We used T1 oligonucleotide maps, in conjunction with available nucleotide sequences of appropriate C-type viruses, to identify regions of the viral genome that distinguish two biological classes of mink cell focus-forming (MCF) viruses described previously by Cloyd et al. (J. Exp. Med. 151:542-522, 1980). We found that leukemogenic MCF viruses from thymus differed from non-leukemogenic MCFs isolated from nonthymic neoplasms in nucleotide sequences encoding Prp15E and the U3 portion of the long terminal repeat (LTR). The thymic isolates possessed recombinant Prp15E genes, with the 5' to mid portion derived from their ecotropic parents and the extreme 3' portion invariably derived from their nonecotropic parents. These viruses probably derived the entire U3 portion of their LTRs from their nonecotropic parents. The nonthymic MCFs appeared to inherit their entire Prp15E coding region from their nonecotropic parents. We failed to detect consistent differences in gp70-coding sequences between the two groups of MCFs, but this may simply reflect limitations of the data. The studies presented here, in conjunction with studies from a number of labs indicating a role for MCF gp70 in leukemogenesis, indicate that three genetic elements, gp70, p15E, and the U3 portion of the LTR, may all play a role in determining the leukemogenic phenotype of type C viruses of high-leukemic inbred mice.
We isolated DNA clones of MCF 247, a leukemogenic, recombinant type C virus obtained from the thymus of an AKR mouse. We determined the nucleotide sequence of the viral long terminal repeat (LTR) and the 3' end of env, and we compared the sequences to corresponding sequences of the genome of Akv virus, the putative ecotropic parent of MCF 247. By analogy with Moloney leukemia virus, we identified the amino terminus of Prp15E, the C-terminal proteolytic cleavage product of env and precursor to mature virion p15E. In MCF 247 the presumptive Prp15E is encoded by a 603-nucleotide open reading frame. The majority of this sequence is identical to that of Akv. However, a recombination event near the 3' end of the Prp15E-coding region introduces nonecotropic sequences into MCF 247, and these extend to the 3' end through the U3 portion of the LTR. The U3 regions of Akv and MCF 247 are about 83% homologous. The R and U5 regions of the LTR of MCF 247 and Akv are identical. Large RNase T1-resistant oligonucleotides analyzed previously in numerous ecotropic and MCF viral genomes were located within the Akv and MCF 247 DNA sequences. The resulting precise T1 oligonucleotide maps of the 3' ends of MCF viral genomes reveal that the biologically defined, leukemogenic class I MCFs isolated from thymic neoplasms of inbred mice all share the sequence pattern seen in MCF 247, a representative of this group; they possess recombinant Prp15E genes and derive U3 from their nonecotropic parents.
Nasopharyngeal carcinoma (NPC) is a common cancer among ethnic Cantonese living in Hong Kong and southern China. It is closely associated with Epstein-Barr virus (EBV) infection. Unfortunately, there are very few representative xenografts and cell lines established from NPC available for investigation. Most of the NPC xenografts established have been passaged in immune deficient animals for over 20 years and may not be representative of the original NPC in patients. For in vitro NPC cell lines, there is only one cell line which retains the EBV genomes. Other NPC cell lines have all lost their EBV episomes. Furthermore, many of these NPC cell lines are found to be contaminated with genetic components from HeLa cells (HPV16 genome) which raised issues on their origins and limited their uses as NPC cells. There is great urgency in establishment new NPC cell lines both in vivo and in vitro for various research investigations and for the study of pathogenic role of EBV infection in NPC. We have carried out continuous efforts since 2010 to attempt establishment of new NPC xenografts and cell lines from surgical and biopsies NPC tissues. NPC tissues from resected recurrent NPC and biopsies from primary NPC were explanted to subrenal capsular sites and maintained for four months to one year to observe for growth of new NPC xenografts. Attempts to establish new NPC celles were also carried out. At present, we have successfully established 3 NPC xenografts (Xeno 23, Xeno 32, Xeno 47) which could be passages at subcutaneously sites and one in vitro NPC cells (NPC43) which harbors EBV genomes. The growth properties and genetic alterations of these newly established NPC cell lines have been characterized. Novel genetic alterations and growth signaling pathways were observed in these newly established NPC cell lines and may represent driver mutations and signaling pathways essential for progression of NPC. Profiling of EBV gene expression of these newly established NPC cell lines revealed predominant latent EBV infection and expression of EBV-encoded mRNA from the BART transcripts which are characteristic of EBV infection in NPC. The establishment of new NPC cells will contribute to investigate the pathogenesis of NPC and its intimate relationship with EBV infection. Funding acknowledgement: University Grant Council (HK) grants (AoE NPC (AoE/M-06/08); TBRS (T12-401/13R); GRF); University of Hong Kong (CRCG and SRT cancer) Citation Format: WT Lin, L Xia, Dan Dan Wen, CM Tsang, KW Lo, ML Lung, George Sai-Wah Tsao. Establishment and characterization of xenografts and cell lines trom nasopharyngeal carcinoma. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 632.
Nasopharyngeal carcinoma (NPC) is a cancer that occurs in high frequency in Southern China. A previous functional complementation approach and the subsequent cDNA microarray analysis have identified that serum amyloid A1 (SAA1) is an NPC candidate tumor suppressor gene. SAA1 belongs to a family of acute-phase proteins that are encoded by five polymorphic coding alleles. The SAA1 genotyping results showed that only three SAA1 isoforms (SAA1.1, 1.3 and 1.5) were observed in both Hong Kong NPC patients and healthy individuals. This study aims to determine the functional role of SAA1 polymorphisms in tumor progression and to investigate the relationship between SAA1 polymorphisms and NPC risk. Indeed, we have shown that restoration of SAA1.1 and 1.3 in the SAA1-deficient NPC cell lines could suppress tumor formation and angiogenesis in vitro and in vivo. The secreted SAA1.1 and SAA1.3 proteins can block cell adhesion and induce apoptosis in the vascular endothelial cells. In contrast, the SAA1.5 cannot induce apoptosis or inhibit angiogenesis because of its weaker binding affinity to αVβ3 integrin. This can explain why SAA1.5 has no tumor-suppressive effects. Furthermore, the NPC tumors with this particular SAA1.5/1.5 genotype showed higher levels of SAA1 gene expression, and SAA1.1 and 1.3 alleles were preferentially inactivated in tumor tissues that were examined. These findings further strengthen the conclusion for the defective function of SAA1.5 in suppression of tumor formation and angiogenesis. Interestingly, the frequency of the SAA1.5/1.5 genotype in NPC patients was ~2-fold higher than in the healthy individuals (P=0.00128, odds ratio=2.28), which indicates that this SAA1 genotype is significantly associated with a higher NPC risk. Collectively, this homozygous SAA1.5/1.5 genotype appears to be a recessive susceptibility gene, which has lost the antiangiogenic function, whereas SAA1.1 and SAA1.3 are the dominant alleles of the tumor suppressor phenotype.
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