OBJECTIVE: To analysis the proliferation properties and telomerase activity of human embryonic tendon cells transformed by ptsA58H plasmid cultured in vitro continuously. METHODS: The 40th, 70th, and 75th passages of transformed human embryonic tendon cells (THETC) were adopted. The collagen secretion of THETC was detected by immunohistochemical methods, the growth curve of different passages of THETC was compared, and chromosome karyotype was analyzed. Total RNA of THETC were extracted to detect human telomerase reverse transcriptase (hTERT) mRNA expression by RT-PCR technique. RESULTS: When THETC were subcultured to 70 passages, the morphological characteristics of cells changed and began replicative senescence. THETC still could secret type I collagen normally. The chromosome of THETC was heteroploid (2n = 94). There were no hTERT mRNA expression. CONCLUSION: SV40 transfection can not make human embryonic tendon cells immortalization, on the other hand, human embryonic tendon cells transformed by ptsA58H plasmid has no tendency of malignant transformation.
OBJECTIVE: To analysis the biological characteristics of human fibroblasts transfected by human telomerase reverse transcriptase (hTERT) eucaryotic expression plasmid pGRN145. METHODS: Fibroblasts from children’s foreskin were isolated and cultured in vitro, and the fibroblasts were transfected by pGRN145 with Lipofec-tAMINE PLUS Reagent. After strict screening of hygromycin B, the positive clones were subcultured. The telomerase activity was detected by RT-PCR and TRAP-PCR technique. The cell generation cycle and apoptosis rate were detected by flow cytometry to investigate the proliferative characteristics after transfection, and the chromosome karyotype of transformed cells was analyzed. The collagen secreted by transformed cells was detected by immunohistochemical staining. RESULTS: The morphological properties of fibroblasts did not change obviously after transfection. There were telomerase activity in transfected fibroblasts, while it could not be detected in pre-transfection fibroblasts. The cell generation cycle had no obvious changes between pre-transfection and post-transfection. However, the apoptosis rate of transfected fibroblasts were decreased compared with that of pre-transfection. The fibroblasts transfected by pGRN145 maintained the normal diploid karyotype, as well as the cells could normally secret type I and III collagen. CONCLUSION: The human fibroblasts transfected by pGRN145 has telomerase activity with prolonged life span of culture, which preliminarily proves the availability of establishing standard seeding cell lines of tissue engineering by hTERT plasmid transfection techniques.
ObjectiveTo construct tumor specific tubercle bacillus antigen Ag85A gene lentiviral vector driven by murine telomerase catalytic subunit promoter (PmTERT), paving the way for further research in tumor targeting immuno-gene therapy.
MethodsPmTERT was amplified by PCR method, with murine genomic DNA as template. Then, transcriptional activities of PmTERT in various murine and human cell strains were studied by luciferase assay. Ag85A expression lentiviral vectors driven by cytomegalo virus (CMV) promoter and PmTERT respectively (pLVX-Ag85ACMV and pLVX-Ag85A-PmTERT) were constructed with nucleic acid cloning approach. And above recombinants were verified with DNA sequencing and Western blot.
ResultsLucifease assay revealed that 331 bp PmTERT cloned in present research had transcriptional activity in murine Lewis lung cancer cells, human lung adenocarcinoma cells A549, and human esophageal cancer cells EC-109, while no transcriptional activity in murine fibroblasts NIH3T3 and human embryo fibroblasts MRC-5. Western blot revealed expression of Ag85A in pLVX-Ag85A-CMV transfected Lewis and NIH3T3 cells, pLVX-Ag85A-PmTERT transfected Lewis cells, no expression in pLVX-Ag85A-PmTERT transfected NIH3T3 cells.
ConclusionPmTERT has tumor specific transcriptional activity. Ag85A gene can express selectively in tumor cells, driven by PmTERT.
【摘要】 目的 觀察晚期糖基化終產物(advanced glycosylation end prodrcts,AGE)對人結腸癌細胞株SW-480增殖的影響,并探討其可能機制。 方法 不同濃度AGE干預SW-480細胞,噻唑藍(MTT)法比較各組細胞活力,流式細胞術觀察AGE對SW-480細胞周期的影響,蛋白質印跡法觀察AGE對SW-480細胞CyclinD1表達的影響,端粒重復序列擴增法(telomeric repeat amplification protocol,TRAP)銀染法觀察AGE對SW-480細胞端粒酶活性的影響。MTT測細胞活力的檢測設置空白對照組、100 μg/mL小牛血清白蛋白(bovine serum albumin,BSA)組及50、100、500 μg/mL AGE組,其余檢測只設置100 μg/mL BSA組和100 μg/mL AGE組。 結果 MTT結果示AGE促進SW-480細胞的增殖,且呈濃度依賴性。100 μg/mL BSA組與100 μg/mL AGE組72 h后的細胞G0/G1期所占百分比分別為56.02%±0.58%、51.93%±1.01%,差異有統計學意義(Plt;0.05)。蛋白質印跡法示100 μg/mL AGE組72 h后CyclinD1的表達較100 μg/mL BSA組增加,差異有統計學意義(Plt;0.05)。TRAP銀染法檢測示100 μg/mL AGE干預SW-480細胞72 h后可以增加端粒酶活性(Plt;0.05)。 結論 AGE可促進人結腸癌細胞SW-480生長,呈劑量依賴性。其作用機制可能與AGE上調CyclinD1的表達加速G1/S期轉換及增加端粒酶活性有關。【Abstract】 Objective To observe the effects of advanced glycosylation end products (AGE) on proliferation of SW-480 cells and study the possible mechanism. Methods Various concentrations of AGE were designed to have impact on SW-480 cells. Proliferation of SW-480 cells was assessed by thiazolyl blue tetrazolium bromide (MTT) assay; The impact of AGE on the cell cycle of SW-480 cells was analyzed by flow cytometry (FCM); the influence of AGE on expression of CyclinD1 was checked by Western blotting; and the impact of AGE on telomerase activity was examined by telomeric repeat amplification proctol (TRAP) sliver staining. For the MTT assay, blank control group, 100 μg/mL bovine serum albumin (BSA) group, 50, 100 and 500 μg/mL AGE groups were designed, while for other examinations, there were only 100 μg/mL BSA group and 100 μg/mL AGE group. Results MTT result showed that AGE increased the proliferation of SW-480 cells in a dose-dependent mode. The proportion of the cells at G0/G1 stage of the 100 μg/mL BSA group and the 100 μg/mL AGE experimental group were (56.02±0.58)% and (51.93±1.01)% respectively after 72 hours, with a significant difference (Plt;0.05); western blotting showed that the expression of CyclinD1 in the 100 μg/mL AGE group was significantly higher than that in the 100 μg/mL BSA group after 72 hours; TRAP silver staining demonstrated that telomerase activity increased significantly after treated with 100 μg/mL AGE for 72 hours. Conclusions AGE can promote the growth of SW-480 cells in a dose-dependent mode. Its mechanism is mainly by up-regulating the expression of CyclinD1 to shorten G0/G1 and increasing the telomerase activity significantly.
In recent years, the incidence of thyroid cancer has been increasing. Researchers around the world have begun to pay more attention to the exploration of its pathogenesis, disease evolution and prognosis. Among them, research in the field of gene molecules has become a hotspot, which includes the mutations of v-raf murine sarcoma viral oncogene homologue B1 (BRAF) and the telomerase reverse transcriptase (TERT) promoter. However, this field is not mature, and there are many problems and challenges need to be solved. This paper explores the value of BRAF mutation in the treatment, recurrence, mortality and prognosis of papillary thyroid carcinoma. In addition, we also explore the relationship between BRAF mutation and TERT promoter mutations and their influences in thyroid cancer. We hope this paper could help later scholars understand the current situation in this field and find a research direction in the future.
OBJECTIVE: To construct a plasmid which has a reporter gene for exploring the role of human telomerase reverse transcriptase(hTRT) in in-vitro cell cultivation. METHODS: hTRT was cut by restricted enzyme from plasmid pGRN145 and inserted to plasmid pEGFP-C1 (enhanced green fluorescent protein). RESULTS: Restricted enzyme analysis and DNA sequencing showed that the sequence of the pEGFP -hTRT transgenic plasmid was correct. CONCLUSION: The recombinant vector pEGFP-hTRT has been successfully constructed, and it can be used as a transgenic plasmid in generating immortalized cell lines.
ObjectiveTo build a lentiviral expression vector regulated by two targets 5 copies of HREs and hTERTp, express the target gene CDX2, and to test the activity of hTERT promoter by using LoVo cells for transfection.
MethodsAfter the primer sets were designed, the hTERT promoter was cloned by PCR amplification from the genome of colon cancer. The CEA promoter was removed from the original vector pLEGFP-5HRE-CEAp by double digestion and PCR method, and then the hTERTp was introduced into the vector to construct the recombinant plasmid pLEGFP-5HRE-hTERTp. 5HRE-hTERTp was obtained by PCR, while the CMV promoter was removed from the original vector pLVX-EGFP-3FLAG by double digestion and PCR method, and then the 5HRE-hTERTp was introduced into the vector to construct the recombinant plasmid pLVX-5HRE-hTERTp-EGFP-3FLAG. The CDX2 was cloned by PCR amplification from GV230-CDX2-EGFP, and the EGFP was removed from the vector pLVX-5HRE-hTERTp-EGFP-3FLAG by double digestion, and then the CDX2 was introduced into the vector to construct the recombinant plasmid pLVX-5HRE-hTERTp-CDX2-3FLAG. LoVo cells ex vivo was transiently transfected by pLVX-5HRE-hTERTp-EGFP-3FLAG to evaluate the activity of hTERTp by detecting the expression of green fluorescence protein EGFP.
ResultsPCR and sequencing analyzing showed that pLEGFP-5HRE-hTERTp, pLVX-5HRE-hTERTp-EGFP-3FLAG, and pLVX-5HRE-hTERTp-CDX2-3FLAG were sequenced correctly and the same as our designed. pLVX-5HRE-hTERTp-EGFP-3FLAG was successfully transfected into LoVo cells ex vivo and expressed green fluorescence protein EGFP, which showed that hTERTp was activated and promoted the expression of downstream gene.
ConclusionThe lentiviral expression vector, pLVX-5HREhTERTp-EGFP-3FLAG and pLVX-5HRE-hTERTp-CDX2-3FLAG are successfully constructed, which lays the foundation of further research. But the function of dual-target regulation needs further proof.
ObjectiveTo investigate the expression change characteristic of stemness-related markers for recurrent hepatocellular carcinoma (HCC), and to discuss the relationship between stemness-related markers and clinicopathologic characteristics of HCC.MethodsWe collected 25 recurrent HCC patients who also had the first liver resection for HCC in Sichuan Cancer Hospital from Jan. 2010 to Oct. 2018. Immunohistochemistry was used to compare expressions of CD133, CD90, CD117, and epithelial cell adhesion molecule (EpCAM) in HCC tissues. Fluorescence in situ hybridization was used to detect telomere length.ResultsThe primary HCC had higher platelet count, larger tumor, less microvascular invasion (MVI), and less multiple HCC than the recurrent HCC (P<0.05), but the expressions of CD90, CD133, CD117, and EpCAM were not significantly differed after recurrence (P>0.05). The expressions of CD90, CD133, CD117, and EpCAM were not associated with tumor size, tumor number, Barcelona Clinic Liver Cancer Staging (BCLC staging), satellite nodules, and differentiation (P>0.05). The MVI-positive group had a significantly higher expression level of EpCAM (P=0.016) and longer telomere length (P=0.001). The telomere length was longer for tumors diameter less than 5 cm (P=0.038) and poor differentiation (P=0.046). Correlation analysis found that there was no relationship between telomere length and expression levels of EpCAM (r=–0.092, P=0.513), CD90 (r=–0.235, P=0.100), CD133 (r=0.024, P=0.867), and CD117 (r=–0.277, P=0.052), but an apparent positive correlation between expression levels of EpCAM and CD133 was found (r=0.358, P=0.011). Survival analysis found that poor differentiation (P=0.003) and BCLC B–C staging (P=0.040) were the risk factors of disease-free survival for patients after first HCC resection, and BCLC B–C staging (P=0.017) and tumor diameter more than 5 cm (P=0.035) were the risk factors for recurrent HCC.ConclusionsRecurrent HCC had similar stemness-related markers expression and longer telomere length. Expression level of EpCAM and telomere length were associated with MVI.
Objective To explore the values of telomerase in the diagnosis, therapy and prognostic parameter of colorectal cancer. Methods Telomerase activity in colorectal cancer, peri-cancerous and normal mucosa was detected by PCRTRAP-ELISA assay. Results The positive rates of telomerase in colorectal cancer, peri-cancerous and normal mucosa were 84.8%, 20.0% and 0% respectively. 66.7% of the early stage colorectal cancer expressed telomerase. Telomerase activity was reversely correlated with tumor differentiation.Conclusion Telomerase may be an earlier event of malignant progression in colorectal cancer. It might be a parameter for diagnosis of colorectal cancer.
ObjectiveTo investigate the expressions and clinical significance of human telomerase reverse transcriptase (hTERT) mRNA and γglutamyl transpeptidase mRNA-H (GGT mRNA-H) in the peripheral blood of small hepatocellular carcinoma (HCC) patients. MethodsThe expressions of hTERT mRNA and GGT mRNA-H were detected in the peripheral blood of thirty patients with small HCC by RT-PCR, eighteen patients with benign liver diseases, and twelve normal volunteers. ResultsThe positive rate of hTERT mRNA and GGT mRNA-H expression in patients with small HCC were 80.0% (24/30) and 46.7%(14/30), respectively. In patients with hepatitic cirrhosis the positive rate of hTERT mRNA expression was 33.3% (6/18), while the expression of GGT mRNA was not detected. Both the expressions of hTERT mRNA and GGT mRNA-H were negative in all normal volunteers. The combination analysis of hTERT mRNA and GGT mRNA-H expression achieved positive rate of 86.7% in the diagnosis of small HCC, which was significantly higher than the positive rate of AFP (26.7%), Plt;0.05. ConclusionThe hTERT mRNA and GGT mRNA-H are significantly expressed in small HCC patients, the combination analysis of hTERT mRNA and GGT mRNA-H seems to be useful in the early diagnosis of small HCC.
