Jiren Luo scite author profile

Thanks to the precise control over their structural and functional properties, genetically engineered protein-based hydrogels have emerged as a promising candidate for biomedical applications. Given the growing demand for creating stimuli-responsive "smart" hydrogels, here we show the synthesis of entirely protein-based photoresponsive hydrogels by covalently polymerizing the adenosylcobalamin (AdoB 12 )-dependent photoreceptor C-terminal adenosylcobalamin binding domain (CarH C ) proteins using genetically encoded SpyTagSpyCatcher chemistry under mild physiological conditions. The resulting hydrogel composed of physically self-assembled CarH C polymers exhibited a rapid gel-sol transition on light exposure, which enabled the facile release/recovery of 3T3 fibroblasts and human mesenchymal stem cells (hMSCs) from 3D cultures while maintaining their viability. A covalently cross-linked CarH C hydrogel was also designed to encapsulate and release bulky globular proteins, such as mCherry, in a light-dependent manner. The direct assembly of stimuli-responsive proteins into hydrogels represents a versatile strategy for designing dynamically tunable materials.hydrogels | cell encapsulation | drug delivery | photoresponsive materials | protein engineering

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Injectable, photoresponsive hydrogels for delivering neuroprotective proteins enabled by metal-directed protein assembly

Jiang

Liu

Yang

et al. 2020

Sci. Adv.

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Axon regeneration constitutes a fundamental challenge for regenerative neurobiology, which necessitates the use of tailor-made biomaterials for controllable delivery of cells and biomolecules. An increasingly popular approach for creating these materials is to directly assemble engineered proteins into high-order structures, a process that often relies on sophisticated protein chemistry. Here, we present a simple approach for creating injectable, photoresponsive hydrogels via metal-directed assembly of His6-tagged proteins. The B12-dependent photoreceptor protein CarHC can complex with transition metal ions through an amino-terminal His6-tag, which can further undergo a sol-gel transition upon addition of AdoB12, leading to the formation of hydrogels with marked injectability and photodegradability. The inducible phase transitions further enabled facile encapsulation and release of cells and proteins. Injecting the Zn2+-coordinated gels decorated with leukemia inhibitory factor into injured mouse optic nerves led to prolonged cellular signaling and enhanced axon regeneration. This study illustrates a powerful strategy for designing injectable biomaterials.

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Entirely recombinant protein-based hydrogels for selective heavy metal sequestration

et al. 2017

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Jiren Luo

B ₁₂ -dependent photoresponsive protein hydrogels for controlled stem cell/protein release

Injectable, photoresponsive hydrogels for delivering neuroprotective proteins enabled by metal-directed protein assembly

Entirely recombinant protein-based hydrogels for selective heavy metal sequestration

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Jiren Luo

B 12 -dependent photoresponsive protein hydrogels for controlled stem cell/protein release

Injectable, photoresponsive hydrogels for delivering neuroprotective proteins enabled by metal-directed protein assembly

Entirely recombinant protein-based hydrogels for selective heavy metal sequestration

Contact Info

Product

Resources

About

B ₁₂ -dependent photoresponsive protein hydrogels for controlled stem cell/protein release