The History and Future of Basic and Translational Cell-Free DNA Research at a Glance.

We discuss the early history of the structure of DNA and its involvement in gene structure as well as its mobility in and between cells and between tissues in the form of circulating cell-free DNA (cfDNA). This is followed by a view of the present status of the studies on cfDNA and clinical applications of circulating cell-free tumor DNA (ctDNA). The future developments and roles of ctDNA are also considered.

Towards systematic nomenclature for cell-free DNA.

Cell-free DNA (cfDNA) has become widely recognized as a promising candidate biomarker for minimally invasive characterization of various genomic disorders and other clinical scenarios. However, among the obstacles that currently challenge the general progression of the research field, there remains an unmet need for unambiguous universal cfDNA nomenclature. To address this shortcoming, we classify in this report the different types of cfDNA molecules that occur in the human body based on its origin, genetic traits, and locality. We proceed by assigning existing terms to each of these cfDNA subtypes, while proposing new terms and abbreviations where clarity is lacking and more precise stratification would be beneficial. We then suggest the proper usage of these terms within different contexts and scenarios, focusing mainly on the nomenclature as it relates to the domains of oncology, prenatal testing, and post-transplant surgery surveillance. We hope that these recommendations will serve as useful considerations towards the establishment of universal cfDNA nomenclature in the future. In addition, it is conceivable that many of these recommendations can be transposed to cell-free RNA nomenclature by simply exchanging "DNA" with "RNA" in each acronym/abbreviation. Similarly, when describing DNA and RNA collectively, the suffix can be replaced with "NAs" to indicate nucleic acids.

Circulating nucleic acids and evolution.

INTRODUCTION: J.B. Lamarck in 1809 was the first to present a theory of evolution. He proposed it was due to the adaptation of species to environmental changes, this adaptation being acquired by the offspring. In 1868, Darwin suggested that cells excrete gemmules, which circulate through the body and reach the gonads where they are transmitted to the next generation. His main argument came from graft hybrids. AREAS COVERED: In the fifties and sixties, Russian geneticists, rejecting neo-Darwinism, said that acquired characteristics were the basis of evolution. The main experiments on which they based their theory were the transmission of hereditary characteristics by a special technique of grafting between two varieties of plants. We repeated this kind of experiment and also succeeded in obtaining hereditary modifications of the pupil plants that acquired some characteristics of the mentor variety. Rather than adopting the views of the Russian scientists, we suggested that DNA was circulating between the mentor and pupil plants. Hirata's group have shown recently, by using molecular techniques such as cloning, RFLP PCR and sequencing some genes of their graft hybrids of pepper plants, that transfer of informative molecules from the mentor to the pupil plant does exist. Nucleic acids are actively released by cells; they circulate in the body. They can transform oncogenically or trigger antibody response but the only genetic transformation showing that DNA can go from the soma to the germen comes from graft hybrids. EXPERT OPINION: This suggests that circulating nucleic acids, in this case DNA, like Darwin's gemmules, play a role in the mechanism of evolution.

Cancer progression mediated by horizontal gene transfer in an in vivo model.

It is known that cancer progresses by vertical gene transfer, but this paradigm ignores that DNA circulates in higher organisms and that it is biologically active upon its uptake by recipient cells. Here we confirm previous observations on the ability of cell-free DNA to induce in vitro cell transformation and tumorigenesis by treating NIH3T3 recipient murine cells with serum of colon cancer patients and supernatant of SW480 human cancer cells. Cell transformation and tumorigenesis of recipient cells did not occur if serum and supernatants were depleted of DNA. It is also demonstrated that horizontal cancer progression mediated by circulating DNA occurs via its uptake by recipient cells in an in vivo model where immunocompetent rats subjected to colon carcinogenesis with 1,2-dimethylhydrazine had increased rate of colonic tumors when injected in the dorsum with human SW480 colon carcinoma cells as a source of circulating oncogenic DNA, which could be offset by treating these animals with DNAse I and proteases. Though the contribution of biologically active molecules other than DNA for this phenomenon to occur cannot be ruled out, our results support the fact that cancer cells emit into the circulation biologically active DNA to foster tumor progression. Further exploration of the horizontal tumor progression phenomenon mediated by circulating DNA is clearly needed to determine whether its manipulation could have a role in cancer therapy.

Quantification of free total plasma DNA and minimal residual disease detection in the plasma of children with acute lymphoblastic leukemia.

The analysis of total plasma DNA and the monitoring of leukemic clone-specific immunoglobulin and/or T-cell receptor gene rearrangements for the evaluation of minimal residual disease (MRD) in the plasma may be useful tools for prognostic purposes or for early detection of subclinical disease recurrence in children with acute lymphoblastic leukemia (ALL). The aim of this paper is to establish reference ranges for total plasma DNA concentrations and to test the feasibility of MRD measurements employing plasma DNA from children with ALL by using real-time quantitative (RQ)-PCR. Despite wide inter-individual variation, the median concentrations of total plasma DNA for 12 healthy donors (57 ng/ml), 21 children with ALL after day 4 of treatment initiation (62 ng/ml) and 13 children with other malignancies (76 ng/ml) were similar. However, ALL patients had significantly higher concentrations at diagnosis (277 ng/ml) and on treatment day 3 (248 ng/ml) before returning to normal afterwards. Early plasma DNA MRD kinetics could be established for 15 ALL patients and showed good concordance with bone marrow MRD. Plasma DNA was higher in children with ALL at diagnosis but returned to normal within the first four treatment days. Despite low concentrations of DNA, it is feasible to measure MRD kinetics in plasma DNA during ALL induction therapy by adapted real-time PCR methodologies.

Transcession of DNA from bacteria to human cells in culture: a possible role in oncogenesis.

The human organism is continuously in close contact with microorganisms, especially bacteria. In the present work, by means of a real-time polymerase chain reaction (PCR) technique, we looked for the presence of a distinct bacterial gene in human cells. To this end, we cultured a human cell line, HL60, in a supernatant in which bacteria (Bacillus subtilis) had been grown. A transient transcession of bacterial DNA into the human cells was observed.

Plasma DNA microsatellite panel as sensitive and tumor-specific marker in lung cancer patients.

The majority of lung cancer patients have tumor-derived genetic alterations in circulating plasma DNA that could be exploited as a diagnostic tool. We used fluorescent microsatellite analysis to detect alterations in plasma and tumor DNA in 34 patients who underwent bronchoscopy for lung cancer, including 11 small cell lung cancer (SCLC) and 23 nonsmall cell lung cancer (NSCLC) (12 adenocarcinomas, 11 squamous cell carcinomas) and 20 controls. Allelotyping was performed with a selected panel of 12 microsatellites from 9 chromosomal regions 3p21, 3p24, 5q, 9p, 9q, 13q, 17p, 17q and 20q. Plasma DNA allelic imbalance (AI) was found in 88% (30 of 34 patients), with a similar sensitivity in SCLC and NSCLC. In the 24 paired available tumor tissues, 83% (20 of 24) presented at least 1 AI. Among these patients, 85% (17 of 20) presented also at least 1 AI in paired plasma DNA, but the location of the allelic alterations in paired plasma and tumor DNA could differ, suggesting the presence of heterogeneous tumor clones. None of the 20 controls displayed plasma or bronchial DNA alteration. A reduced panel of six markers (at 3p, 5q, 9p, 9q) showed a sensitivity of 85%. Moreover, a different panel of microsatellites at 3p and 17p13 in SCLC and at 5q, 9p, 9q and 20q in NSCLC patients could be specifically used. Analysis of plasma DNA using this targeted panel could be a valuable noninvasive test and a useful tool to monitor disease progression without assessing the tumor.