A.S. Marcos scite author profile

BackgroundT lymphocytes are highly dynamic elements of the immune system with a tightly regulated migration. T cell-based transfer therapies are promising therapeutic approaches which in vivo efficacy is often limited by the small proportion of administered cells that reaches the region of interest. Manipulating T cell localisation to improve specific targeting will increase the effectiveness of these therapies. Nanotechnology has been successfully used for localized release of drugs and biomolecules. In particular, magnetic nanoparticles (MNPs) loaded with biomolecules can be specifically targeted to a location by an external magnetic field (EMF). The present work studies whether MNP-loaded T cells could be targeted and retained in vitro and in vivo at a site of interest with an EMF.ResultsT cells were unable to internalize the different MNPs used in this study, which remained in close association with the cell membrane. T cells loaded with an appropriate MNP concentration were attracted to an EMF and retained in an in vitro capillary flow-system. MNP-loaded T cells were also magnetically retained in the lymph nodes after adoptive transfer in in vivo models. This enhanced in vivo retention was in part due to the EMF application and to a reduced circulating cell speed within the organ. This combined use of MNPs and EMFs did not alter T cell viability or function.ConclusionsThese studies reveal a promising approach to favour cell retention that could be implemented to improve cell-based therapy. Electronic supplementary materialThe online version of this article (10.1186/s12951-019-0440-z) contains supplementary material, which is available to authorized users.

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A.S. Marcos

A biotechnological perspective on the application of iron oxide magnetic colloids modified with polysaccharides

T cells loaded with magnetic nanoparticles are retained in peripheral lymph nodes by the application of a magnetic field

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