Literature DB >> 30218694

Towards rationally designed biomanufacturing of therapeutic extracellular vesicles: impact of the bioproduction microenvironment.

Divya B Patel1, Marco Santoro2, Louis J Born1, John P Fisher2, Steven M Jay3.   

Abstract

Extracellular vesicles (EVs), including exosomes, microvesicles, and others, have emerged as potential therapeutics for a variety of applications. Pre-clinical reports of EV efficacy in treatment of non-healing wounds, myocardial infarction, osteoarthritis, traumatic brain injury, spinal cord injury, and many other injuries and diseases demonstrate the versatility of this nascent therapeutic modality. EVs have also been demonstrated to be effective in humans, and clinical trials are underway to further explore their potential. However, for EVs to become a new class of clinical therapeutics, issues related to translation must be addressed. For example, approaches originally developed for cell biomanufacturing, such as hollow fiber bioreactor culture, have been adapted for EV production, but limited knowledge of how the cell culture microenvironment specifically impacts EVs restricts the possibility for rational design and optimization of EV production and potency. In this review, we discuss current knowledge of this issue and delineate potential focus areas for future research towards enabling translation and widespread application of EV-based therapeutics.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Biomanufacturing; Exosome; Extracellular vesicle; Mesenchymal stem cell; Microenvironment

Mesh:

Year:  2018        PMID: 30218694      PMCID: PMC6250573          DOI: 10.1016/j.biotechadv.2018.09.001

Source DB:  PubMed          Journal:  Biotechnol Adv        ISSN: 0734-9750            Impact factor:   14.227


  70 in total

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3.  Endothelial cells require miR-214 to secrete exosomes that suppress senescence and induce angiogenesis in human and mouse endothelial cells.

Authors:  Bas W M van Balkom; Olivier G de Jong; Michiel Smits; Jolanda Brummelman; Krista den Ouden; Petra M de Bree; Monique A J van Eijndhoven; D Michiel Pegtel; Willem Stoorvogel; Thomas Würdinger; Marianne C Verhaar
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5.  High yield, scalable and remotely drug-loaded neutrophil-derived extracellular vesicles (EVs) for anti-inflammation therapy.

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6.  Oncogene Knockdown via Active Loading of Small RNAs into Extracellular Vesicles by Sonication.

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7.  Emergence of patterned stem cell differentiation within multicellular structures.

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8.  Long-term in vitro expansion alters the biology of adult mesenchymal stem cells.

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  24 in total

Review 1.  Human Pluripotent Stem Cell-Derived Extracellular Vesicles: Characteristics and Applications.

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Journal:  Adv Healthc Mater       Date:  2021-07-23       Impact factor: 9.933

5.  TBC1D3 regulates the payload and biological activity of extracellular vesicles that mediate tissue repair.

Authors:  Shu Qin; Robert A Dorschner; Irene Masini; Ophelia Lavoie-Gagne; Philip D Stahl; Todd W Costantini; Andrew Baird; Brian P Eliceiri
Journal:  FASEB J       Date:  2019-02-04       Impact factor: 5.834

Review 6.  Engineering of Extracellular Vesicles Based on Payload Changes for Tissue Regeneration.

Authors:  Dong Jun Park; Young Joon Seo
Journal:  Tissue Eng Regen Med       Date:  2021-05-29       Impact factor: 4.451

Review 7.  Extracellular Vesicles as an Emerging Frontier in Spinal Cord Injury Pathobiology and Therapy.

Authors:  Dipankar Dutta; Niaz Khan; Junfang Wu; Steven M Jay
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8.  Differential Effects of Extracellular Vesicles of Lineage-Specific Human Pluripotent Stem Cells on the Cellular Behaviors of Isogenic Cortical Spheroids.

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Review 9.  Extracellular Vesicles in NAFLD/ALD: From Pathobiology to Therapy.

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10.  The role of extracellular vesicles in biomineralisation: current perspective and application in regenerative medicine.

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