Abnormal expression of hypoxia inducible factor-1α and clinical values of molecular-targeted interference in hepatocellular carcinoma

Objective:The aim of this study was to analyze the expression features of hypoxia inducible factor-1α (HIF-1α) in hepatocellular carcinoma (HCC) and effects of HIF-1α silencing on HepG2 cells.Methods:HIF-1α expression was analyzed in the self-control HCC specimens by immunohistochemistry.After HepG2 cells with miRNA transfection,the expression of HIF-1α was determined at mRNA or protein level by real-time polymerase chain reaction (PCR) or Western blotting.Vascular endothelial growth factor (VEGF) and angiopoietin-2 (ANG-2) were determined by ELISA.Alterations of cell cycles and apoptosis of HepG2 cells were measured using a flow cytometer.Results:Positive HIF-1α was brown and granule-like in the cytoplasm or nucleus.Significant difference was found between HCC (80%) and its surrounding tissues (100%,χ2=22.35,P < 0.001) and HIF-1α expression related to tumor size.At 72 h after miRNA transfection,the expression of HIF-1α in HepG2 cells was down-regulated by 87% at mRNA or 65% at protein level,with VEGF and ANG-2 decreased to 54% and 36%,respectively.After RNA interference combined with anti-cancer drug,the apoptotic rate of HepG2 cells was increasing from 22.46% ± 0.61% to 36.99% ± 0.88%,with up-regulation of G1 phase (65.68% ± 0.91%) and down-regulation of S phase (19.47 ± 1.34 %).Conclusion:Abnormal expression of HIF-1α is associated with development of HCC,and HIF-1α gene silencing can effectively inhibit HepG2 cell proliferation.

Effects of biological clock gene BMAL1 and hypoxia-inducible factor HIF-1αon proliferation,migration and radiotherapy sensitivity of nasopharyngeal carcinoma cells HONE1

Objective To understand the effects of clock gene BMAL1 and HIF-1α(Hypoxia inducible factor-1α)on proliferation,migration and sensitivity to radiotherapy of nasopharyngeal carcinoma cells HONE1.At the same time,whether the biological clock gene BMAL1 can affect the expression of HIF-1αprotein was investigated.It will lay the foundation for further study on the correlation between clock gene BMAL1 and HIF pathway.Methods BMAL1 gene overexpression and interference lentivirus and HIF-1αgene interference lentivirus were constructed respectively,and were transfected into nasopharyngeal carcinoma cells HONE1.Western blot was used to verify the establishment of overexpressed and knockdown BMAL1 cell lines and HIF-1αgene knockdown cell line,and to investigate the expression of HIF-1αprotein in overexpressed and knockdown BMAL1 cell lines.CCK-8 cell proliferation test and scratch test were used to analyze the proliferation and migration ability of cells.Cell apoptosis after radiotherapy was analyzed by flow cytometry.The effects of BMAL1 and HIF-1αon the sensitivity of HONE1 radiotherapy in nasopharyngeal carcinoma cells after X-ray irradiation at different doses(0Gy,2Gy,4Gy,6Gy)were detected by clone formation assay.Results The overexpression of BMAL1 gene and lentivirus interference were constructed to effectively up regulate and down regulate the expression of BMAL1 protein in nasopharyngeal carcinoma cells HONE1.Meanwhile,HIF-1αgene interference lentivirus was constructed to effectively down-regulate the expression of HIF-1αprotein in nasopharyngeal carcinoma cell line HONE1,and successfully screen out stable nasopharyngeal carcinoma cell lines.Western blot results showed that overexpression of BMAL1 gene could inhibit the expression of HIF-1αprotein in HONE1 of nasopharyngeal carcinoma cells,while knockdown of BMAL1 gene promoted the expression of HIF-1αprotein in HONE1 of nasopharyngeal carcinoma cells(P<0.05).CCK-8 cell proliferation and scratch test showed that overexpression of BMAL1 gene or knockdown of HIF-1αgene could inhibit the proliferation and migration of HONE1 cells(P<0.05).Flow cytometry results showed that after 8Gy irradiation for 72 h,the apoptosis rate of BMALl gene overexpression group was higher than that of the overexpression control group,similarly,the apoptosis rate of HIF-1αgene knockdown group was higher than that of the knockdown control group(P<0.05).After X-ray irradiation at different doses(0Gy,2Gy,4Gy,6Gy),clon-formation experiment showed that the clon-formation rate and cell survival fraction of BMALl overexpression group or HIF-1αknockdown group were lower than those of negative control group(P<0.05).Sigmaplot analysis showed that the D0,Dq and SF2 of the BMAL1 overexpression group or HIF-1αknockdown group were lower than those of the negative control group,and the radiosensitization ratios were 1.381 and 1.063,respectively.Conclusion Overexpression of BMAL1 gene can inhibit the proliferation and migration of nasopharyngeal carcinoma cell line HONE1,increase apoptosis after radiotherapy and improve radiosensitivity.Knock down HIF-1αGene can inhibit the proliferation and migration of nasopharyngeal carcinoma cell line HONE1,increase apoptosis after radiotherapy and improve radiosensitivity.In nasopharyngeal carcinoma cells HONE1,overexpression of BMAL1 gene can inhibit the expression of HIF-1αprotein while knockdown of BMAL1 gene can promote the expression of HIF-1αprotein.

Regulation of HIF-1 α to Expression of N-myc Downstream Regulated Gene 1 in Colorectal Carcinoma

Plasmid expressing small interfering RNA （siRNA） against HIF-1α （pSilence-2.1-U6-siRNA） was constructed and transfected into LS174T cells in hypoxia condition.After expression of siRNA against HIF-1 α in LS174T cells, expressions of HIF-1 α and N-myc downstream regulated gene 1 （NDRG1） gene were inhibited significantly. HIF-1 cta transcripts were positive in 67.7% （42/62） and 44.4% （8/18） of colorectal adenocarcinoma and adenoma, re- spectively. The mean percentage of cells with positive hybridization of HIF-1 α mRNA increases with the development from Duke stage A to stage C＋D （p〈 0.05）. The positive staining rate of NDRG1 protein was significant higher in than that in colorectal adenoma colorectal adenocarcinoma group group （p〈 0.05）. The level of HIF-1 a transcripts was positively correlated with the level of NDRG1 protein （p 〈 0.05） during colorectal tumor progression. HIF-1α and its down stream gene NDRG1 may play roles in tumor progression of human colorectal carcinoma.

Endostar enhances anti-tumor effects of radiation via inhibition of HIF-1α and bFGF in lung adenocarcinoma cell line A549

Objective： The aim of the study was to investigate whether enhanced anti-tumor effects of endostar （ES） on radiation involved hypoxia inducible factor-la （HIF-la） and basic ~broblast growth factor （bFGF）. Methods： A549 cells were divided into four groups： control group; endostar （ES） group; radiation （RT） group; endostar plus radiation （ES ＋ RT） group. The inhibition of proliferation rates ofA549 cells was measured by cell counting kit-8 （CCK-8）. HIF-la and bFGF expression levels were checked by enzyme linked immunosorbent assay （ELISA） and reverse transcription-polymerase chain reaction （RT-PCR）. Results： The proliferation inhibition rate in the ES ＋ RT group was higher than that in other groups. On the other hand, the expressions of HIF-1α and bFGF in the ES ＋ RT group were significantly reduced compared to other groups. HIF-1α and bFGF levels were positively correlated （r = 0.80, P 〈 0.01）. Conclusion： Our results suggest that endostar could enhance anti-tumor effect of radiation by reducing expressions of HIF-1α and bFGF.

Mitochondrial control of hematopoietic stem cell balance and hematopoiesis

Hematopoietic stem cells （HSCs） are stem cells from mesodermal derivation that reside in bone marrow and provide blood cells for the whole life of an adult individual, through a process called hematopoiesis. The long lasting support of HSCs for hematopoiesis is permitted by the fine regulation of quiescence and division output. Exit from the quiescent state is to produce a committed and/or stem daughter cells, in an event defined asymmetric or symmetric division. A deregulation in the proportion between asymmetric and symmetric divisions is critical in the appearance of hematological disorders ranging from bone marrow failure to hematological malignancies. Over the past years, several studies have indicated how the metabolism of HSCs is determinant in the regulation of HSC quiescence and commitment process. A metabolism shifted to the glycolytic pathway promotes HSCs quiescence and sustainment of hematopoiesis. Boosting mitochondrial respiration promotes the stem cell commitment followed by stem pool exhaustion, and minimal mitochondrial activity is required to maintain the HSCs quiescence. In the present review are discussed the most recent advances in comprehension of the roles of mitochondria in the hematopoiesis and in the division balance.