Issue 7, 2022

Facilitating trehalose entry into hRBCs at 4 °C by alkylated ε-poly(l-lysine) for glycerol-free cryopreservation

Abstract

Currently, glycerol is a conventional cryoprotectant of human red blood cells (hRBCs), but the time-consuming thawing and deglycerolization processes are essential before transfusion. Much of the research up to now has been conducted on the delivery of impermeable trehalose to hRBCs at 37 °C, but the cryoprotective effect of trehalose and deterioration of cells still remain challenging. Encouraged by the interaction of hydrophobic or cationic groups on cell membranes and osmotic stabilization, herein, we propose a novel cryopreservation system to facilitate trehalose entry into hRBCs at 4 °C and pH 7.4. High intracellular trehalose contents and cryosurvival of hRBCs were achieved with small function variations via the assistance of self-assembled nanoparticles of alkylated ε-poly(L-lysine) (ε-PL) along with poly(vinyl pyrrolidone) (PVP). The effect of amphipathic alkylated ε-PL with various alkyl chains and grafting ratios on membrane perturbation with protection of PVP was systematically investigated. Overall, by the combination of alkylated ε-PL and PVP, the intracellular trehalose could be enhanced to 109.7 ± 6.1 mM and subsequently hRBC cryosurvival reached 91.7 ± 5.5%, significantly higher than those containing trehalose only, 11.9 ± 1.1 mM and 50.0 ± 2.1%, respectively. It was observed that the biocompatible trehalose-loading system could benefit glycerol-free cryopreservation of hRBCs and also provide a feasible way for impermeable biomacromolecule delivery.

Graphical abstract: Facilitating trehalose entry into hRBCs at 4 °C by alkylated ε-poly(l-lysine) for glycerol-free cryopreservation

Supplementary files

Article information

Article type
Paper
Submitted
04 Dec 2021
Accepted
06 Jan 2022
First published
06 Jan 2022

J. Mater. Chem. B, 2022,10, 1042-1054

Facilitating trehalose entry into hRBCs at 4 °C by alkylated ε-poly(L-lysine) for glycerol-free cryopreservation

X. Liu, S. Gao, Q. Niu, K. Zhu, L. Ren and X. Yuan, J. Mater. Chem. B, 2022, 10, 1042 DOI: 10.1039/D1TB02674G

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