VariaÃÃes transcricionais dos genes AR, SRD5A2, KLK2, PCA3, KLK3 e PSMA e implicaÃÃes no diagnÃstico molecular do cÃncer de prÃstata

AUTOR(ES)
DATA DE PUBLICAÇÃO

2007

RESUMO

CHAPTER I - Prostate cancer is a common disease in the world and in some countries it is one of the main causes of male population mortality. Some molecular markers have been associated with prostate carcinogenesis. To observe changes in transcript levels of the AR, SRD5A2, KLK2, PSMA and PCA3 genes, the mRNA was analyzed in tissues with prostatic adenocarcinoma (PCa, N= 48) and benign prostatic hyperplasia (BPH, N= 25), performed through a differential multiplex RT-PCR assay. Significant differences were observed in the relative expression of these genes between cancerous and non-cancerous tissues. The optical density ratio of the cDNA amplicons between PCa and BPH for the AR gene was 1.6-fold higher for the prostatic adenocarcinoma. On the other hand, the SRD5A2 mRNA levels were associated with BPH and were 1.4-fold higher than that of PCa. For KLK2, PSMA and PCA3, the transcriptional levels were respectively, 1.9-, 1.9- and 5-fold higher in PCa than those in BPH tissues. Of the diagnostics tests carried through individually, the PCA3 gene was that presented higher sensitivity and accuracy, and the inclusion of the serum PSA improved the sensitivity (of 76 to 92%), positive preditive value (of 85 to 94%), negative preditive value (of 60 to 62%) and accuracy (of 74 to 78%). The results suggest that the higher AR, KLK2, PSMA, and PCA3 and/or reduced SRD5A2 genes expression in prostatic tissues may indicate the occurrence of prostate adenocarcinoma; however the PCA3 and serum PSA analysis together are highly promising as auxiliary method in the diagnosis of this cancer. CHAPTER II - Purpose: Prostate cancer (PCa) is the most commonly diagnosed malignancy in men, and it consists of multifactorial and multifocal events. Due to the complexity of the disease process, which includes genome alterations, local invasion, micrometastatic cell extravasations to circulation, invasion of secondary organ tissues, and resistance to hormonal blockage, many markers must be used to represent the multiple and variable events that lead to cancer development. The low specificity of the unique serum marker for prostate cancer diagnostics, PSA, has leaded us to investigate four potential markers in the peripheral blood of patients by detecting their mRNA levels and associating them to clinical parameters. Methods: The expression levels of the KLK2, KLK3, PCA3 and PSMA transcripts were determined by Nested RT-PCR. Patients with PCa (99) and with benign prostatic hyperplasia (BPH, 36), and healthy volunteers (104) were investigated. Results: Significant differences for the RNA relative levels have been found for the KLK2, PCA3 and PSMA transcripts between PCa and BPH patients or healthy volunteers. The KLK2 and PSMA levels also presented a positive association (P<0.05) with extra-prostatic disease (pT3). The combined positive RT-PCR Nested for the KLK2, PCA3, PSMA genes with serum PSA higher than 4ng/mL presented a 10-fold higher chance of cancer occurrence than healthy controls, with sensitivity, specificity and positive predictive value of 57%, 89% and 93%, respectively. Conclusions: The combined analysis of KLK2, PCA3 and PSMA transcripts may become a useful tool for the discrimination of PCa patients from those with benign disease or healthy individuals. Additionally, the KLK2 and PSMA transcripts may also be used as prognostic markers for the presence of extra-capsular disease and assisting in the prediction of the post-operative outcome. CHAPTER III - Purpose: Transcripts of PCA3/DD3 gene are at the moment the most specific molecule found in prostate cancer specimens. This mRNA can be detected in important sample targets for clinical analyses, such as prostatic tissues, urine after prostatic massage, and the peripheral blood. Methods: The present study evaluated the PCA3 gene expression in prostatic tissues and in peripheral blood of BPH and PCa patients, by RT-PCR assays, and based on its detection together with other clinical parameters, we proposed a model for molecular monitoring in order to improve diagnosis as an auxiliary technology. Results: The concomitant use of PCA3 transcript detection in the peripheral blood and in prostate tissues has improved diagnosis, with sensitivity and an accuracy of 77%. For the molecular staging, patients have been classified as: localized disease (PBL-; negative PCA3) and circulating tumors cells disease (PBL+; positive PCA3). The higher frequencies of PBL- had been observed in T1-T2 stages (75%); on the other hand, the higher PCA3 positivity was observed for the T3-T4 staging (43%), while the T1-T2 stages presented 25% positivity. A correlation was found between the molecular staging and serum PSA <10ng/mL before surgery, and approximately 60% of patients with T3-T4 stages that presented biochemical failure after radical prostatectomy presented a positive PCA3 result (P= 0.05), with an odds ratio of 16-fold higher for the possibility of disease recurrence in relation to the T1-T2 patients, and an accuracy of 82%. Conclusion: These data demonstrated the importance of the PCA3 gene as an auxiliary method in prostate cancer diagnosis, by distinguishing PCa from BPH patients, and also demonstrated its prognostic value in recurrent disease for post-operative patients. CHAPTER IV - Approximately 98% of all the products transcribed in the human genome correspond to non coding RNAs (ncRNA). Many ncRNA functions are attributed to this structural particularity given mainly for the secondary structures formed from its linear sequence of bases. Among the ncRNA types are tRNA, rRNA, small nuclear RNA, small nucleolar RNA, small interference RNA (siRNA), microRNA (miRNA) and catalytic RNAs (ribozymes). The bioinformatics has supplied useful tools in the prediction of optimal or suboptimal secondary structures allowing the design of interference RNA as miRNAs or siRNAs. In human, miRNAs have been associated with the development of diverse complex diseases as cancer. The PCA3 (DD3) gene was molecularly characterized as cancer and prostate specific, and its transcripts are non-coding, once no peptide products have been found. Due to its structural characteristics, the PCA3 gene belongs thus to the increasing family of ncRNA. In the present work, four new variant molecules of the PCA3 gene have been sequence characterized and their frequencies demonstrated in prostate cancer and in benign prostatic hyperplasia patients, as well as in healthy individuals. We have also investigated and predicted the putative secondary structures formed in order to elucidate its role in prostate cancer biology. No association has been found between the frequency of these molecules and prostate pathologies (PCa or BPH). On the other hand, PCA3 variants were found in 10% (12/115) of cases in the general population. Similar analyses of the possible polypeptides of these molecules demonstrated that it remains as a non-coding RNA, and introns presents in the first, second and fourth variants suggesting a possible role as a miRNA with intracellular activity to these molecules to the PCA3 gene. In prostatic tissues, 100% of the prostate cancer cases presented the RNA molecule with an exon 2 splicing. However, further investigation must be carried out to demonstrate the true role of these splicing variants in prostate tumors and in other pathologies, once these molecules have been preferentially found in the peripheral blood.

ASSUNTO(S)

genetica klk2 rt-pcr multiplex hiperplasia prostÃtica benigna hiperplasia benigna benign prostatic hyperplasia peripheral blood rt-pcr prÃstata ar psma expressÃo gÃnica marcadores moleculares gene expression rt-pcr pca3/dd3 rna folding srd5a2 pca3 cÃncer de prÃstata sangue perifÃrico prostate cancer molecular markers benign hyperplasia

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