A phenol-free method for isolation of microRNA from biological fluids.

MicroRNAs (miRNAs) found in biological fluids such as blood and urine have been identified as promising biomarkers for many human disorders, including cancer, cardiopathies, and neurodegenerative diseases. However, circulating miRNAs are either encapsulated into vesicles or found in complexes with proteins and lipoproteins and, thus, require a special approach to their isolation. Acid phenol-chloroform extraction can solve this problem, but it is a labor-intensive procedure that relies heavily on the use of hazardous chemicals. Here we describe a fast and simple phenol-free protocol for miRNA isolation from biofluids. MiRNA is extracted from complexes with biopolymers by a high concentration of guanidine isothiocyanate combined with water/organic composition of solvents. Purification is finished using silica-based spin columns. Comparison of miRNA isolation from blood plasma and urine using the single-phase method and acid phenol-chloroform extraction by means of radioisotope spike-ins and quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR) showed similar performance of the two methods.

A comparative study of cell-free apoptotic and genomic DNA using FISH and massive parallel sequencing.

OBJECTIVE: Study of circulating DNA (cirDNA) generation mechanisms with respect to their influence on the content of cirDNA is very important since it could indicate the best molecular targets for diagnostic applications. Since apoptosis was shown to be one of the main sources of cirDNA, we performed in vitro comparative study of cell-free apoptotic and genomic DNA (gDNA). METHODS: DNA isolated from culture medium of apoptotic human umbilical vein endothelial cells (cm-apoDNA) and the gDNA from the same living cells was analyzed using FISH and sequenced on SOLiD 3 platform. RESULTS/CONCLUSIONS: FISH demonstrates overrepresentation of C-positive chromosome regions in cm-apoDNA. SOLiD 3 data show enrichment of cm-apoDNA for Alu repeats: the content of AluJ, AluS and AluY repeats was, respectively, 2.47-fold (standard deviation (SD) 3.6%), 2.45-fold (SD 5.5%) and 2.79-fold (SD 6.1%) higher in cm-apoDNA. By contrast, some of L1 elements were underrepresented in cm-apoDNA: the content of L1MA and L1ME was, respectively, 1.4-fold (SD 22%) and 1.45-fold (SD 9%) lower in cm-apoDNA. In contrast to FISH, these data and the predominant location of Alu repeats in euchromatic regions evidence the non-uniform gDNA degradation during apoptosis leading to the enrichment of cm-apoDNA with coding sequences.

Cell-free and cell-bound circulating nucleic acid complexes: mechanisms of generation, concentration and content.

INTRODUCTION: Extracellular nucleic acids are found in human blood and cell culture medium as cell-free or being adsorbed at cell surface. In the last years, the circulating extracellular nucleic acids in blood were shown to be associated with certain diseases. Attempts are made to develop non-invasive methods of early tumor diagnostics based on analysis of circulating DNA and RNA. AREAS COVERED: This article reviews accumulating data regarding cell-free and cell-surface-bound extracellular nucleic acid nature and generation mechanisms. Their existence as a constituent of the naturally occurring complexes with proteins or membrane-bearing particles is discussed with regard to their homeostatic concentration and distribution in healthy donor blood which are significantly altered in cancer patients. Gene-target and whole-genome studies reveal significant differences in gene representation between extracellular DNA and genome DNA. Overrepresentation of regions with high transcription activity has led to proposal that extracellular DNA generation is strongly dependent on the parent genome functionality, which is associated with chromosome packaging and DNA methylation levels. EXPERT OPINION: Recent studies provide evidence of the circulating nucleome organization complexity indicating that discovery of extracellular DNA generation and circulation patterns in healthy condition and cancer is essential to enable the development of proper approaches for the selection of valid diagnostic markers.