Poly(ethylene glycol) functionalization of monolithic poly(divinyl benzene) for improved miniaturized solid phase extraction of protein-rich samples

摘要

Non-specific protein adsorption on hydrophobic solid phase extraction (SPE) adsorbents can reduce the efficacy of purification. To improve sample clean-up, poly(divinyl benzene) (PDVB) monoliths grafted with hydrophilic polyethylene glycol methacrylate (PEGMA) were developed. Residual vinyl groups (RVGs) of the PDVB were employed as anchor points for PEGMA grafting. Two PEGMA monomers, M (n) 360 and 950, were compared for graft solutions containing 5-20 monomer. Protein binding was qualitatively screened using fluorescently labeled human serum albumin (HSA) to determine optimal PEGMA concentration. The fluorescent signal of PDVB was reduced for PDVB-g-PEGMA(360) (10) and PDVB-g-PEGMA(950) (20). The PEGMA content (w/w) was quantified by solid state H-1 NMR to be 29.9 +/- 1.6 for PDVB-g-PEGMA(360) and 7.7 +/- 1.2 for PDVB-g-PEGMA(950). To assess adsorbent performance breakthrough curves for PDVB, PDVB-g-PEGMA(360) and PDVB-g-PEGMA(950) were compared. The breakthrough volume (V (B)) and shape of the curve for PDVB-g-PEGMA(950) were maintained relative to PDVB (2.3 and 2.8 mL, respectively). A reduced V (B) of 0.5 mL and shallow breakthrough curve indicated PDVB-g-PEGMA(360) was not suitable for SPE. A high ibuprofen recovery of 92 +/- 0.30 and 78 +/- 0.93 was seen for PDVB and PDVB-g-PEGMA(950), respectively. Protein adsorption was reduced from 31 +/- 2.41 to 12 +/- 0.49 for PDVB and PDVB-g-PEGMA(950), respectively. SPE of ibuprofen from plasma was compared for PDVB and PDVB-g-PEGMA(950) by at-line electrospray ionization mass spectrometry (ESI-MS). PDVB-g-PEGMA(950) demonstrated a threefold increase in assay sensitivity indicating a superior analyte purification.