Optimizing miR-29 measurements in biobanked, heparinized samples

Abstract Aims MicroRNAs (miRs) and their importance in development, normal physiology, and disease have become increasingly recognized. Our laboratory is interested in miR-29 and its effects on lung development. These studies set out to identify optimal conditions for the measurement of miR-29 in heparinized, biobanked samples and to compare isoform expression patterns. Materials and methods The efficiency of three distinct heparinases were tested using reverse transcriptase polymerase chain reaction (RT-PCR): recombinant F. Heparinum heparinase I; recombinant P. heparinus heparinase II; recombinant P. heparinus heparinase III; and heparinase I (B. efferthii-derived). The effects of freeze/thaws, and the relative expression of different miR-29 isoforms were also assessed using RT-PCR. Key findings Our investigations determined that heparinase 1 (recombinant F. Heparinum) and 2 (recombinant P. heparinus) at 1 or 2 h incubation efficiently neutralized heparin activity and prevented interference with the PCR. Also, a single freeze/thaw did not affect the measurement of miR-29-3p but multiple freeze/thaw cycles decreased the measureable miR levels. Finally, the -3p strand was most abundantly expressed in all three isoforms in both human and mouse plasma. Significance Our findings illustrate that specific conditions need to be optimized for the particular miR and the type of sample being tested.