4.5 Article

Peptide-Functionalized Nanoemulsions as a Promising Tool for Isolation and Ex Vivo Culture of Circulating Tumor Cells

Journal

BIOENGINEERING-BASEL
Volume 9, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/bioengineering9080380

Keywords

nanoemulsions; peptides; microfluidic; circulating tumor cells (CTCs); CTC isolation; on-chip cell culture

Funding

  1. Roche-Chus Joint Unit - Galician Innovation Agency (GAIN) [IN853B 2018/03]
  2. Ministry of Economy, Business and Industry
  3. Santiago Health Research Institute (IDIS)

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Peptide-functionalized nanoemulsions are proposed as tools for the isolation and culture of CTCs in situ. These nanoemulsions can specifically interact with surface proteins on CTCs, providing support for cell growth.
Circulating Tumor Cells (CTCs) are shed from primary tumors and travel through the blood, generating metastases. CTCs represents a useful tool to understand the biology of metastasis in cancer disease. However, there is a lack of standardized protocols to isolate and culture them. In our previous work, we presented oil-in-water nanoemulsions (NEs) composed of lipids and fatty acids, which showed a benefit in supporting CTC cultures from metastatic breast cancer patients. Here, we present Peptide-Functionalized Nanoemulsions (Pept-NEs), with the aim of using them as a tool for CTC isolation and culture in situ. Therefore, NEs from our previous work were surface-decorated with the peptides Pep10 and GE11, which act as ligands towards the specific cell membrane proteins EpCAM and EGFR, respectively. We selected the best surface to deposit a layer of these Pept-NEs through a Quartz Crystal Microbalance with Dissipation Monitoring (QCM-D) method. Next, we validated the specific recognition of Pept-NEs for their protein targets EpCAM and EGFR by QCM-D and fluorescence microscopy. Finally, a layer of Pept-NEs was deposited in a culture well-plate, and cells were cultured on for 9 days in order to confirm the feasibility of the Pept-NEs as a cell growth support. This work presents peptide-functionalized nanoemulsions as a basis for the development of devices for the isolation and culture of CTCs in situ due to their ability to specifically interact with membrane proteins expressed in CTCs, and because cells are capable of growing on top of them.

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