Authors: Sergio Acosta, Luis Quintanilla‐Sierra, Lubinda Mbundi, Virginia Reboto, José Carlos Rodríguez‐Cabello
Published: 2020-03-12
Source: Full article
AbstractIn the development of tissue engineering strategies to replace, remodel, regenerate, or support damaged tissue, the development of bioinspired biomaterials that recapitulate the physicochemical characteristics of the extracellular matrix has received increased attention. Given the compositional heterogeneity and tissue‐to‐tissue variation of the extracellular matrix, the design, choice of polymer, crosslinking, and nature of the resulting biomaterials are normally depended on intended application. Generally, these biomaterials are usually made of degradable or nondegradable biomaterials that can be used as cell or drug carriers. In recent years, efforts to endow reciprocal biomaterial–cell interaction properties in scaffolds have inspired controlled synthesis, derivatization, and functionalization of the polymers used. In this regard, elastin‐like recombinant proteins have generated interest and continue to be developed further owing to their modular design at a molecular level. In this review, the authors provide a summary of key extracellular matrix features relevant to biomaterials design and discuss current approaches in the development of extracellular matrix‐inspired elastin‐like recombinant protein based biomaterials.