Bee Leng Seet scite author profile

BACKGROUND p53 mutations are an early event in the multistep progression of gastric carcinoma. These mutations are often present in dysplastic and intestinal metaplastic gastric epithelium. However, the presence of immunohistochemically detectable p53 protein and p53 mutations in nondysplastic/nonmetaplastic gastric mucosa is more controversial. Recent reports have suggested that immunohistochemically detectable p53 protein may be present in the gastric epithelium of Helicobacter pylori gastritis. Furthermore, because cagA‐positive H. pylori is associated with greater mucosal injury but decreased apoptosis, it would be interesting to determine if this phenotype is associated with greater immunostaining of p53, as the wild‐type p53 gene helps to initiate apoptosis. METHODS One hundred thirty‐five patients with H. pylori‐associated gastritis were immunohistochemically stained for p53 and quantified for the extent and intensity of the staining using a semiquantitative method (0, nil staining; 6, extensive and strong staining). The cagA status of the organism was determined by Western blot. RESULTS Thirty‐one patients (23%) showed strong p53 staining (≥ 4 of 6) in inflamed but otherwise normal gastric epithelium. In the 123 cagA‐positive H. pylori gastritis patients, the average p53 staining score was 2.5 of 6. This is significantly higher than the corresponding score of 1.7 of 6 observed in the 12 patients with cagA‐negative H. pylori gastritis (P = 0.04). CONCLUSIONS Our results indicate that p53 protein is immunohistochemically detectable even before gastric metaplastic/dysplastic change occurs. The results also suggest that cagA‐positive H. pylori might be associated with greater p53 immunohistochemical staining. This would indicate that p53 immunohistochemical staining does not reliably differentiate between gastric dysplasia and reactive inflammatory atypia. If the p53 protein detected is a consequence of mutation, this would help to explain why cagA‐positive H. pylori gastritis is associated with decreased apoptosis. Cancer 2002;95:499–505. © 2002 American Cancer Society. DOI 10.1002/cncr.10697

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Are in vitro hepatitis B core promoter mutations important for clinical alterations in viral load?☆

Cheng

Seet

Ong

et al. 2006

Antiviral Research

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Intracellular Inhibition of Hepatitis B Virus S Gene Expression by Chimeric DNA-RNA Phosphorothioate Minimized Ribozyme

Tan

Zhou

Houssais

et al. 2002

Antisense and Nucleic Acid Drug Development

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Chronic hepatitis B virus (HBV) infection is a major problem in Asia. Current therapies for chronic hepatitis B have limited efficacy. The successful use of ribozymes for intracellular inhibition of HBV gene expression was recently reported. As an alternative to ribozymes, the use of DNA-containing, phosphorothioate-modified, minimized hammerhead ribozymes (minizymes) to inhibit hepatitis B surface antigen (HBsAg) expression and viral replication was investigated. Such molecules can be synthesized and supplied exogenously. Two conserved sites within the HBsAg open reading frame (ORF) were targeted. PLC/PRF5 cells or 2.2.15 cells were treated with minizymes or antisense oligomers to assess the effects on cell viability, HBsAg expression, and viral DNA production. Treatment with the minizyme, MZPS1, resulted in >80% inhibition of HBsAg expression in PLC/PRF5 cells. MZPS1 had more inhibitory effect than the antisense oligonucletoide target at the same region, whereas the control minizyme had little effect. Another gene-specific minizyme, MZPS2, did not show any effect. Treated cells remained fully viable. Treatment of 2.2.15 cells with MZPS1 also led to decreased HBsAg expression. In addition, a 2.3-fold decrease in viral production was observed. Our data showed that minizymes can inhibit HBV gene expression and may potentially be useful for clinical therapy against chronic HBV infection.

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Bee Leng Seet

Viral Quasi-Species Evolution During Hepatitis Be Antigen Seroconversion

Study of p53 immunostaining in the gastric epithelium of cagA‐positive and cagA‐negative Helicobacter pylori gastritis

Are in vitro hepatitis B core promoter mutations important for clinical alterations in viral load?☆

Intracellular Inhibition of Hepatitis B Virus S Gene Expression by Chimeric DNA-RNA Phosphorothioate Minimized Ribozyme

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