1. Academic Validation
  2. The Collagen Suprafamily: From Biosynthesis to Advanced Biomaterial Development

The Collagen Suprafamily: From Biosynthesis to Advanced Biomaterial Development

  • Adv Mater. 2019 Jan;31(1):e1801651. doi: 10.1002/adma.201801651.
Anna Sorushanova 1 2 Luis M Delgado 1 2 Zhuning Wu 1 2 Naledi Shologu 1 2 Aniket Kshirsagar 2 Rufus Raghunath 3 Anne M Mullen 4 Yves Bayon 5 Abhay Pandit 2 Michael Raghunath 3 Dimitrios I Zeugolis 1 2
Affiliations

Affiliations

  • 1 Regenerative, Modular and Developmental Engineering Laboratory (REMODEL), Biomedical Sciences Building, National University of Ireland Galway (NUI Galway), Galway, Ireland.
  • 2 Science Foundation Ireland (SFI) Centre for Research in Medical Devices (CÚRAM), Biomedical Sciences Building, National University of Ireland Galway (NUI Galway), Galway, Ireland.
  • 3 Centre for Cell Biology and Tissue Engineering, Competence Centre Tissue Engineering for Drug Development (TEDD), Department Life Sciences and Facility Management, Institute for Chemistry and Biotechnology (ICBT), Zürich University of Applied Sciences, Wädenswil, Switzerland.
  • 4 Teagasc Research Centre, Ashtown, Ireland.
  • 5 Sofradim Production-A Medtronic Company, Trevoux, France.
Abstract

Collagen is the oldest and most abundant extracellular matrix protein that has found many applications in food, cosmetic, pharmaceutical, and biomedical industries. First, an overview of the family of collagens and their respective structures, conformation, and biosynthesis is provided. The advances and shortfalls of various collagen preparations (e.g., mammalian/marine extracted collagen, cell-produced collagens, recombinant collagens, and collagen-like Peptides) and crosslinking technologies (e.g., chemical, physical, and biological) are then critically discussed. Subsequently, an array of structural, thermal, mechanical, biochemical, and biological assays is examined, which are developed to analyze and characterize collagenous structures. Lastly, a comprehensive review is provided on how advances in engineering, chemistry, and biology have enabled the development of bioactive, 3D structures (e.g., tissue grafts, biomaterials, cell-assembled tissue equivalents) that closely imitate native supramolecular assemblies and have the capacity to deliver in a localized and sustained manner viable cell populations and/or bioactive/therapeutic molecules. Clearly, collagens have a long history in both evolution and biotechnology and continue to offer both challenges and exciting opportunities in regenerative medicine as nature's biomaterial of choice.

Keywords

collagen biomaterials; collagen characterization; collagen crosslinking; collagen self-assembly; extracellular matrix.

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