We have established a cell line (C666‐1) from undifferentiated nasopharyngeal carcinoma (NPC). This cell line consistently carries the Epstein‐Barr virus (EBV) in long‐term cultures. C666‐1 is a subclone of its parental cell line, C666, derived from an NPC xenograft of southern Chinese origin. It grows as an adherent culture and lacks contact inhibition. In addition, it is tumorigenic in athymic nude mice. The cells consistently express EBV‐encoded RNAs and are positively stained for cytokeratin, an epithelial marker. In addition, they express EBNA1 protein, LMP1 and LMP2 transcripts and thus resemble the EBV latency II pattern. The virus genotype is EBV‐1 with the latent membrane protein 1 gene showing a 30‐bp deletion at the carboxyl terminus, both consistent with findings in southern Chinese NPC tumours. Cytogenetic analysis revealed a sub‐diploid status with a chromosomal modal number of 45. C666‐1 is unique among NPC cell lines in that it carries EBV. These cells may serve as a good investigative tool as the viral latency pattern and genotype are observed in the majority of primary NPC biopsies from Chinese patients. Int. J. Cancer 83:121–126, 1999. © 1999 Wiley‐Liss, Inc.
We reported previously that a characteristic Epstein‐Barr virus latent membrane protein 1 (EBV‐LMP1) gene was associated with nasopharyngeal carcinoma (NPC) in Hong Kong. It showed a 30 bp deletion at the carboxyl terminus with specific amino acid substitution Asp at codon 335 with reference to Gly in B95‐8 LMP1. This deletion variant Asp335 was present in over 90% of NPC biopsy specimens. The present study attempted to determine the whole encoding sequence of the LMP1 gene in different EBV isolates from NPC, and its relation with EBV types. We found that 92% (34/37) of primary NPC tumours harboured EBV‐1 and possessed the LMP1 deletion variant, of which 86% were Asp335 and 6% were Gly335. EBV‐2 was present in 8% (3/37) of tumours and all contained the retention variant of the LMP1 gene. Sequencing of the whole encoding region of the LMP1 gene revealed that the deletion variant Asp335 and deletion variant Gly335 carried similar sequences. They showed 43 common nucleotide substitutions in 41 codons with reference to B95‐8. The retention variant showed 52 base changes in 46 codons compared with B95‐8. The amino acid alterations in both the deletion and retention variants were mostly clustered at the transmembrane domain of the protein. Furthermore, half of the substitutions were common to both variants, suggesting a common evolutionary selection pressure. Nonetheless, the 2 LMP1 variants showed differences in nucleotide alterations and were associated with different EBV types, suggesting the presence of 2 distinct EBV strains in Hong Kong NPC. Int. J. Cancer 76:399–406, 1998.© 1998 Wiley‐Liss, Inc.
We prospectively analyzed p15 and p16 promoter methylation patterns using methylation-specific polymerase chain reaction (PCR) in patients with adult and childhood acute leukemias and studied the association of methylation patterns with chromosomal abnormalities and prognostic variables. In nearly all French-American-British leukemia subtypes, we found p15methylation in bone marrow or peripheral blood cells from 58% (46/79) of patients with acute myeloid leukemia (AML), acute lymphoblastic leukemia (ALL), or acute biphenotypic leukemia (ABL). An identical alteration was detected in blood plasma from 11 of 12 of these patients (92%). We also demonstrated for the first time concomitant p16and p15 methylation in 22% (8/37) of adults with AML or ALL, exclusively in those with M2, M4, or L2 subtypes. According to cytogenetic data from 35 patients with ALL, AML, or ABL, 82% (14/17) of those with unmethylated p15 alleles had normal karyotypes or hyperdiploidies associated with a favorable prognosis. Conversely, 44% (8/18) of patients with p15 methylation had chromosomal translocations, inversions, or deletions, suggesting an interplay of these abnormalities with p15 methylation. As a prognostic marker for disease monitoring, p15 methylation appears to be more widely applicable than BCR-ABL, AF4-MLL, andAML1-ETO transcripts, which were detectable in only 8% (4/48) of patients by reverse transcriptase-PCR. Thirty-nine of 43 blood samples (91%) sequentially collected from 12 patients with AML, ALL, or ABL showed p15 methylation status in excellent concordance with morphologic disease stage. Early detection of p15methylation at apparent remission or its acquisition during follow-up may prove valuable for predicting relapse. Overall survival of patients with p15 methylation was notably shortened among 38 adults with AML and 12 adults with ALL. Aberrant p15 methylation may have important prognostic implications for clinical monitoring and risk assessment.
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