西多福韦对人宫颈癌细胞CaSki内人乳头瘤病毒16抑制作用研究

目的从抗病毒角度探讨西多福韦对宫颈癌细胞 CaSki内人乳头瘤病毒16（HPV16）的抑制作用及对细胞周期的影响。方法用 MTT法检测西多福韦对细胞的毒性;用实时定量 PCR法检测其对病毒 E6、E7 mRNA水平的影响;用 Western blot方法检测其对病毒蛋白 E6、E7和细胞抑癌蛋白 p53、pRb表达水平的影响;用流式细胞法检测其对宫颈癌细胞周期的影响。结果西多福韦对宫颈癌细胞毒性较正常细胞大。可使HPV16阳性宫颈癌细胞 CaSki内 E6、E7 mRNA和蛋白水平降低,最大抑制率分别为（33.38±8.00）%、（28.32±2.73）%和98.92%、97.46%;可以使 p53、pRb蛋白水平升高,最大浓度时可以上调12.06和3.53倍;对 HPV16阴性宫颈癌细胞 C-33A p53蛋白表达无影响,但可提高 pRb蛋白水平;可导致 CaSki和 C-33A细胞发生 S期阻滞,最高浓度组细胞相对对照组 S期分别增加22.83%和67.64%。结论西多福韦可以在对细胞无毒的浓度下,抑制宫颈癌细胞内的 HPV16,诱导宫颈癌细胞发生 S期阻滞。     

Primary human cervical carcinoma cells require human papillomavirus E6 and E7 expression for ongoing proliferation

Repression of human papillomavirus (HPV) E6 and E7 oncogenes in established cervical carcinoma cell lines causes senescence due to reactivation of cellular tumor suppressor pathways. Here, we determined whether ongoing expression of HPV16 or HPV18 oncogenes is required for the proliferation of primary human cervical carcinoma cells in serum-free conditions at low passage number after isolation from patients. We used an SV40 viral vector expressing the bovine papillomavirus E2 protein to repress E6 and E7 in these cells. To enable efficient SV40 infection and E2 gene delivery, we first incubated the primary cervical cancer cells with the ganglioside GM1, a cell-surface receptor for SV40 that is limiting in these cells. Repression of HPV in primary cervical carcinoma cells caused them to undergo senescence, but the E2 protein had little effect on HPV-negative primary cells. These data suggest that E6 and E7 dependence is an inherent property of human cervical cancer cells.     

Analysis of the unoccupied site of an integrated human papillomavirus 16 sequence in a cervical carcinoma

We have previously cloned and analyzed the structure of a type 16 human papillomavirus (HPV16) integration in a primary cervical carcinoma tissue, M50 (Choo et al., J. Virol. 62, 1659-1666, 1988). We found that specific nucleotide sequences within the HPV16 genome influenced the genomic organization of the integrated viral genome. Using the viral-cellular junctions of the M50 DNA as probes, we have now cloned the unoccupied site from a human genomic library. Mapping analysis showed that a deletion of about 1.1 kilobase pairs (kb) had occurred at the integration site of M50. Sequencing of the integration junctions of the unoccupied site and comparison with the viral sequence has revealed short regions of sequence homology between the viral and the cellular genomes at both junctions. Our results are consistent with a mechanism of integration of the HPV16 sequences in the M50 carcinoma involving illegitimate recombination events using short patches of homologous sequences between the two heterologous genomes for anchorage and as guides for crossover. Preferred topoisomerase I cleavage sites and alternating purine and pyrimidine bases, which favor the formation of Z-DNA, could also be identified at the integration regions, supporting a proposed role for the topoisomerase I enzyme in the illegitimate recombination in the viral integration process.     

特异siRNA抑制宫颈癌细胞中人乳头状瘤病毒16型E6表达的研究

目的 优化HPV-16 E6癌基因特异的U6质粒表达的siRNA，抑制HPV癌基因表达及其对子宫颈癌细胞生长繁殖的影响。方法 选择4个分别针对HPV-16 E6 mRNA外显子和内含子序列为靶序列，合成DNA链，构建表达HPV-16 E6短发卡样dsRNA的重组pSilencer1．0-U6载体，导入HPV-16DNA阳性的宫颈癌细胞株CaSki中，观察该细胞中HPV-16 E6、E7基因表达水平及其蛋白含量的变化，并观察细胞生长被抑制的情况。结果 4种HPV-16 E6 siRNA均能降低宫颈癌细胞CaSki的生长速率。通过细胞生长曲线观察到HPV-16 E6 shRNA表达质粒导入细胞0-96h内，可降低细胞生长速度。荧光定量RT-PCR检测HPV-16 E6 siRNA可使宫颈癌细胞株CaSki中HPV-16 E6、E7基因转录的mRNA水平降低，其中针对E6 mRNA内含子的重组shRNA只抑制E6基因的表达水平。Western blot分析表明，4个HPV-16 E6 siRNA作用72h后，未能检测到宫颈癌细胞中HPV-16 E6蛋白。结论 HPV-16 E6 siRNA能使宫颈癌细胞CaSki生长缓慢；选择针对E6内含子的siRNA作用位点，特异性抑制E6表达；而针对E6外显子的siRNA作用位点，可抑制E6和E7基因的表达，是用于治疗HPV阳性宫颈癌细胞的理想靶位。     

Use of multiple displacement amplification in the investigation of human papillomavirus physical status

BACKGROUND AND AIMS: The investigation of human papillomavirus (HPV) physical status in pre-invasive cervical lesions has been restricted by the small amounts of tissue available for study. Multiple displacement amplification (MDA), a phi29 DNA polymerase based whole genome amplification technique, has the potential to help resolve this problem by yielding large amounts of high molecular weight DNA from tiny starting quantities. METHODS: Firstly, a comparison was made of restriction endonuclease fragment patterns of DNA from seven different HPV types and corresponding MDA products. Secondly, E6/E7 and LCR sequencing data from HPV16 recombinant plasmid and MDA copy DNA were correlated. Thirdly, DNA and MDA products from cervical cell lines (CaSki, HeLa, and SiHa that contain integrated HPV) and an invasive cervical carcinoma were analysed by Southern blot hybridisation. Fourthly, MDA product from CaSki cell DNA mixed with HPV18-plasmid DNA was tested for the demonstration of both episomal and integrated HPV. Finally, MDA products from HPV16 positive abnormal cervical cytological samples were assayed for integration by Southern blot hybridisation. RESULTS: DNA templates and MDA products yielded analogous data. Episomal and integrated HPV DNA were successfully detected by Southern blot assay of the cell line/HPV-plasmid model, and in MDA products of clinical samples. CONCLUSIONS: These data show that MDA has considerable potential to assist in the investigation of HPV physical status; abundant (>40 microg) DNA can be generated with high fidelity from minuscule (50 ng) starting quantities, and both episomal and integrated HPV DNA are distinguishable in MDA products from solid tumours and cytological materials.     

Human papillomavirus E6 protein enriches the CD55(+) population in cervical cancer cells,promoting radioresistance and cancer aggressiveness

Accumulating evidence indicates that the human papillomavirus (HPV) E6 protein plays a crucial role in the development of cervical cancer. Subpopulations of cells that reside within tumours are responsible for tumour resistance to cancer therapy and recurrence. However, the identity of such cells residing in cervical cancer and their relationship with the HPV‐E6 protein have not been identified. Here, we isolated sphere‐forming cells, which showed self‐renewal ability, from primary cervical tumours. Gene expression profiling revealed that cluster of differentiation (CD) 55 was upregulated in primary cervical cancer sphere cells. Flow‐cytometric analysis detected abundant CD55(+) populations among a panel of HPV‐positive cervical cancer cell lines, whereas few CD55(+) cells were found in HPV‐negative cervical cancer and normal cervical epithelial cell lines. The CD55(+) subpopulation isolated from the C33A cell line showed significant sphere‐forming ability and enhanced tumourigenicity, cell migration, and radioresistance. In contrast, the suppression of CD55 in HPV‐positive CaSki cells inhibited tumourigenicity both in vitro and in vivo, and sensitized cells to radiation treatment. In addition, ectopic expression of the HPV‐E6 protein in HPV‐negative cervical cancer cells dramatically enriched the CD55(+) subpopulation. CRISPR/Cas9 knockout of CD55 in an HPV‐E6‐overexpressing stable clone abolished the tumourigenic effects of the HPV‐E6 protein. Taken together, our data suggest that HPV‐E6 protein expression enriches the CD55(+) population, which contributes to tumourigenicity and radioresistance in cervical cancer cells. Targeting CD55 via CRISPR/Cas9 may represent a novel avenue for developing new strategies and effective therapies for the treatment of cervical cancer. Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.