Induced pluripotent stem cell‐derived extracellular vesicles enriched with <scp>miR</scp>‐126 induce proangiogenic properties and promote repair of ischemic tissue

Kmiotek‐Wasylewska, Katarzyna; Łabędź‐Masłowska, Anna; Bobis‐Wozowicz, Sylwia; Karnas, Elżbieta; Noga, Sylwia; Sekuła‐Stryjewska, Małgorzata; Woźnicka, Olga; Madeja, Zbigniew; Dawn, Buddhadeb; Zuba‐Surma, Ewa K.

doi:10.1096/fj.202301836r

The FASEB Journal

2024

DOI: 10.1096/fj.202301836r

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Induced pluripotent stem cell‐derived extracellular vesicles enriched with miR‐126 induce proangiogenic properties and promote repair of ischemic tissue

Katarzyna Kmiotek‐Wasylewska,

Anna Łabędź‐Masłowska,

Sylwia Bobis‐Wozowicz

et al.

Abstract: Emerging evidence suggests that stem cell‐derived extracellular vesicles (EVs) may induce pro‐regenerative effects in ischemic tissues by delivering bioactive molecules, including microRNAs. Recent studies have also shown pro‐regenerative benefits of EVs derived from induced pluripotent stem (iPS) cells. However, the underlying mechanisms of EV benefits and the role of their transferred regulatory molecules remain incompletely understood. Accordingly, we investigated the effects of human iPS‐derived EVs (iPS‐E… Show more

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Cited by 3 publications

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Genetically engineered loaded extracellular vesicles for drug delivery

Erana-Perez,

Igartua,

Santos-Vizcaino

et al. 2024

Trends in Pharmacological Sciences

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Genetically engineered loaded extracellular vesicles for drug delivery

Erana-Perez,

Igartua,

Santos-Vizcaino

et al. 2024

Trends in Pharmacological Sciences

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Extracellular vesicles the delivery of drugs through genetic engineering

Ankur,

Priyanka,

Neelesh

et al. 2024

IJPCA

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Researchers from a variety of disciplines are investigating the use of extracellular vesicles (EVs) as delivery vehicles for pharmaceutical solutions. In order to make the most of the therapeutic potential of EVs, various loading strategies have been devised. Despite the widespread application of exogenous methods, endogenous approaches are becoming increasingly preferred instead. Medicinal macro molecules such as proteins and nucleic acids can be loaded with relative ease using this technology that manipulates parental cells through genetic engineering. We examine the most effective ways for EV loading and demonstrate why endogenous is superior. Extracellular vesicles (EVs), which are able to transport pharmaceuticals, have the potential to tackle the problems of biologic therapeutic stability and off-target undesirable effects. In addition, we investigate the most recent findings and applications of this innovative method in order to shed light on the numerous potential therapeutic possibilities in the field of EV-based treatments. The possibility of endogenous loading of EVs with big biological medicines has been brought to light by recent research. In order to optimize the loading of biologic drugs in extracellular vesicles (EVs), researchers have been able to apply cargo selection and loading pathway molecules thanks to advancements in EV biogenesis. It has been established that endogenous EV loading is successful in preclinical in vivo trials, which demonstrates its promise in a variety of therapeutic situations.

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MiR-199a-5p Deficiency Promotes Artery Restenosis in Peripheral Artery Disease by Regulating ASMCs Function via Targeting HIF-1α and E2F3

Liu,

Jing,

Peng

et al. 2024

CVP

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Background: Restenosis (RS) poses a significant concern, leading to recurrent ischemia and the potential for amputation following intraluminal angioplasty in the treatment of Peripheral Artery Disease (PAD). Through microRNA microarray analysis, the study detected a significant downregulation of miR-199a-5p within arterial smooth muscle cells (ASMCs) associated with RS. Objective: This research aims to explore the possible function and the underlying mechanisms of miR-199a-5p in the context of RS. Methods: Primary ASMCs were extracted from the femoral arteries of both healthy individuals and patients with PAD or RS. The expression levels of miR-199a-5p were assessed using both qRT-PCR and in situ hybridization techniques. To examine the impacts of miR-199a-5p, a series of experiments were performed, including flow cytometry, TUNEL assay, EdU assay, CCK8 assay, Transwell assay, and wound closure assay. A rat carotid balloon injury model was employed to elucidate the mechanism through which miR-199a-5p mitigated neointimal hyperplasia. Results: MiR-199a-5p exhibited downregulation in RS patients and was predominantly expressed within ASMCs. Elevated the expression of miR-199a-5p resulted in an inhibitory effect of proliferation and migration in ASMCs. Immunohistochemistry and a dual-luciferase reporter assay uncovered that RS exhibited elevated expression levels of both HIF-1α and E2F3, and they were identified as target genes regulated by miR-199a-5p. The co-transfection of lentiviruses carrying HIF-1α and E2F3 alongside miR-199a-5p further elucidated their role in the cellular responses mediated by miR-199a-5p. In vivo, the delivery of miR-199a-5p via lentivirus led to the mitigation of neointimal formation following angioplasty, achieved by targeting HIF-1α and E2F3. Conclusion: MiR-199a-5p exhibits promise as a prospective therapeutic target for RS since it alleviates the condition by inhibiting the proliferation and migration of ASMCs via its regulation of HIF-1α and E2F3.

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Induced pluripotent stem cell‐derived extracellular vesicles enriched with miR‐126 induce proangiogenic properties and promote repair of ischemic tissue

Cited by 3 publications

References 68 publications

Genetically engineered loaded extracellular vesicles for drug delivery

Genetically engineered loaded extracellular vesicles for drug delivery

Extracellular vesicles the delivery of drugs through genetic engineering

MiR-199a-5p Deficiency Promotes Artery Restenosis in Peripheral Artery Disease by Regulating ASMCs Function via Targeting HIF-1α and E2F3

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