Beyond Standard Practice in Liquid Biopsy: Selective Venous Sampling.

Liquid biopsy is a molecular diagnostic procedure that aims to provide readily accessible genetic profiling of tumors for primary diagnosis, detection of minimal residual or metastatic disease, and therapeutic decision-making, especially for molecularly targeted treatments. Cancers release various biological markers into the circulation, although the most widely used are cell-free tumor DNA and circulating tumor cells. The paucity of biological material means that laboratory methods mainly based on genetic sequencing expose this innovative diagnostic method to a considerable incidence of false negatives. The 3 cases presented here show how the sensitivity and specificity of liquid biopsy may be improved through selective venous sampling.

Automation of ALK gene rearrangement testing with fluorescence in situ hybridization (FISH): a feasibility study.

In the past several years we have observed a significant increase in our understanding of molecular mechanisms that drive lung cancer. Specifically in the non-small cell lung cancer sub-types, ALK gene rearrangements represent a sub-group of tumors that are targetable by the tyrosine kinase inhibitor Crizotinib, resulting in significant reductions in tumor burden. Phase II and III clinical trials were performed using an ALK break-apart FISH probe kit, making FISH the gold standard for identifying ALK rearrangements in patients. FISH is often considered a labor and cost intensive molecular technique, and in this study we aimed to demonstrate feasibility for automation of ALK FISH testing, to improve laboratory workflow and ease of testing. This involved automation of the pre-treatment steps of the ALK assay using various protocols on the VP 2000 instrument, and facilitating automated scanning of the fluorescent FISH specimens for simplified enumeration on various backend scanning and analysis systems. The results indicated that ALK FISH can be automated. Significantly, both the Ikoniscope and BioView system of automated FISH scanning and analysis systems provided a robust analysis algorithm to define ALK rearrangements. In addition, the BioView system facilitated consultation of difficult cases via the internet.

Olfactory receptor genes and chromosome 11 structural aberrations: Players or spectators?

The largest multi-gene family in metazoans is the family of olfactory receptor (OR) genes. Human ORs are organized in clusters over most chromosomes and seem to include >0.1% the human genome. Because 369 out of 856 OR genes are mapped on chromosome 11 (HSA11), we sought to determine whether they mediate structural rearrangements involving this chromosome. To this aim, we analyzed 220 specimens collected during diagnostic procedures involving structural rearrangements of chromosome 11. A total of 222 chromosomal abnormalities were included, consisting of inversions, deletions, translocations, duplications, and one insertion, detected by conventional chromosome analysis and/or fluorescence in situ hybridization (FISH) and array comparative genomic hybridization (array-CGH). We verified by bioinformatics and statistical approaches the occurrence of breakpoints in cytobands with or without OR genes. We found that OR genes are not involved in chromosome 11 reciprocal translocations, suggesting that different DNA motifs and mechanisms based on homology or non-homology recombination can cause chromosome 11 structural alterations. We also considered the proximity between the chromosomal territories of chromosome 11 and its partner chromosomes involved in the translocations by using the deposited Hi-C data concerning the possible occurrence of chromosome interactions. Interestingly, most of the breakpoints are located in regions highly involved in chromosome interactions. Further studies should be carried out to confirm the potential role of chromosome territories' proximity in promoting genome structural variation, so fundamental in our understanding of the molecular basis of medical genetics and evolutionary genetics.

Case Report: Potential role of selective venous sampling for liquid biopsy in complex clinical settings: Three case presentations.

Tumor mutation profiling from a blood sample, known as liquid biopsy, is a reality that has already been approved for some cancers. This molecular diagnostic method complements tissue biopsy but is less invasive and therefore more easily applied, especially during tumor evolution. Its use should allow detection of residual disease, evaluation of treatment response or resistance, and selection of targeted treatments. However, implementation of liquid biopsy in routine clinical practice is hindered by unsolved issues, one of which is the scarcity of circulating tumor DNA in blood samples drawn from peripheral veins. To address this problem, we propose minimally invasive selective venous sampling from the region of interest, as used for some hormonal studies and for mapping of endocrine tumors. Intuitively, selective sampling should improve the sensitivity of liquid biopsy by avoiding the dilution of tumor biomarkers that occurs in the peripheral circulation. We report three cases that illustrate the potential utility of selective liquid biopsy in complex clinical settings, providing implications for diagnosis and treatment as well as for monitoring over time, disease localization, identification of drug resistance, and differential diagnosis.

Clinical Role of the Detection of Human Telomerase RNA Component Gene Amplification by Fluorescence in situ Hybridization on Liquid-Based Cervical Samples: Comparison with Human Papillomavirus-DNA Testing and Histopathology.

OBJECTIVE: This study was designed to evaluate whether the adjunct of human telomerase RNA component (hTERC) fluorescence in situ hybridization (FISH) analysis to cytological diagnosis and human papillomavirus (HPV)-DNA testing may serve as a predictive marker for distinguishing cervical lesions destined to regress from those at high risk of progression towards invasive cancer. STUDY DESIGN: hTERC FISH analysis was performed on 54 residual liquid-based cytology specimens obtained from women referred to colposcopy for the detection of atypical squamous cells of undetermined significance or worse (ASCUS+) lesions. Histological diagnosis was considered the gold standard and cervical intraepithelial neoplasia of grade 2 or worse (CIN2+) as the worst outcome. RESULTS: Oncogenic HPV-DNA was found in 96.3% of the specimens. Among these, 38.5% revealed a CIN2+ diagnosis. hTERC gene amplification was detected in 37% of the cases; among these, 70% showed up as CIN2+. hTERC FISH analysis significantly improves the specificity and positive predictive value of HPV-DNA testing, thus differentiating patients with a CIN2+ diagnosis from those with a CIN2- diagnosis. CONCLUSIONS: Despite the limitation of a small study sample, our findings provide promising data, indicating the possible role of hTERC analysis in the assessment of the risk of developing cervical cancer. This approach would implement the specificity of DNA testing, avoiding overtreatment at the same time. Prospective follow-up studies are needed with the aim of introducing hTERC FISH into decision-making algorithms.

Gain of hTERC: a genetic marker of malignancy in oral potentially malignant lesions.

Oral squamous cell carcinoma (OSCC) is the most common oral cancer, and major efforts is being made to identify molecular markers capable to differentiate oral potentially malignant lesions (OPMLs) with indolent course from lesions with aggressive behavior. We undertook a study to evaluate if gain of the human telomerase RNA component (hTERC) gene in OPMLs could indicate lesions at high risk of developing OSCC. The study was performed on 30 OPMLs with long-term follow-up using a dual-color interphase fluorescence in situ hybridization (FISH) for hTERC status. Progression to malignancy was observed in 9 of 10 cases harboring hTERC gain and in 1 of 20 cases retaining a normal copy number of hTERC (P < .0001). Combining morphological grading and FISH analysis, all the cases with high-grade squamous intraepithelial lesion or carcinoma in situ harboring hTERC amplification progressed to OSCC, whereas none of the low-grade squamous intraepithelial lesions without hTERC gain progressed. Intermediate situations occurred. The data suggest that precise morphological evaluation together with FISH assessment for hTERC gain might pave the way to stratify OPMLs into high-risk and low-risk categories and could be helpful in selecting the most appropriate treatment.