Physical modulation of mesenchymal stem cell exosomes: A new perspective for regenerative medicine

Mesenchymal stem cell‐derived exosomes (MSC‐Exo) offer promising therapeutic potential for various refractory diseases, presenting a novel therapeutic strategy. However, their clinical application encounters several obstacles, including low natural secretion, uncontrolled biological functions and in...

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Veröffentlicht in:	Cell proliferation 2024-08, Vol.57 (8), p.e13630-n/a
Hauptverfasser:	Wu, Dan, Zhao, Xiansheng, Xie, Jiaheng, Yuan, Ruoyue, Li, Yue, Yang, Quyang, Cheng, Xiujun, Wu, Changyue, Wu, Jinyan, Zhu, Ningwen
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biosynthesis Body fat Bone marrow Electrical stimuli Exosomes Exosomes - metabolism Heterogeneity Humans Ionizing radiation Irradiation Light irradiation Lipids Magnetic fields Magnetic properties Menstruation Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - metabolism Microenvironments Nanoparticles Physical factors Physical properties Proteins Radiation Regenerative medicine Regenerative Medicine - methods Review Secretion Shear stress Stem cells Stimuli Therapeutic applications Topography Ultrasonic imaging
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creator	Wu, Dan Zhao, Xiansheng Xie, Jiaheng Yuan, Ruoyue Li, Yue Yang, Quyang Cheng, Xiujun Wu, Changyue Wu, Jinyan Zhu, Ningwen
description	Mesenchymal stem cell‐derived exosomes (MSC‐Exo) offer promising therapeutic potential for various refractory diseases, presenting a novel therapeutic strategy. However, their clinical application encounters several obstacles, including low natural secretion, uncontrolled biological functions and inherent heterogeneity. On the one hand, physical stimuli can mimic the microenvironment dynamics where MSC‐Exo reside. These factors influence not only their secretion but also, significantly, their biological efficacy. Moreover, physical factors can also serve as techniques for engineering exosomes. Therefore, the realm of physical factors assumes a crucial role in modifying MSC‐Exo, ultimately facilitating their clinical translation. This review focuses on the research progress in applying physical factors to MSC‐Exo, encompassing ultrasound, electrical stimulation, light irradiation, intrinsic physical properties, ionizing radiation, magnetic field, mechanical forces and temperature. We also discuss the current status and potential of physical stimuli‐affected MSC‐Exo in clinical applications. Furthermore, we address the limitations of recent studies in this field. Based on this, this review provides novel insights to advance the refinement of MSC‐Exo as a therapeutic approach in regenerative medicine. Physical factors influenced both their secretion and, significantly, their biological efficacy. Then, physical factors could also serve as techniques for the engineering of exosomes. The realm of physical factors assumes an instrumental role in modifying and upgrading MSC‐Exo, ultimately facilitating their clinical translation.
doi_str_mv	10.1111/cpr.13630
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Furthermore, we address the limitations of recent studies in this field. Based on this, this review provides novel insights to advance the refinement of MSC‐Exo as a therapeutic approach in regenerative medicine. Physical factors influenced both their secretion and, significantly, their biological efficacy. Then, physical factors could also serve as techniques for the engineering of exosomes. 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subjects	Animals Biosynthesis Body fat Bone marrow Electrical stimuli Exosomes Exosomes - metabolism Heterogeneity Humans Ionizing radiation Irradiation Light irradiation Lipids Magnetic fields Magnetic properties Menstruation Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - metabolism Microenvironments Nanoparticles Physical factors Physical properties Proteins Radiation Regenerative medicine Regenerative Medicine - methods Review Secretion Shear stress Stem cells Stimuli Therapeutic applications Topography Ultrasonic imaging
title	Physical modulation of mesenchymal stem cell exosomes: A new perspective for regenerative medicine
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