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Literature DB >> 29344334

Collective adhesion and displacement of retinal progenitor cells upon extracellular matrix substrates of transplantable biomaterials.

Ankush Thakur¹, Shawn Mishra¹, Juan Pena¹, Jing Zhou^2,3, Stephen Redenti^2,3,4, Robert Majeska¹, Maribel Vazquez^1,4.

Abstract

Strategies to replace retinal photoreceptors lost to damage or disease rely upon the migration of replacement cells transplanted into sub-retinal spaces. A significant obstacle to the advancement of cell transplantation for retinal repair is the limited migration of transplanted cells into host retina. In this work, we examine the adhesion and displacement responses of retinal progenitor cells on extracellular matrix substrates found in retina as well as widely used in the design and preparation of transplantable scaffolds. The data illustrate that retinal progenitor cells exhibit unique adhesive and displacement dynamics in response to poly-l-lysine, fibronectin, laminin, hyaluronic acid, and Matrigel. These findings suggest that transplantable biomaterials can be designed to improve cell integration by incorporating extracellular matrix substrates that affect the migratory behaviors of replacement cells.

Entities: Chemical Disease Gene Species

Keywords: Neuroclusters; microfluidics; migration; photoreceptors; transplantation

Year: 2018 PMID： 29344334 PMCID： PMC5764132 DOI： 10.1177/2041731417751286

Source DB: PubMed Journal: J Tissue Eng ISSN： 2041-7314 Impact factor: 7.813

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1. A novel electro-chemotactic approach to impact the directional migration of transplantable retinal progenitor cells.

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