Rapid detection of common southeast Asian beta-thalassemia mutations by nonisotopic multiplex PCR-SSCP analysis.

This report describes the detection of seven beta-thalassemia mutations common in Southeast Asia by amplifying three short PCR fragments in two separate tubes, followed by single-strand conformation polymorphism (SSCP) analysis in single lanes. These mutations are -28 A --> G, codon 17 A --> T, IVS1 + 5 G --> C, codon 41/42 -CTTT, codon 43 G --> T, codon 71/72 + A, and IVS2 + 654 C --> T, and account for 70% to over 95% of the cases in this region. This rapid nonisotopic method was also found capable of detecting other mutations within the amplified fragments. It is simple, rapid, and cheap, and thus suitable for carrier screening and prenatal diagnosis in Southeast Asia.

Nonrandom chromosomal imbalances in human ovarian surface epithelial cells immortalized by HPV16-E6E7 viral oncogenes.

We had previously immortalized human ovarian surface epithelial (HOSE) cells using HPV16E6E7 ORFs. In order to identify crucial genetic events involved during cell immortalization, the genomic profile of immortalization of five HOSE cell lines was analyzed by comparative genomic hybridization. Our results showed that chromosomal imbalance was common in HOSE cells after immortalization. The common chromosomal imbalances identified in immortal HOSE cells are: +19q13.1 (5/5 lines), -13q12 approximately qter (4/5 lines), +5q15 approximately q33 (3/5 lines), +20q11.2 approximately q13.2 (3/5 lines) and -22q11.2 approximately qter (3/5 lines). Other chromosomal imbalances, which were detected in two of the five immortal HOSE cell lines, included gains on chromosome 1 and 11q12 approximately q13, and losses on 2p, 4q, 8p, 10p and 11q14 approximately qter. The chromosomal imbalances observed in HOSE cells before immortalization include -8pter approximately p11.2, -11q23 approximately qter, -13q12 approximately qter and +19 which may represent early genetic events during cell immortalization. The genomic profile was examined in one HOSE cell line (HOSE 6-3) at various stages of immortalization. The genomic profiles of HOSE 6-3 cells after crisis were largely stable. A few additional chromosomal imbalances were detected in the immortalized HOSE cells after an extensive culture period including +11pter approximately q23, -15q23 approximately qter, and +17q12 approximately qter. Identification of nonrandom chromosomal imbalance in immortalized HOSE cells may facilitate the identification of specific chromosomes harboring genes involved in the immortalization of human ovarian surface epithelial cells.

Characterization of additional genetic events in childhood acute lymphoblastic leukemia with TEL/AML1 gene fusion: a molecular cytogenetics study.

TEL/AML1 gene fusion that results from a cryptic t(12;21) is the most common genetic aberration in childhood B-lineage acute lymphoblastic leukemia (ALL). While the translocation may initiate the leukemic process, critical secondary genetic events are currently believed to be pivotal for leukemogenesis. We investigated 12 cases of childhood ALL with TEL/AML1 gene fusion by fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH) and documented additional or secondary genetic changes in seven patients (58%). Three patients showed extra copies of chromosome 21 including a case in which the trisomy 21 (+21) clone was distinct from the one harboring TEL/AML1 gene fusion. Interestingly, one patient without +21 showed amplification of the AML1 gene on chromosome 21q, supporting the contention that AML1 amplification may be an important additional genetic event. Gene expression study by semi-quantitative reverse-transcription polymerase chain reaction (RT-PCR) in two of these four patients showed an increase in AML1 transcripts that paralleled the increase in gene copy number. Deletion of the normal TEL allele was detected in two patients, with one of them showing loss of chromosome 12 together with duplication of the der(12)t(12;21). Finally, one patient showed duplication of the fusion signal. Our findings confirm that additional or secondary genetic changes including AML1 amplification are commonly encountered in childhood ALL with TEL/AML1 gene fusion, which are envisaged to play significant roles in disease progression.

Genetic imbalances in pT2 breast cancers of southern Chinese women.

While much information has been reported on the genetic alterations in breast cancers of Caucasians, little is known about the Oriental populations where breast cancers currently rank the second most common neoplasm. As a first step toward understanding the underlying genetics changes in this population, we used comparative genomic hybridization (CGH) to the genome-wide analysis of forty pT2 tumors from patients of a racially homogenous population in southern China. A complex pattern of genetic alterations emerged with the commonest chromosomal gains identified on 1q (58%), 8q (55%), 11q13 (25%), 16p (28%), 17q (53%) and 20q (35%), and frequent losses on 8p (38%), 11q (28%), 13q (30%) and 18q (25%). When breast cancers with and without lymph-node metastasis were compared, a higher copy gain of 10p was identified in the node-positive group (P=.036). An overall increase in the average number of genetic aberrations was also identified in the late onset group (>45 years)(P=.042) with a higher incidence of genetic losses noted (P=.035). In particular, losses on 16q were detected in 30% of the late onset patients but none in the early onsets (P=0.049). In this study, we have illustrated the pattern of genetic changes in breast tumors of southern Chinese females. While frequent 1q, 8q, 17q and 20q gains, and common 8p and 13q deletions detected were consistent to those aberrations reported from the Caucasian populations, the difference in genetic changes associated in lymph-node metastasis and age of onset identified should provide the basis for additional investigations into the underlying tumorigenesis in the Oriental population.

Genomic aberrations in human hepatocellular carcinomas of differing etiologies.

We sought to assess whether genetic abnormalities in hepatocellular carcinoma differed in geographic locations associated with different risk factors. Comparative genomic hybridization (CGH) was applied to the genome-wide chromosomal analysis in 83 tumor samples from four different geographic origins. Samples were obtained from regions that differed in aflatoxin exposure: China (Hong Kong with low aflatoxin exposure and Shanghai with moderate aflatoxin exposure), Japan, and the United States (negligible aflatoxin exposure). Cases from Hong Kong and Shanghai were all hepatitis B virus (HBV) related, those from Japan were hepatitis C virus related, and those from the United States were HBV negative. In parallel, the mutational pattern of the whole p53 gene (exons 1-11) was also investigated in these cases. CGH revealed a complex pattern of chromosomal gains and losses, with the commonest aberration in each geographic location being chromosome 1q copy number gain (38-60%). Shanghai cases displayed the highest number of total aberrations per sample, with significant copy losses on 4q (75%), 8p (70%), and 16q (65%). Hepatitis C virus-related samples from Japan had a characteristically high incidence of 11q13 gain. p53 mutation(s) was detected in 23% of Hong Kong cases, 40% of Shanghai, 31% of Japan, but only 6% of the United States cases. The "aflatoxin-associated" codon 249 mutation was, however, identified only in samples from China (13% Hong Kong and 20% Shanghai). This finding, together with the highly aberrant pattern of genetic changes detected in the Shanghai series, is suggestive of the genotoxic effects of aflatoxin being more broadly based. It is also likely that there is a synergistic effect of HBV infection and high aflatoxin exposure in promoting hepatocellular carcinoma development. It appears from our CGH study that individual risk factors are indeed associated with distinct genetic aberrations, although changes in 1q gain appear common to all.

Differential gene expression in nasopharyngeal carcinoma cells.

Nasopharyngeal carcinoma (NPC) is a common cancer among southern Chinese. The profile of gene expression in NPC cells is largely unknown. In this study, we have examined differential gene expression in non-malignant and malignant nasopharyngeal epithelial (NPE) cells using a cDNA array hybridization method. A total of 42 genes were identified to be expressed in either non-malignant and malignant NPE cells or both. Thirteen of these genes were overexpressed in malignant NPE cells. These includes nuclear factor (NF90), FOS-related antigen 1 (FRA- 1), cytoplasmic dynein light chain (HDLC1), replication factor C (RFC1), nucleoside diphosphate kinase B, UV excision repair protein (RAD23A), insulin-like growth factor receptor II, transcription initiation factor TFIID subunit (TAFII31), growth factor receptor-bound protein 2 (GRB2), UV excision repair protein (RAD23B), glutathione peroxidase, Y box binding protein 1 and heat shock protein 86. In contrast, expression of nine genes was suppressed in malignant NPE cells. These includes calgranulin A, calgranulin B, neutrophil activating protein (ENA-78), heat shock protein 27, integrin beta-1, integrin beta-4, cyclin-dependent kinase inhibitor 1A (p21), interleukin-8 and tyrosine protein kinase receptor (RET). Differential expression of calgranulin A, calgraunlin B, ENA-78, FRA-1 and NF90 in non-malignant and malignant nasopharyngeal epithelial cells was confirmed by RT-PCR analysis.

Identification of genes differentially expressed in nasopharyngeal carcinoma by messenger RNA differential display.

We have applied the mRNA differential display method to compare and analyze mRNAs prepared from five normal nasopharyngeal epithelial cell cultures and five nasopharyngeal carcinoma cell lines. A total of 24 differential display experiments was performed using different combinations of PCR primers. Sixty-nine cDNA fragments differentially expressed in either normal or malignant nasopharyngeal epithelial cells were identified. Subsequent cloning and sequencing of these differentially expressed cDNA fragments resulted in the identification of seventeen distinct sequences. Seven of these sequences were shown to be novel cDNA sequences not previously reported. Ten of the remaining cDNA fragments showed sequence homology to previously reported genes. Differential expression of four of these seventeen cDNA fragments in normal nasopharyngeal epithelial cells was confirmed by reverse Northern hybridization. One of these cloned cDNA fragments is a novel cDNA sequence while the other three matched to previously reported cDNA sequences involved in cell growth and migration. Homologous sequences identified to be differentially expressed in normal nasopharyngeal epithelial cells in this study are: human 26 kDa cell surface protein (TAPA-1) mRNA, NF-E2 like basic leucine zipper transcriptional activator and the human bullous pemphigoid antigen. The mRNA differential display is a useful tool to identify candidate genes involved in the pathogenesis of nasopharyngeal carcinoma.