Programmability and biomedical utility of intrinsically-disordered protein polymers

Programmability and biomedical utility of intrinsically-disordered protein polymers

[Display omitted] Intrinsically disordered proteins (IDPs) exhibit molecular-level conformational dynamics that are functionally harnessed across a wide range of fascinating biological phenomena. The low sequence complexity of IDPs has led to the design and development of intrinsically-disordered pr...

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Bibliographic Details
Published in:Advanced drug delivery reviews Vol. 212; p. 115418
Main Authors: Giraldo-Castaño, Maria Camila, Littlejohn, Kai A., Avecilla, Alexa Regina Chua, Barrera-Villamizar, Natalia, Quiroz, Felipe Garcia
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-09-2024
Online Access:Get full text
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Summary:[Display omitted] Intrinsically disordered proteins (IDPs) exhibit molecular-level conformational dynamics that are functionally harnessed across a wide range of fascinating biological phenomena. The low sequence complexity of IDPs has led to the design and development of intrinsically-disordered protein polymers (IDPPs), a class of engineered repeat IDPs with stimuli-responsive properties. The perfect repetitive architecture of IDPPs allows for repeat-level encoding of tunable protein functionality. Designer IDPPs can be modeled on endogenous IDPs or engineered de novo as protein polymers with dual biophysical and biological functionality. Their properties can be rationally tailored to access enigmatic IDP biology and to create programmable smart biomaterials. With the goal of inspiring the bioengineering of multifunctional IDP-based materials, here we synthesize recent multidisciplinary progress in programming and exploiting the bio-functionality of IDPPs and IDPP-containing proteins. Collectively, expanding beyond the traditional sequence space of extracellular IDPs, emergent sequence-level control of IDPP functionality is fueling the bioengineering of self-assembling biomaterials, advanced drug delivery systems, tissue scaffolds, and biomolecular condensates —genetically encoded organelle-like structures. Looking forward, we emphasize open challenges and emerging opportunities, arguing that the intracellular behaviors of IDPPs represent a rich space for biomedical discovery and innovation. Combined with the intense focus on IDP biology, the growing landscape of IDPPs and their biomedical applications set the stage for the accelerated engineering of high-value biotechnologies and biomaterials.
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ISSN:0169-409X
1872-8294
1872-8294
DOI:10.1016/j.addr.2024.115418