which may be the potential therapeutic and prognostic targets for young patients with HCC.
2020, 27(2):170-176.
DOI: 10.3872/j.issn.1007-385X.2020.02.011
Abstract:
Objective: To investigate the differentially expressed genes (DEGs) associated with the occurrence and development of breast cancer and to screen the molecular markers for breast cancer by bioinformatic analysis. Methods: Three breast cancer microarray datasets were downloaded from Gene Expression Omnibus (GEO) database. GEO2R was used to identify DEGs. The differentially co-expressed genes in the three datasets were screened by Venn diagram. GO function enrichment analysis and KEGG signal pathway analysis were performed using DAVID. The protein-protein interaction (PPI) network of DEGs was constructed using STRING. The most important modules in the PPI network were analyzed using Molecular Complex Detection (MCODE), and the genes with degree≥10 were identified as Hub genes. Hierarchical clustering analysis of hub genes was conducted using UCSC Cancer Genomics Brower. The survival curve and the co-expression network of hub genes were constructed using cBioPortal. Results: A total of 65 DEGs were screened from the three data sets. Eight hub genes, CTNNB1, CDKN1A, CXCR4, RUNX3, CASP8, TNFRSF10B, CFLAR and NRG1, were finally obtained, which exerted important roles in cell adhesion, proliferation and apoptosis regulation etc. Clustering analysis showed that the differential expression levels of CTNNB1, CFLAR, NRG1 and CXCR4 were associated with the occurrence of breast cancer. The overall survival analysis indicated that the patients with elevated CDKN1Aexpression had significantly shorter overall survival time (P<0.01). Conclusion: The hub genes identified in the present study can be used as molecular markers for breast cancer, providing candidate targets for diagnosis, treatment and prognostic prediction of breast cancer.
Objective: To investigate the differentially expressed genes (DEGs) associated with the occurrence and development of breast cancer and to screen the molecular markers for breast cancer by bioinformatic analysis. Methods: Three breast cancer microarray datasets were downloaded from Gene Expression Omnibus (GEO) database. GEO2R was used to identify DEGs. The differentially co-expressed genes in the three datasets were screened by Venn diagram. GO function enrichment analysis and KEGG signal pathway analysis were performed using DAVID. The protein-protein interaction (PPI) network of DEGs was constructed using STRING. The most important modules in the PPI network were analyzed using Molecular Complex Detection (MCODE), and the genes with degree≥10 were identified as Hub genes. Hierarchical clustering analysis of hub genes was conducted using UCSC Cancer Genomics Brower. The survival curve and the co-expression network of hub genes were constructed using cBioPortal. Results: A total of 65 DEGs were screened from the three data sets. Eight hub genes, CTNNB1, CDKN1A, CXCR4, RUNX3, CASP8, TNFRSF10B, CFLAR and NRG1, were finally obtained, which exerted important roles in cell adhesion, proliferation and apoptosis regulation etc. Clustering analysis showed that the differential expression levels of CTNNB1, CFLAR, NRG1 and CXCR4 were associated with the occurrence of breast cancer. The overall survival analysis indicated that the patients with elevated CDKN1Aexpression had significantly shorter overall survival time (P<0.01). Conclusion: The hub genes identified in the present study can be used as molecular markers for breast cancer, providing candidate targets for diagnosis, treatment and prognostic prediction of breast cancer.
2020, 27(2):177-183.
DOI: 10.3872/j.issn.1007-385X.2020.02.012
Abstract:
Objective: To investigate the expressions of miR-144 and lncRNA DNAJC3-AS1 in breast cancer tissues and their effects on chemo-resistance of breast cancer MCF-7 cells. Methods: A total of 196 pairs of breast cancer tissues and corresponding adjacent normal tissues collected between January, 2012 and December, 2016 in Department of Oncology, 3201 Hospital were used for this study. The relative expressions of DNAJC3-AS1, DNAJC3 and miR-144 in collected tissues were determined using qPCR, and their impact on the survival of BC patients was also analyzed. The targeted binding relationship between DNAJC3-AS1 and miR-144 was verified by Luciferase reporter gene assay. DNAJC3-AS1 over-expression plasmid and miR-144 mimics were transfected into MCF-7 cell lines respectively, and qPCR was used to verify the transfection efficiency. The effects of DNAJC3-AS1 and miR-144 overexpression on proliferation and cisplatin sensitivity of MCF-7 cells were verified by CCK-8 assay. Results: DNAJC3-AS1 and its host gene DNAJC3 were highly expressed in BC tissues (all P<0.01), and these two were positively correlated (r=0.451, P<0.01); in addition, patients with high expressions of DNAJC3-AS1 and DNAJC3 had a shorter survival period (all P<0.01). miR-144 was highly expressed in BC tissues (P<0.01) and negatively correlated with DNAJC3-AS1 (r=-0.524, P<0.01). The average over-expression fold for DNAJC3-AS1 was 13.47 (P<0.01), while the fold for miR-144 was 20.27 (P<0.01). Bioinformatics analysis and fluorescence reporter gene assay confirmed that DNAJC3-AS1 could specifically bind to miR-144. MCF-7 cell lines over-expressing DNAJC3-AS1 and miR-14 were successfully constructed; compared with control group, cells in DNAJC3-AS1 over-expression group exhibited significantly enhanced proliferation and reduced cisplatin-sensitivity (all P<0.01), while the cells in miR-144 over-expression group showed significantly enhanced drug sensitivity (P<0.01). Conclusion: miR-144 and lncDNAJC3-AS1 were highly expressed in BC tissues, miR-144 promotes cisplatin sensitivity of BC MCF-7 cells through targeting DNAJC3-AS1.
Objective: To investigate the expressions of miR-144 and lncRNA DNAJC3-AS1 in breast cancer tissues and their effects on chemo-resistance of breast cancer MCF-7 cells. Methods: A total of 196 pairs of breast cancer tissues and corresponding adjacent normal tissues collected between January, 2012 and December, 2016 in Department of Oncology, 3201 Hospital were used for this study. The relative expressions of DNAJC3-AS1, DNAJC3 and miR-144 in collected tissues were determined using qPCR, and their impact on the survival of BC patients was also analyzed. The targeted binding relationship between DNAJC3-AS1 and miR-144 was verified by Luciferase reporter gene assay. DNAJC3-AS1 over-expression plasmid and miR-144 mimics were transfected into MCF-7 cell lines respectively, and qPCR was used to verify the transfection efficiency. The effects of DNAJC3-AS1 and miR-144 overexpression on proliferation and cisplatin sensitivity of MCF-7 cells were verified by CCK-8 assay. Results: DNAJC3-AS1 and its host gene DNAJC3 were highly expressed in BC tissues (all P<0.01), and these two were positively correlated (r=0.451, P<0.01); in addition, patients with high expressions of DNAJC3-AS1 and DNAJC3 had a shorter survival period (all P<0.01). miR-144 was highly expressed in BC tissues (P<0.01) and negatively correlated with DNAJC3-AS1 (r=-0.524, P<0.01). The average over-expression fold for DNAJC3-AS1 was 13.47 (P<0.01), while the fold for miR-144 was 20.27 (P<0.01). Bioinformatics analysis and fluorescence reporter gene assay confirmed that DNAJC3-AS1 could specifically bind to miR-144. MCF-7 cell lines over-expressing DNAJC3-AS1 and miR-14 were successfully constructed; compared with control group, cells in DNAJC3-AS1 over-expression group exhibited significantly enhanced proliferation and reduced cisplatin-sensitivity (all P<0.01), while the cells in miR-144 over-expression group showed significantly enhanced drug sensitivity (P<0.01). Conclusion: miR-144 and lncDNAJC3-AS1 were highly expressed in BC tissues, miR-144 promotes cisplatin sensitivity of BC MCF-7 cells through targeting DNAJC3-AS1.
CHAI Xiaoshu
,
LI Liuning
,
ZHANG Liwen
,
CHEN Zhijian
,
HONG Hongxi
,
LIU Bai
,
HE Chunxia
,
LIU Weisheng
2020, 27(2):184-190.
DOI: 10.3872/j.issn.1007-385X.2020.02.013
Abstract:
Objective: To investigate the effects of XIAOJI Decoction combined with FOLFOX chemotherapy on serum cytokine expression profile in patients with advanced colorectal carcinoma by liquid chip technology. Methods: Fourteen patients with advanced colorectal carcinoma, who met the inclusion criteria and were treated in the Department of Oncology, Higher Education Mega Center Hospital of Guangdong Provincial Hospital of Traditional Chinese Medicine during January 1, 2018 and December 31, 2018 were retrospectively analyzed in this study. The patients were divided into chemotherapy group (n=7, treated with 5-Fluorouracil + Calcium Folic Acid+Oxaliplatin (FOLFOX)) and combined treatment group (n=7, treated with XIAOJI Decoction + FOLFOX) according to therapeutic scheme. The curative efficacy was evaluated after 6 treatment courses. The expression profile of cytokines in blood serum of patients was examined by liquid chip technology after every 2 courses. Results: Fourteen patients received a total of 84 cycles of therapy. Survival analyses showed that the progress-free survival time (PFS) and overall survival time (OS) of two groups couldn't be compared due to insufficient samples, although the combined treatment group had longer PFS (10 months vs 6 months) and OS (17 months vs 12 months) than the chemotherapy group.As to adverse reactions, the rates of leucopenia, diarrhea, nausea, peripheral neuritis and alopecia in two groups were comparable, while the severity in combined treatment group were lighter than that in chemotherapy group. In comparison with the combined treatment group, concentrations of serum BDNF and IL-2 were statistically higher in the chemotherapy group (P<0.05). By comparing the cytokine concentrations at different collection time points before and after the treatment, it showed that the concentration of serum IL-2 in chemotherapy group was higher than that in combined treatment group after 2 courses of treatment (P<0.05). In total, there were 19 cytokines showed a tendency to be higher in combined treatment group than chemotherapy group during different treatment periods. Conclusion: Combined treatment of XIAOJI Decoction with FOLFOX for advanced colorectal carcinoma is a treatment option worth exploring, and liquid chip analysis showed that the mechanism may be related to the reduction of serum LI-2 and BDNF levels in patients.
Objective: To investigate the effects of XIAOJI Decoction combined with FOLFOX chemotherapy on serum cytokine expression profile in patients with advanced colorectal carcinoma by liquid chip technology. Methods: Fourteen patients with advanced colorectal carcinoma, who met the inclusion criteria and were treated in the Department of Oncology, Higher Education Mega Center Hospital of Guangdong Provincial Hospital of Traditional Chinese Medicine during January 1, 2018 and December 31, 2018 were retrospectively analyzed in this study. The patients were divided into chemotherapy group (n=7, treated with 5-Fluorouracil + Calcium Folic Acid+Oxaliplatin (FOLFOX)) and combined treatment group (n=7, treated with XIAOJI Decoction + FOLFOX) according to therapeutic scheme. The curative efficacy was evaluated after 6 treatment courses. The expression profile of cytokines in blood serum of patients was examined by liquid chip technology after every 2 courses. Results: Fourteen patients received a total of 84 cycles of therapy. Survival analyses showed that the progress-free survival time (PFS) and overall survival time (OS) of two groups couldn't be compared due to insufficient samples, although the combined treatment group had longer PFS (10 months vs 6 months) and OS (17 months vs 12 months) than the chemotherapy group.As to adverse reactions, the rates of leucopenia, diarrhea, nausea, peripheral neuritis and alopecia in two groups were comparable, while the severity in combined treatment group were lighter than that in chemotherapy group. In comparison with the combined treatment group, concentrations of serum BDNF and IL-2 were statistically higher in the chemotherapy group (P<0.05). By comparing the cytokine concentrations at different collection time points before and after the treatment, it showed that the concentration of serum IL-2 in chemotherapy group was higher than that in combined treatment group after 2 courses of treatment (P<0.05). In total, there were 19 cytokines showed a tendency to be higher in combined treatment group than chemotherapy group during different treatment periods. Conclusion: Combined treatment of XIAOJI Decoction with FOLFOX for advanced colorectal carcinoma is a treatment option worth exploring, and liquid chip analysis showed that the mechanism may be related to the reduction of serum LI-2 and BDNF levels in patients.
2020, 27(2):191-198.
DOI: 10.3872/j.issn.1007-385X.2020.02.014
Abstract:
乳腺癌是世界范围内女性最常见的恶性肿瘤,高达75%的患者最终会发生骨转移。骨转移发生风险与肿瘤分子分 型、组织病理和患者生理阶段等密切相关,骨转移合并其他部位转移、发生骨相关事件、骨转移灶的特点等都可影响患者的预后。 目前临床广泛应用的骨转移治疗方法包括全身应用抗肿瘤药物和骨改良药物、局部行骨转移灶放疗和骨转移灶手术。除抗肿瘤 药物外的其他治疗手段都有望改善患者预后。近年来发展的骨转移治疗新手段,如对乳腺癌原发灶的处理、放射性物质镭、骨转 移关键信号分子抑制剂和某些新技术应用在提高患者生存方面都有良好的前景。本文就乳腺癌骨转移患者的预后相关因素作 简要综述。
乳腺癌是世界范围内女性最常见的恶性肿瘤,高达75%的患者最终会发生骨转移。骨转移发生风险与肿瘤分子分 型、组织病理和患者生理阶段等密切相关,骨转移合并其他部位转移、发生骨相关事件、骨转移灶的特点等都可影响患者的预后。 目前临床广泛应用的骨转移治疗方法包括全身应用抗肿瘤药物和骨改良药物、局部行骨转移灶放疗和骨转移灶手术。除抗肿瘤 药物外的其他治疗手段都有望改善患者预后。近年来发展的骨转移治疗新手段,如对乳腺癌原发灶的处理、放射性物质镭、骨转 移关键信号分子抑制剂和某些新技术应用在提高患者生存方面都有良好的前景。本文就乳腺癌骨转移患者的预后相关因素作 简要综述。
2020, 27(2):199-203.
DOI: 10.3872/j.issn.1007-385X.2020.02.015
Abstract:
T细胞免疫球蛋白黏蛋白3(T-cell immunoglobulin mucin 3,TIM-3)是免疫检查点分子之一,表达于多种免疫细 胞及肿瘤细胞。在肿瘤微环境(tumor microenvironment,TME)中,TIM-3 与含其主要配体 Gal-9 的 T 细胞等相互作用, 介导细胞凋亡而参与肿瘤的免疫抑制及其发生发展。抗 TIM-3 抗体抗肿瘤治疗目前处于临床前研究阶段,它可能成为肿 瘤治疗的明星分子。
T细胞免疫球蛋白黏蛋白3(T-cell immunoglobulin mucin 3,TIM-3)是免疫检查点分子之一,表达于多种免疫细 胞及肿瘤细胞。在肿瘤微环境(tumor microenvironment,TME)中,TIM-3 与含其主要配体 Gal-9 的 T 细胞等相互作用, 介导细胞凋亡而参与肿瘤的免疫抑制及其发生发展。抗 TIM-3 抗体抗肿瘤治疗目前处于临床前研究阶段,它可能成为肿 瘤治疗的明星分子。
2020, 27(2):204-208.
DOI: 10.3872/j.issn.1007-385X.2020.02.016
Abstract:
非经典信号通路IKKε和TBK1与恶性肿瘤密切相关,多种因素激活IKKε和TBK1通路,可引起NF-κB途径的激活, 导致肿瘤细胞的凋亡减少、细胞周期加快,促进肿瘤发生和发展。抑制IKKε和TBK1信号通路,可增加多种细胞凋亡因子的表 达,抑制肿瘤细胞增殖,促进肿瘤细胞凋亡,同时提高化疗和放疗的敏感性。因此,阻断IKKε和TBK1信号通路可有效治疗恶性 肿瘤,已有的实验证实有多种阻断IKKε和TBK1通路的药物均具有良好的抗肿瘤作用。
非经典信号通路IKKε和TBK1与恶性肿瘤密切相关,多种因素激活IKKε和TBK1通路,可引起NF-κB途径的激活, 导致肿瘤细胞的凋亡减少、细胞周期加快,促进肿瘤发生和发展。抑制IKKε和TBK1信号通路,可增加多种细胞凋亡因子的表 达,抑制肿瘤细胞增殖,促进肿瘤细胞凋亡,同时提高化疗和放疗的敏感性。因此,阻断IKKε和TBK1信号通路可有效治疗恶性 肿瘤,已有的实验证实有多种阻断IKKε和TBK1通路的药物均具有良好的抗肿瘤作用。
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Chinese Journal Of Cancer Biotheray ® 2025 All Rights Reserved
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Chinese Journal Of Cancer Biotheray ® 2025 All Rights Reserved
Supported by:Beijing E-Tiller Technology Development Co., Ltd.