Extreme
rarity and inherent heterogeneity of circulating tumor
cells (CTCs) result in a tremendous challenge for the CTC isolation
from patient blood samples with high efficiency and purity. Current
CTC isolation approaches mainly rely on the epithelial cell adhesion
molecule (EpCAM), which may significantly reduce the ability to capture
CTCs when the expression of EpCAM is lost or down-regulated in epithelial–mesenchymal
transition. Here, a rapid and highly efficient method is developed
to isolate and identify heterogeneous CTCs with high efficiency from
patient blood samples using the fluorescent-magnetic nanoparticles
(F-MNPs). A dual-antibody interface targeting EpCAM and N-cadherin
is fabricated onto the F-MNPs to capture epithelial CTCs as well as
mesenchymal CTCs from whole blood samples. The poly(carboxybetaine
methacrylate) brushes of excellent antifouling properties are employed
to decrease nonspecific cell adhesion. Moreover, the F-MNPs provide
a prompt identification strategy for heterogeneous CTCs (F-MNPs+,
Hoechst 33342+, and CD45−) that can directly identify CTCs
in a gentle one-step processing within 1 h after isolation from patient
blood samples. This has been demonstrated through artificial samples
as well as patient samples in details.
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