Background. Notwithstanding that prostate cancer is largely studied all over the world for many decades, its etiology is not known and there is an intensive work to elucidate the cause and molecular markers for the development of this male cancer. Polymorphisms in DNA repairing genes may affect the DNA repairing capacity that in turn contributes to cancer development. This study aims to explore the polymorphisms of homologous recombination (HR) RAD51 gene (rs1801320 and rs1801321) as a possible risk factor for developing prostate cancer. Sequencing of 5'-UTR of RAD51 gene (rs1801320 and rs1801321) was studied in 80 DNA samples of prostate cancer and 50 DNA samples from a control group. Our results revealed a significant correlation between rs1801320 G>C polymorphism and the presence of prostate cancer in the Jordanian population (p = 0.041, X2 = 6.377). On the other hand, the rs1801321 G>T polymorphism was not associated with the presence of prostate cancer in the study population (p = 0.27, X2 = 2.6). In conclusion, our results shed a light on the possible role of RAD51 gene polymorphisms in the development of prostate cancer; however, a larger representative study is needed to elucidate a possible role of RAD51 gene polymorphisms in development and prognosis of prostate cancer.
Recent advances in molecular biology make the identification of prostate cancer (PC) subsets a priority for more understanding of the molecular pathogenesis and treatment options. Genetic alterations in many genes such as TP53, SPOP and PIK3CA genes have been reported in PC with variable frequencies worldwide. We aimed to investigate genetic alterations in the hotspot lesions of TP53, SPOP and PIK3CA genes by direct sequencing and the expression of TP53 and PIK3CA by RT-PCR in prostate cancer, and to explore the correlation between TP53, SPOP and PIK3CA alterations and tumorigenesis of prostate cancer. Seventy-nine FFPE prostate samples from patients who underwent radical prostatectomy were obtained, subjected to genomic DNA extraction and sequenced for mutations in exons 5, 6, 7 and 8 of TP53 gene, exons 4 and 5 of SPOP gene and exons 9 and 20 of PIK3CA gene. RT-PCR was performed for the expression evaluation of the PIK3CA gene. Our results showed a high frequency of TP53 mutations (11/79, 13.9 %) in the selected population. On the other hand, SPOP and PIK3CA genes did not show any genetic alteration in the sequenced exons. PIK3CA gene overexpression was detected in 6% of the cohort by RT-PCR. TP53 mutation is the most frequent genetic alteration and likely has a major role in the pathogenesis of PC in the Jordanian population.
Background: Prostate cancer (PCa) is one of the most common types of cancer among men. Mutations and accumulation of chromosomal deviations are correlated with the development and aggressiveness of PCa. Cell cycle checkpoint pathways and DNA repair mechanisms are reported to deviate in cancers. Mammalian checkpoint kinase 1/2 (CHEK1/CHEK2) genes act as key signal transducers inside the genomic integrity checkpoints. CHEK1 and CHEK2 gene mutations were reported in a few different types of cancers. In PCa, CHEK2 mutations were studied, but CHEK1 gene variations were not well investigated. Objective: This study aimed to investigate the occurrence of variations in the CHEK1 and CHEK2 genes in PCa in the Jordanian population. Methods: Formalin-fixed paraffin-embedded PCa specimens of radical prostatectomy surgical procedures from 74 Jordanian patients were subjected to DNA extraction, polymerase chain reactions and Sanger sequencing to screen the mutations in selected exons of CHEK1 and CHEK2 tumor suppressor genes. Results: The presence of F281L (T/C) (1.4%) homologous missense point mutation in the kinase domain of the CHEK2 gene and P188P (1.4%) silent point mutation in the kinase domain of the CHEK1 gene. In addition, the 1100delC mutation was not detected in the studied PCa specimens. Conclusion: In line with previous reports, the presence of CHEK2 mutation with a frequency of 1.4% supported the possible role of genetic variants of this gene in the development of PCa. No 1100delC mutation was detected in this study. No association was found in this study between CHEK1 mutations and the development of PCa. Further studies are needed with larger cohorts along with a screening of more exons in order to shed more light on the frequency of CHEK2 gene mutations and their role in the development of PCa in Jordan.
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