人类皮肤细胞的细胞外小泡诱导胰腺导管细胞Pro - β -细胞转化

IF 4 Q2 ENGINEERING, BIOMEDICAL
Lilibeth Ortega-Pineda, Maria Angelica Rincon-Benavides, Tatiana Z. Cuellar-Gaviria, Mia Kordowski, Elizabeth Guilfoyle, Amrita Lakshmi Anaparthi, Luke R. Lemmerman, William Lawrence, Jill L. Buss, Binbin Deng, Britani N. Blackstone, Ana Salazar-Puerta, David W. McComb, Heather Powell, Daniel Gallego-Perez, Natalia Higuita-Castro
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引用次数: 0

摘要

直接核重编程有可能开发不需要使用祖细胞/干细胞群体的糖尿病β细胞替代疗法。然而,尽管有前景,目前β细胞定向重编程的方法在很大程度上依赖于病毒载体的使用。本文探讨了利用源自人类真皮成纤维细胞(HDFs)的细胞外小泡(EVs)作为内分泌细胞模式转录因子的新型非病毒载体,将胰腺导管上皮细胞(PDC)转染和转分化为激素表达细胞。用Pdx1、Ngn3和MafA(PNM)的表达质粒电转染HDFs导致在基因、mRNA和蛋白质水平上释放负载PNM的EVs。将PDC培养物暴露于负载PNM的EVs可成功转染并增加PDC中PNM的表达,最终导致基于胰岛素/c肽、胰高血糖素和葡萄糖转运蛋白2(Glut2)表达的内分泌细胞定向转化。这些发现在 导管内注射PNM与假载EVs后的小鼠体内模型。总之,这些发现表明,真皮成纤维细胞衍生的EVs有可能成为一种强大的平台技术,用于开发和部署基于非病毒重编程的胰岛素依赖性糖尿病细胞疗法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Engineered Extracellular Vesicles from Human Skin Cells Induce Pro-β-Cell Conversions in Pancreatic Ductal Cells

Engineered Extracellular Vesicles from Human Skin Cells Induce Pro-β-Cell Conversions in Pancreatic Ductal Cells

Direct nuclear reprogramming has the potential to enable the development of β cell replacement therapies for diabetes that do not require the use of progenitor/stem cell populations. However, despite their promise, current approaches to β cell-directed reprogramming rely heavily on the use of viral vectors. Herein, the use of extracellular vesicles (EVs) derived from human dermal fibroblasts (HDFs) is explored as novel nonviral carriers of endocrine cell-patterning transcription factors, to transfect and transdifferentiate pancreatic ductal epithelial cells (PDCs) into hormone-expressing cells. Electrotransfection of HDFs with expression plasmids for Pdx1, Ngn3, and MafA (PNM) leads to the release of EVs loaded with PNM at the gene, mRNA, and protein levels. Exposing PDC cultures to PNM-loaded EVs leads to successful transfection and increases PNM expression in PDCs, which ultimately result in endocrine cell-directed conversions based on the expression of insulin/c-peptide, glucagon, and glucose transporter 2 (Glut2). These findings are further corroborated in vivo in a mouse model following intraductal injection of PNM- versus sham-loaded EVs. Collectively, these findings suggest that dermal fibroblast-derived EVs can potentially serve as a powerful platform technology for the development and deployment of nonviral reprogramming-based cell therapies for insulin-dependent diabetes.

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来源期刊
Advanced Nanobiomed Research
Advanced Nanobiomed Research nanomedicine, bioengineering and biomaterials-
CiteScore
5.00
自引率
5.90%
发文量
87
审稿时长
21 weeks
期刊介绍: Advanced NanoBiomed Research will provide an Open Access home for cutting-edge nanomedicine, bioengineering and biomaterials research aimed at improving human health. The journal will capture a broad spectrum of research from increasingly multi- and interdisciplinary fields of the traditional areas of biomedicine, bioengineering and health-related materials science as well as precision and personalized medicine, drug delivery, and artificial intelligence-driven health science. The scope of Advanced NanoBiomed Research will cover the following key subject areas: ▪ Nanomedicine and nanotechnology, with applications in drug and gene delivery, diagnostics, theranostics, photothermal and photodynamic therapy and multimodal imaging. ▪ Biomaterials, including hydrogels, 2D materials, biopolymers, composites, biodegradable materials, biohybrids and biomimetics (such as artificial cells, exosomes and extracellular vesicles), as well as all organic and inorganic materials for biomedical applications. ▪ Biointerfaces, such as anti-microbial surfaces and coatings, as well as interfaces for cellular engineering, immunoengineering and 3D cell culture. ▪ Biofabrication including (bio)inks and technologies, towards generation of functional tissues and organs. ▪ Tissue engineering and regenerative medicine, including scaffolds and scaffold-free approaches, for bone, ligament, muscle, skin, neural, cardiac tissue engineering and tissue vascularization. ▪ Devices for healthcare applications, disease modelling and treatment, such as diagnostics, lab-on-a-chip, organs-on-a-chip, bioMEMS, bioelectronics, wearables, actuators, soft robotics, and intelligent drug delivery systems. with a strong focus on applications of these fields, from bench-to-bedside, for treatment of all diseases and disorders, such as infectious, autoimmune, cardiovascular and metabolic diseases, neurological disorders and cancer; including pharmacology and toxicology studies.
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