Login / Signup

Photoswitchable Microgels for Dynamic Macrophage Modulation.

Yuri KimRamar ThangamJounghyun YooJeongyun HeoJung Yeon ParkNayeon KangSungkyu LeeJiwon YoonKwang Rok MunMisun KangSunhong MinSeong Yeol KimSubin SonJihwan KimHyunsik HongGunhyu BaeKanghyeon KimSanghyeok LeeLetao YangJa Yeon LeeJinjoo KimSteve ParkDong-Hyun KimKi-Bum LeeWoo Young JangBong Hoon KimRamasamy PaulmuruganSeung-Woo ChoHyun-Cheol SongSeok Ju KangWujin SunYangzhi ZhuJunmin LeeHan-Jun KimHo Seong JangJong Seung KimAli KhademhosseiniYongju KimSehoon KimHeemin Kang
Published in: Advanced materials (Deerfield Beach, Fla.) (2022)
Dynamic manipulation of supramolecular self-assembled structures is achieved irreversibly or under non-physiological conditions, thereby limiting their biomedical, environmental, and catalysis applicability. In this study, microgels composed of azobenzene derivatives stacked via π-cation and π-π interactions are developed that are electrostatically stabilized with Arg-Gly-Asp (RGD)-bearing anionic polymers. Lateral swelling of RGD-bearing microgels occurs via cis-azobenzene formation mediated by near-infrared-light-upconverted ultraviolet light, which disrupts intermolecular interactions on the visible-light-absorbing upconversion-nanoparticle-coated materials. Real-time imaging and molecular dynamics simulations demonstrate the deswelling of RGD-bearing microgels via visible-light-mediated trans-azobenzene formation. Near-infrared light can induce in situ swelling of RGD-bearing microgels to increase RGD availability and trigger release of loaded interleukin-4, which facilitates the adhesion structure assembly linked with pro-regenerative polarization of host macrophages. In contrast, visible light can induce deswelling of RGD-bearing microgels to decrease RGD availability that suppresses macrophage adhesion that yields pro-inflammatory polarization. These microgels exhibit high stability and non-toxicity. Versatile use of ligands and protein delivery can offer cytocompatible and photoswitchable manipulability of diverse host cells.
Keyphrases