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PURPOSE: Glaucoma is a complex neurodegenerative disorder of the eye. Primary open-angle glaucoma (POAG) is the most common type, accounting for over half the total cases. Recently, a significant difference in the distribution of the codon 72 polymorphism of the tumor suppressor gene p53 between control subjects and POAG patients of Chinese origin (p = 0.00782) was demonstrated. The proline residue at codon 72 of the p53 gene was significantly over represented in the POAG patients relative to healthy controls. The purpose of this study was to investigate whether the reported association between the p53 polymorphism and POAG is a common phenomenon irrespective of geographical location or ethnicity of the population. METHODS: Sixty-seven unrelated POAG patients, ranging from ten to 65 years of age (mean ± SD of 41.16 ± 18.52 years), and 112 control subjects of a similar age range of 18-63 years (mean ± SD of 36.64 ± 14.65 years) were enrolled in this study. A region of the p53 gene encompassing two polymorphic sites, a 16 bp duplication in intron 3 and a BstU I RFLP in exon 4, were amplified by polymerase chain reaction from Indian POAG patients and normal healthy controls. A single base change (G to C) in codon 72 alters the amino acid residue from arginine to proline and removes the polymorphic BstU I site mentioned above. The amplified DNA fragments were digested with the restriction enzyme and the digestion patterns of the fragments were used to identify the alleles for both the polymorphic sites. RESULTS: No significant association between p53 alleles and Indian POAG patients were observed by analyzing either codon 72 polymorphism (p = 0.5627) or the intronic 16 bp duplication polymorphism (p = 0.059). Haplotype analysis, reported to be a better predictor of association of the p53 gene with different types of cancer, was also performed and no association of any haplotype was detected with POAG (p = 0.1831). CONCLUSIONS: Association between the p53 gene encoding for proline at codon 72 and POAG presumably exists in some ethnic populations but cannot be used as a predictor for the role of the gene as a common regulator of cell death of retinal ganglions leading to POAG.
M. Acharya, MD, Human Genetics Genomics Division, Indian Institute of Chemical Biology, Jadavpur, Kolkata, India
1.2 Population genetics (Part of: 1 General aspects)