Gold nanoparticles for the in situ polymerization of near-infrared responsive hydrogels based on fibrin

Non-invasiveness and relative safety of photothermal therapy, which enables local hyperthermia of target tissues using a near infrared (NIR) laser, has attracted increasing interest. Due to their biocompatibility, amenability of synthesis and functionalization, gold nanoparticles have been investigated as therapeutic photothermal agents. In this work, hollow gold nanoparticles (HGNP) were coated with poly-L-lysine through the use of COOH-Poly(ethylene glycol)-SH as a covalent linker. The functionalized HGNP, which peak their surface plasmon resonance at 800 nm, can bind thrombin. Thrombin-conjugated HGNP conduct in situ fibrin polymerization, facilitating the process of generating photothermal matrices. Interestingly, the metallic core of thrombin-loaded HGNP fragmentates at physiological temperature. During polymerization process, matrices prepared with thrombin-loaded HGNP were loaded with genetically-modified stem cells that harbour a heat-activated and ligand-dependent gene switch for regulating transgene expression. NIR laser irradiation of resulting cell constructs in the presence of ligand successfully triggered transgene expression in vitro and in vivo.
This work was supported by grant PI15/01118 from Instituto de Salud Carlos III (ISCIII)-Fondos FEDER, Ministry of Economy and Competitiveness (MINECO), Spain, grants RTI2018- 095159-B-I00 and SAF2013-50364-EXP from MINECO, grant Roche- IdiPAZ from the intramural funding program of Foundation for Biomedical Research of La Paz University Hospital-IdiPAZ, grant ERC-2013-CoG-614715 (NANOHEDONISM) from ERC Consolidator Grant program and by HSF Pharmaceuticals S.A. C.E-D. was the re- cipient of predoctoral grant FI14/00447 from ISCIII-Fondos FEDER, MINECO. N.V. is supported by Program I2 from CAM