Angélica Alves Lima

Cell-Free HPV-DNA in Screening, Diagnosis, Prognosis, and Treatment Response Monitoring of Cervical Cancer

Persistent infection with high-risk human papillomavirus (HPV) is a significant factor in cervical cancer (CC) development. Although CC screening programs have reduced the incidence of this neoplasm, the number of deaths remains high, especially in developing countries: CC remains the fourth most common neoplasm in the female population globally. Currently, an HPV test has been replacing cytological analysis because it is a more sensitive screening method. However, the collection of gynecological material is still necessary, which can be a barrier to adherence to testing in the target population. Host cells presenting with a viral infection release fragments of their DNA into circulation, known as cell-free DNA (cfDNA); this allows detection through venous puncture, a routine procedure in clinical laboratories. Thus, the objective of this review was to evaluate the role of cfDNA of HPV (cfHPV-DNA) as an alternative tool for CC screening, diagnosis, prognosis, and treatment response monitoring. Furthermore, the development of sensitive methods, such as droplet digital PCR (ddPCR) and next-generation sequencing (NGS), have proven useful in identifying tumor markers for CC. The specificity of the primers, the size of the target DNA fragments, and variables such as sample type and volume, in addition to the cfDNA extraction kit used, can influence the results of cfHPV-DNA detection. Although the detection of cfHPV-DNA in plasma and serum of patients with CC is feasible, there were conflicting results regarding cfHPV-DNA detection in the blood circulation of patients with premalignant lesions. On the other hand, when CC is already established, the detection and quantification of cfHPV-DNA have shown potential as a biomarker for tumor staging, prognosis definition, and treatment response monitoring.

Levels of Folate and Vitamin B12, and Genetic Polymorphisms Involved in One-Carbon Metabolism May Increase the Risk of Cervical Cytological Abnormalities

To analyze the association of cervical cytological abnormalities with genetic polymorphisms of enzymes involved in folate metabolism, and the effect of micronutrients on association of polymorphisms with cervical carcinogenesis. Our samples were divided in Control (120 women with normal cytology), and Cases: 37 women with Atypical Squamous Cells of Undetermined Significance(ASC-US), 33 participants presenting Low-Grade Squamous Intraepithelial Lesion(LSIL), and 24 women presenting High-Grade cervical lesions(HSIL/ASC-H). We obtained cervical samples for cytological analysis, HPV detection, and analysis of polymorphisms and cervical cell folate. Blood samples were obtained for serum folate and vitamin B12 evaluation. To analyze all polymorphisms simultaneously, we calculated Genetic Risk Score(GRS). Median concentrations were used as cutoff for determination of micronutrient levels. We observed no differences of genotype or allelic frequencies of polymorphisms according to cervical lesions. However, high levels of cervical cell folate and high number of genetic alterations increased risk of High-Grade lesions [OR(IC95%):1.85(0.42-8.11)]. Instead, women with vitamin B12 ≤ 274 pg/ml and GRS ≥ 3 presented even greater risk of HSIL/ASC-H [OR(IC95%):2.91(0.46-18.62)]. High frequency of genetic polymorphisms involved in one-carbon metabolism associated with high levels of cell folate or low levels of serum vitamin B12, increased the risk of High-Grade lesion in uterine cervix.