Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo

Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo

Extracellular vesicles (EVs) play an important role in the communication between tissues and cells. However, it is difficult to screen and trace EVs secreted by specific tissues in vivo, which affects the functional study of EVs in certain tissues under pathophysiological conditions. In this study,...

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Main Authors: Weili Li, Jin Wang, Xiaojiao Yin, Huanhuan Shi, Benben Sun, Mengru Ji, Huichen Song, Jiachen Liu, Yihao Dou, Chenghong Xu, Xiaohong Jiang, Jing Li, Liang Li, Chen-Yu Zhang, Yujing Zhang
Format: Article
Language:English
Published: Frontiers Media S.A. 2022-11-01
Series:Frontiers in Cell and Developmental Biology
Subjects:
extracellular vesicles (EVs)
mouse model
CD63flag-EGFP
screening and tracing
tissue-specific EV
Online Access:https://www.frontiersin.org/articles/10.3389/fcell.2022.1015841/full
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author Weili Li
Weili Li
Jin Wang
Jin Wang
Xiaojiao Yin
Huanhuan Shi
Huanhuan Shi
Benben Sun
Mengru Ji
Mengru Ji
Huichen Song
Huichen Song
Jiachen Liu
Yihao Dou
Chenghong Xu
Xiaohong Jiang
Xiaohong Jiang
Jing Li
Jing Li
Liang Li
Liang Li
Chen-Yu Zhang
Chen-Yu Zhang
Yujing Zhang
Yujing Zhang
author_facet Weili Li
Weili Li
Jin Wang
Jin Wang
Xiaojiao Yin
Huanhuan Shi
Huanhuan Shi
Benben Sun
Mengru Ji
Mengru Ji
Huichen Song
Huichen Song
Jiachen Liu
Yihao Dou
Chenghong Xu
Xiaohong Jiang
Xiaohong Jiang
Jing Li
Jing Li
Liang Li
Liang Li
Chen-Yu Zhang
Chen-Yu Zhang
Yujing Zhang
Yujing Zhang
author_sort Weili Li
collection DOAJ
description Extracellular vesicles (EVs) play an important role in the communication between tissues and cells. However, it is difficult to screen and trace EVs secreted by specific tissues in vivo, which affects the functional study of EVs in certain tissues under pathophysiological conditions. In this study, a Cre-dependent CD63flag-EGFP co-expressed with mCherry protein system expressing mice was constructed, which can be used for the secretion, movement, and sorting of EVs from specific tissues in vivo. This mouse model is an ideal research tool for studying the secretion amount, target tissue, and functional molecule screening of EVs in specific tissues under different pathophysiological conditions. Moreover, it provides a new research method to clarify the mechanism of secreted EVs in the pathogenesis of the disease.
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publisher Frontiers Media S.A.
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spelling doaj.art-87affcec1ff242f983f552206e4973dc2022-12-22T02:47:12ZengFrontiers Media S.A.Frontiers in Cell and Developmental Biology2296-634X2022-11-011010.3389/fcell.2022.10158411015841Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivoWeili Li0Weili Li1Jin Wang2Jin Wang3Xiaojiao Yin4Huanhuan Shi5Huanhuan Shi6Benben Sun7Mengru Ji8Mengru Ji9Huichen Song10Huichen Song11Jiachen Liu12Yihao Dou13Chenghong Xu14Xiaohong Jiang15Xiaohong Jiang16Jing Li17Jing Li18Liang Li19Liang Li20Chen-Yu Zhang21Chen-Yu Zhang22Yujing Zhang23Yujing Zhang24State Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaState Key Laboratory of Pharmaceutical Biotechnology, Nanjing Drum Tower Hospital Center of Molecular Diagnostic and Therapy, Jiangsu Engineering Research Center for MicroRNA Biology and Biotechnology, School of Life Sciences, NJU Advanced Institute of Life Sciences (NAILS), Institute of Artificial Intelligence Biomedicine, Nanjing University, Nanjing, Jiangsu, ChinaChinese Academy of Medical Sciences, Research Unit of Extracellular RNA, Nanjing, Jiangsu, ChinaExtracellular vesicles (EVs) play an important role in the communication between tissues and cells. However, it is difficult to screen and trace EVs secreted by specific tissues in vivo, which affects the functional study of EVs in certain tissues under pathophysiological conditions. In this study, a Cre-dependent CD63flag-EGFP co-expressed with mCherry protein system expressing mice was constructed, which can be used for the secretion, movement, and sorting of EVs from specific tissues in vivo. This mouse model is an ideal research tool for studying the secretion amount, target tissue, and functional molecule screening of EVs in specific tissues under different pathophysiological conditions. Moreover, it provides a new research method to clarify the mechanism of secreted EVs in the pathogenesis of the disease.https://www.frontiersin.org/articles/10.3389/fcell.2022.1015841/fullextracellular vesicles (EVs)mouse modelCD63flag-EGFPscreening and tracingtissue-specific EV
spellingShingle Weili Li
Weili Li
Jin Wang
Jin Wang
Xiaojiao Yin
Huanhuan Shi
Huanhuan Shi
Benben Sun
Mengru Ji
Mengru Ji
Huichen Song
Huichen Song
Jiachen Liu
Yihao Dou
Chenghong Xu
Xiaohong Jiang
Xiaohong Jiang
Jing Li
Jing Li
Liang Li
Liang Li
Chen-Yu Zhang
Chen-Yu Zhang
Yujing Zhang
Yujing Zhang
Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo
Frontiers in Cell and Developmental Biology
extracellular vesicles (EVs)
mouse model
CD63flag-EGFP
screening and tracing
tissue-specific EV
title Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo
title_full Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo
title_fullStr Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo
title_full_unstemmed Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo
title_short Construction of a mouse model that can be used for tissue-specific EV screening and tracing in vivo
title_sort construction of a mouse model that can be used for tissue specific ev screening and tracing in vivo
topic extracellular vesicles (EVs)
mouse model
CD63flag-EGFP
screening and tracing
tissue-specific EV
url https://www.frontiersin.org/articles/10.3389/fcell.2022.1015841/full
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