Extracellular Silica Nanomatrices Promote In Vitro Maturation of Anti‐tumor Dendritic Cells via Activation of Focal Adhesion Kinase

Tam, Sze Wah; Cheung, Allen Ka Loon; Qin, Ping; Zhang, Shiqing; Huang, Zhifeng; Yung, Ken Kin Lam

doi:10.1002/adma.202314358

Advanced Materials

2024

DOI: 10.1002/adma.202314358

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Extracellular Silica Nanomatrices Promote In Vitro Maturation of Anti‐tumor Dendritic Cells via Activation of Focal Adhesion Kinase

Sze Wah Tam,

Allen Ka Loon Cheung,

Ping Qin

et al.

Abstract: The efficacy of dendritic cell (DC)‐based cancer vaccines is critically determined by the functionalities of in vitro maturated DCs. The maturation of DCs typically relies on chemicals that are cytotoxic or hinder the ability of DCs to efficiently activate the antigen‐specific cytotoxic T‐lymphocytes (CTLs) against tumors. Herein, the maturation chemicals are replaced with extracellular silica nanomatrices, fabricated by glancing angle deposition, to promote in vitro maturation of murine bone marrow‐derived DC… Show more

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Chiral Engineered Biomaterials: New Frontiers in Cellular Fate Regulation for Regenerative Medicine

Wang,

Zhang,

Xie

et al. 2024

Adv Funct Materials

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Chirality, the property of objects that are nonsuperimposable on their mirror images, plays a crucial role in biological processes and cellular behaviors. Chiral engineered biomaterials have emerged as a promising approach to regulating cellular fate in regenerative medicine. However, few reviews provide a comprehensive examination of recent advancements in chiral biomaterials and their applications in cellular fate regulation. Herein, various fabrication techniques available for chiral biomaterials, including the use of chiral molecules, surface patterning, and self‐assembly are discussed. The mechanisms through which chiral biomaterials influence cellular responses, such as modulation of adhesion receptors, intracellular signaling, and gene expression, are explored. Notably, chiral biomaterials have demonstrated their ability to guide stem cell differentiation and augment tissue‐specific functions. The potential applications of chiral biomaterials in musculoskeletal disorders, neurodegenerative diseases, cardiovascular diseases, and wound healing are highlighted. Challenges and future perspectives, including standardization of fabrication methods and translation to clinical settings, are addressed. In conclusion, chiral engineered biomaterials offer exciting prospects for precisely controlling cellular fate, advancing regenerative medicine, and enabling personalized therapeutic strategies.

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Chiral Engineered Biomaterials: New Frontiers in Cellular Fate Regulation for Regenerative Medicine

Wang,

Zhang,

Xie

et al. 2024

Adv Funct Materials

View full text Add to dashboard Cite

show abstract

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Extracellular Silica Nanomatrices Promote In Vitro Maturation of Anti‐tumor Dendritic Cells via Activation of Focal Adhesion Kinase

Cited by 1 publication

References 54 publications

Chiral Engineered Biomaterials: New Frontiers in Cellular Fate Regulation for Regenerative Medicine

Chiral Engineered Biomaterials: New Frontiers in Cellular Fate Regulation for Regenerative Medicine

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