Exosomes from mesenchymal stem cells expressing miR‐125b inhibit neointimal hyperplasia via myosin <scp>IE</scp>

Wang, Dongqing; Gao, Bin; Yue, Jianing; Liu, Fei; Liu, Yifan; Fu, Weiguo; Si, Yi

doi:10.1111/jcmm.14060

Cited by 34 publications

(30 citation statements)

References 59 publications

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“…They also characterized neural growth factor transcripts in rAMSC-EV (Bucan et al, 2019). Another study from Wang et al (2019) used DIO to label MSC-EV in a rat carotid artery balloon injury model. They found that MSC-EV can transfer miR−125b to vascular smooth muscle cells, which can attenuate neointimal formation and could be a therapeutic target of vascular diseases (Wang et al, 2019).…”

Section: Biodistribution and Targeting Of Msc-ev To Target Tissuesmentioning

confidence: 99%

“…Another study from Wang et al (2019) used DIO to label MSC-EV in a rat carotid artery balloon injury model. They found that MSC-EV can transfer miR−125b to vascular smooth muscle cells, which can attenuate neointimal formation and could be a therapeutic target of vascular diseases (Wang et al, 2019). There are also several reports of labeling MSC-EV with different labeling agents such as DiI (1,1 -Dioctadecyl-3,3,3 ,3 -Tetramethylindocarbocyanine Perchlorate), Alexa fluor 488, and gadolinium for locating the biodistribution of EV (Abello et al, 2019;Chew et al, 2019;Cui et al, 2019).…”

Section: Biodistribution and Targeting Of Msc-ev To Target Tissuesmentioning

confidence: 99%

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Mesenchymal Stem Cell-Derived Extracellular Vesicles: Challenges in Clinical Applications

Gowen

Shahjin

Chand

et al. 2020

Front. Cell Dev. Biol.

243

203

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Stem cell therapy has garnered much attention and application in the past decades for the treatment of diseases and injuries. Mesenchymal stem cells (MSCs) are studied most extensively for their therapeutic roles, which appear to be derived from their paracrine activity. Recent studies suggest a critical therapeutic role for extracellular vesicles (EV) secreted by MSCs. EV are nano-sized membrane-bound vesicles that shuttle important biomolecules between cells to maintain physiological homeostasis. Studies show that EV from MSCs (MSC-EV) have regenerative and anti-inflammatory properties. The use of MSC-EV, as an alternative to MSCs, confers several advantages, such as higher safety profile, lower immunogenicity, and the ability to cross biological barriers, and avoids complications that arise from stem cell-induced ectopic tumor formation, entrapment in lung microvasculature, and immune rejection. These advantages and the growing body of evidence suggesting that MSC-EV display therapeutic roles contribute to the strong rationale for developing EV as an alternative therapeutic option. Despite the success in preclinical studies, use of MSC-EV in clinical settings will require careful consideration; specifically, several critical issues such as (i) production methods, (ii) quantification and characterization, (iii) pharmacokinetics, targeting and transfer to the target sites, and (iv) safety profile assessments need to be resolved. Keeping these issues in mind, the aim of this mini-review is to shed light on the challenges faced in MSC-EV research in translating successful preclinical studies to clinical platforms.

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Section: Biodistribution and Targeting Of Msc-ev To Target Tissuesmentioning

confidence: 99%

Section: Biodistribution and Targeting Of Msc-ev To Target Tissuesmentioning

confidence: 99%

Mesenchymal Stem Cell-Derived Extracellular Vesicles: Challenges in Clinical Applications

Gowen

Shahjin

Chand

et al. 2020

Front. Cell Dev. Biol.

243

203

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“…Tal et al reported that exosomes from miR-126-3p-overexpressing MSCs stimulated angiogenesis and collagen maturity in a diabetic rat model [156]. Exosomes from miR-125b-overexpressing MSCs were reported to repress Myo1e expression and suppress the proliferation and migration of vascular smooth muscle cells in vitro and in vivo, suppressing neointimal hyperplasia [163].…”

Section: Gene Overexpression To Improve the Function Of Msc-derived Ementioning

confidence: 99%

Current Knowledge and Future Perspectives on Mesenchymal Stem Cell-Derived Exosomes as a New Therapeutic Agent

Joo

Suh

Lee

et al. 2020

IJMS

195

151

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Mesenchymal stem cells (MSCs) are on the cusp of regenerative medicine due to their differentiation capacity, favorable culture conditions, ability to be manipulated in vitro, and strong immunomodulatory activity. Recent studies indicate that the pleiotropic effects of MSCs, especially their immunomodulatory potential, can be largely attributed to paracrine factors. Exosomes, vesicles that are 30-150 nanometers in diameter that function in cell-cell communication, are one of the key paracrine effectors. MSC-derived exosomes are enriched with therapeutic miRNAs, mRNAs, cytokines, lipids, and growth factors. Emerging evidences support the compelling possibility of using MSC-derived exosomes as a new form of therapy for treating several different kinds of disease such as heart, kidney, immune diseases, neural injuries, and neurodegenerative disease. This review provides a summary of current knowledge and discusses engineering of MSC-derived exosomes for their use in translational medicine.

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“…Регенераторный потенциал рассматривается также и при повреждении печени [25][26][27], лёгких [28,29], нервной ткани [30][31][32][33][34][35], кожных покровов [36,37] и микроциркуляторного русла [38]. Перспективными могут оказаться свойства везикул оказывать стимулирующие пролиферацию действия [39][40][41], угнетать воспаление [42][43][44], снижать оксидативный стресс [45].…”

Section: потенциальные цели терапевтического применения ввunclassified

“…Инфаркт миокарда [2][3][4][5][6][7][8][9][10] Крыса [2][3][4][5][6][7]9] По периферии инфаркта [2][3][4] в/в [5][6][7]9] Увеличение фракции выброса [3,5,6], уменьшение КСО ЛЖ [2,5,6] Подавление апоптоза [3-4, 6, 7-9] Индукция ангиогенеза [3][4][5] Уменьшение фиброза [7,9] Альтернативная поляризация макрофагов [7] Усиление АОС [9] Мышь [8,10] Интрамиокардиально [8,10] Подавление апоптоза [8] Уменьшение воспаления, альтернативная активация макрофагов [10] Оксидативный стресс [45] Крыса Инъекция в орган [45] Подавление апоптоза и стимуляция пролиферации [45] Баллон-индуцированное повреждение сосудов [39] Крыса в/в [39] Подавление пролиферации и миграции клеток, уменьшение экспресс...…”

Section: путь введения эффектunclassified

Extracellular vesicles therapy: opportunities, mechanisms and perspectives

Великонивцев¹,

Головкин²

2020

Russ J Cardiol

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Extracellular vesicles are biological membrane-coated objects with size less then 1000 nm. They can contain variety of biologically active molecules (such as proteins, miRNA, mRNA, DNA etc.) and also are able to provide intercellular communications and implement lots if biological functions. Now possibilities of using extracellular vesicles for therapeutic approaches against various diseases and pathological conditions are rapidly discovered. In the most of cases mesenchymal stem cells are the sources of extracellular vesicles and miRNAs which vesicles transport are considered to be causable agents of their activities. In-vitro studies show that extracellular vesicles provide anti-inflammatory, anti-apoptotic activities and can stimulate angiogenesis and regeneration. Performed studies which were analyzed and structurized by us in this review demonstrate current perspectives for clinical use of extracellular vesicles in the therapy of such clinical conditions as oxidative stress, ischemia-reperfusion injury, tumor growth etc.

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Exosomes from mesenchymal stem cells expressing miR‐125b inhibit neointimal hyperplasia via myosin IE

Cited by 34 publications

References 59 publications

Mesenchymal Stem Cell-Derived Extracellular Vesicles: Challenges in Clinical Applications

Mesenchymal Stem Cell-Derived Extracellular Vesicles: Challenges in Clinical Applications

Current Knowledge and Future Perspectives on Mesenchymal Stem Cell-Derived Exosomes as a New Therapeutic Agent

Extracellular vesicles therapy: opportunities, mechanisms and perspectives

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