Application of Magnetic Nanoparticles Coated with Crosslinked Zwitterionic Poly(ionic liquid)s for the Extraction of Oligonucleotides

A simple and green solid phase extraction method for oligonucleotides using adsorbent with amino and carboxylic moieties

The study aimed to use a material with amino and carboxylic moieties to extract unmodified and phosphorothioate oligonucleotides. The charge of amine and carboxyl groups at the surface has changed with the change in pH of the adsorption (pH 4.5) and desorption solution (pH 9.5). Thus, both the binding and elution of the oligonucleotides were based on electrostatic interactions, and the procedure required only 10 mM ammonium acetate, with the change of pH depending on the extraction step. The developed procedure was successfully applied to extract oligonucleotides from aqueous solutions and serum samples. The method is simple and fast, providing good reproducibility (SD between 1 and 4%) and relatively high oligonucleotide recovery (81-98% for standards, 60-71% for diluted serum samples, and 80-92 for LLE serum extracts). Moreover, only environmentally friendly solvents were used.

Development of the Method for Nusinersen and Its Metabolites Identification in the Serum Samples of Children Treated with Spinraza for Spinal Muscular Atrophy

The application of oligonucleotides as drugs for different genetic diseases is increasing rapidly. Since 2016 they are used during spinal muscular atrophy treatment with the use of nusinersen oligonucleotide. The purpose of this study was to improve methods for the analysis of serum samples of patients treated with nusinersen. The results showed that liquid-liquid extraction (with phenol/chloroform) is insufficient and an additional purification step using solid-phase extraction is necessary. The best results were obtained for microextraction by packed sorbents. Important parameters in the optimization of the method were mainly the type of amine in the mobile phase and the stationary phase. Both influenced the selectivity of metabolite separation and thus their correct identification; while amine type impacted also the intensity of signals. Finally, the highest resolution of separation and the highest peak areas were obtained for N,N-dimethylbutylamine or N,N-diisopropylthylamine with an octadecyl column with a terminal aryl group. Over a dozen of metabolites were successfully identified with the use of methods developed during the study. The 3′ exonucleases and 5′ exonucleases were mainly responsible for nusinersen metabolism, consequently, 3′end shortmers, and 5′end shortmers were observed, as well as metabolites with simultaneous loss of bases at both ends of the sequence. However, some depurination and depyrimidination products were also identified. To the best of our knowledge, this is the first report on nusinersen and its metabolite identification in serum samples by liquid chromatography and mass spectrometry.