posted on 2019-04-17, 00:00authored byJason Kuhn, Asya Smirnov, Alison K. Criss, Linda Columbus
Carcinoembryonic
antigen-like cell adhesion molecules (CEACAMs)
are human cell-surface proteins that can exhibit increased expression
on tumor cells and are thus a potential target for novel tumor-seeking
therapeutic delivery methods. We hypothesize that engineered nanoparticles
containing a known interaction partner of CEACAM, Neisseria
gonorrhoeae outer membrane protein Opa, can be used
to deliver cargo to specific cellular targets. In this study, the
cell association and uptake of protein-free liposomes and Opa proteoliposomes
into CEACAM-expressing cells were measured using imaging flow cytometry.
A size-dependent internalization of liposomes into HeLa cells was
observed through endocytic pathways. Opa-dependent, CEACAM1-mediated
uptake of liposomes into HeLa cells was observed, with limited colocalization
with endosomal and lysosomal trafficking compartments. Given the overexpression
of CEACAM1 on several distinct cancers and interest in using CEACAM1
as a component in treatment strategies, these results support further
pursuit of investigating Opa-dependent specificity and the internalization
mechanism for therapeutic delivery.