Title |
Nanotubes from bacteriophage tail sheath proteins: internalisation by cancer cells and macrophages / |
Authors |
Gabrielaitis, Dovydas ; Žitkutė, Vilmantė ; Saveikytė, Lina ; Labutytė, Greta ; Skapas, Martynas ; Meškys, Rolandas ; Časaitė, Vida ; Sasnauskienė, Aušra ; Neniškytė, Urtė |
DOI |
10.1039/d3na00166k |
Full Text |
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Is Part of |
Nanoscale advances.. Cambridge : Royal Society of Chemistry. 2023, vol. 5, iss. 14, p. 3705-3716.. eISSN 2516-0230 |
Keywords [eng] |
nanotubes ; macrophage ; bacteriophage |
Abstract [eng] |
Bionanoparticles comprised of naturally occurring monomers are gaining interest in the development of novel drug transportation systems. Here we report on the stabilisation, cellular uptake, and macrophage clearance of nanotubes formed from the self-assembling gp053 tail sheath protein of the vB_EcoM_FV3 bacteriophage. To evaluate the potential of the bacteriophage protein-based nanotubes as therapeutic nanocarriers, we investigated their internalisation into colorectal cancer cell lines and professional macrophages that may hinder therapeutic applications by clearing nanotube carriers. We fused the bacteriophage protein with a SNAP-tag self-labelling enzyme and demonstrated that its activity is retained in assembled nanotubes, indicating that such carriers can be applied to deliver therapeutic biomolecules. Under physiological conditions, the stabilisation of the nanotubes by PEGylation was required to prevent aggregation and yield a stable solution with uniform nano-sized structures. Colorectal carcinoma cells from primary and metastatic tumours internalized SNAP-tag-carrying nanotubes with different efficiencies. The nanotubes entered HCT116 cells via dynamin-dependent and SW480 cells - via dynamin- and clathrin-dependent pathways and were accumulated in lysosomes. Meanwhile, peritoneal macrophages phagocytosed the nanotubes in a highly efficient manner through actin-dependent mechanisms. Macrophage clearance of nanotubes was enhanced by inflammatory activation but was dampened in macrophages isolated from aged animals. Altogether, our results demonstrate that gp053 nanotubes retained the cargo's enzymatic activity post-assembly and had the capacity to enter cancer cells. Furthermore, we emphasise the importance of evaluating the nanocarrier clearance by immune cells under conditions mimicking a cancerous environment. |
Published |
Cambridge : Royal Society of Chemistry |
Type |
Journal article |
Language |
English |
Publication date |
2023 |
CC license |
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