Adhesion of Flk1-expressing cells under shear flow in phospholipid polymer-coated immunoaffinity channels

Abstract

Abstract Label-free cell separation is a promising method in the field of stem-cell research to obtain desired cell populations. Here, we report on phospholipid polymer-coated microfluidic channels with immobilized antibodies as devices for the capture of cells expressing target antigens in a label-free manner. We fabricated a microfluidic channel containing immobilized antibodies against vascular endothelial growth factor receptor 2 (Flk1), a potential marker for cardiac, angiogenic, and hematopoietic cell regeneration. A series of investigations was carried out to elucidate the effect of the immobilized antibodies on the adhesion behavior of the Flk1-expressing cell subpopulation derived from induced pluripotent stem cells. Increasing the immobilized antibody density (0.18–5.0 × 109 ligands mm−2) led to an increased number of cells adhering to the channel. The antibody-immobilized polymer-coated surface suppressed nonspecific cell adhesion, which was swept away by a weak shear flow, and captured Flk1-expressing cells under a wall shear stress of 1.7 Pa. Flk1 expression was 2.8-fold higher in the cells that adhered than in those that did not adhere. Therefore, an optimal antibody density and sweeping flow are required for effective label-free separation of Flk1-positive cells.