Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker

Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker

Stem cell therapy holds high promises in regenerative medicine. The major challenge of clinical translation is to precisely and quantitatively evaluate the in vivo cell distribution, migration, and engraftment, which cannot be easily achieved by current techniques. To address this issue, for the fir...

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Main Authors: Hao Chen, Huaxiao Yang, Chen Zhang, Si Chen, Xin Zhao, Mark Zhu, Zhiming Wang, Yuebing Wang, Hung-Ta Wo, Kai Li, Zhen Cheng
Format: Article
Language:English
Published: American Association for the Advancement of Science 2021-01-01
Series:Research
Online Access:http://dx.doi.org/10.34133/2021/9798580
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spelling doaj-1f68e8cdfef944b0a7357b5d51c9e7f62021-06-28T11:58:02ZengAmerican Association for the Advancement of ScienceResearch2639-52742021-01-01202110.34133/2021/9798580Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell TrackerHao Chen0Hao Chen1Huaxiao Yang2Chen Zhang3Si Chen4Si Chen5Xin Zhao6Mark Zhu7Zhiming Wang8Yuebing Wang9Hung-Ta Wo10Hung-Ta Wo11Kai Li12Zhen Cheng13Zhen Cheng14Center for Molecular Imaging Research,Shanghai Institute of Materia Medica,Chinese Academy of Sciences,Shanghai 201203,ChinaMolecular Imaging Program at Stanford (MIPS),Bio-X Program,and Department of Radiology,Canary Center at Stanford for Cancer Early Detection, Stanford University, Stanford, CA 94305-5344,USAUniversity of North Texas,Biomedical Engineering,Denton,TX 76207,USADepartment of Biomedical Engineering,Southern University of Science and Technology,Shenzhen,Guangdong 518055,ChinaMolecular Imaging Program at Stanford (MIPS),Bio-X Program,and Department of Radiology,Canary Center at Stanford for Cancer Early Detection, Stanford University, Stanford, CA 94305-5344,USADepartment of Neurology,Xiangya Hospital,Central South University,Xiangya Road 88, Changsha, Hunan 410008,ChinaStanford Cardiovascular Institute,Stanford,CA 94305,USAMolecular Imaging Program at Stanford (MIPS),Bio-X Program,and Department of Radiology,Canary Center at Stanford for Cancer Early Detection, Stanford University, Stanford, CA 94305-5344,USACenter for Molecular Imaging Research,Shanghai Institute of Materia Medica,Chinese Academy of Sciences,Shanghai 201203,ChinaMolecular Imaging Program at Stanford (MIPS),Bio-X Program,and Department of Radiology,Canary Center at Stanford for Cancer Early Detection, Stanford University, Stanford, CA 94305-5344,USAStanford Cardiovascular Institute,Stanford,CA 94305,USADivision of Cardiology,Department of Internal Medicine,Chang Gung Memorial Hospital,Linkou, Taiwan, 33305,ChinaDepartment of Biomedical Engineering,Southern University of Science and Technology,Shenzhen,Guangdong 518055,ChinaCenter for Molecular Imaging Research,Shanghai Institute of Materia Medica,Chinese Academy of Sciences,Shanghai 201203,ChinaMolecular Imaging Program at Stanford (MIPS),Bio-X Program,and Department of Radiology,Canary Center at Stanford for Cancer Early Detection, Stanford University, Stanford, CA 94305-5344,USAStem cell therapy holds high promises in regenerative medicine. The major challenge of clinical translation is to precisely and quantitatively evaluate the in vivo cell distribution, migration, and engraftment, which cannot be easily achieved by current techniques. To address this issue, for the first time, we have developed a molecular cell tracker with a strong fluorescence signal in the second near-infrared (NIR-II) window (1,000-1,700 nm) for real-time monitoring of in vivo cell behaviors in both healthy and diseased animal models. The NIR-II tracker (CelTrac1000) has shown complete cell labeling with low cytotoxicity and profound long-term tracking ability for 30 days in high spatiotemporal resolution for semiquantification of the biodistribution of transplanted stem cells. Taking advantage of the unique merits of CelTrac1000, the responses of transplanted stem cells to different diseased environments have been discriminated and unveiled. Furthermore, we also demonstrate CelTrac1000 as a universal and effective technique for ultrafast real-time tracking of the cellular migration and distribution in a 100 μm single-cell cluster spatial resolution, along with the lung contraction and heart beating. As such, this NIR-II tracker will shift the optical cell tracking into a single-cell cluster and millisecond temporal resolution for better evaluating and understanding stem cell therapy, affording optimal doses and efficacy.http://dx.doi.org/10.34133/2021/9798580
collection DOAJ
language English
format Article
sources DOAJ
author Hao Chen
Hao Chen
Huaxiao Yang
Chen Zhang
Si Chen
Si Chen
Xin Zhao
Mark Zhu
Zhiming Wang
Yuebing Wang
Hung-Ta Wo
Hung-Ta Wo
Kai Li
Zhen Cheng
Zhen Cheng
spellingShingle Hao Chen
Hao Chen
Huaxiao Yang
Chen Zhang
Si Chen
Si Chen
Xin Zhao
Mark Zhu
Zhiming Wang
Yuebing Wang
Hung-Ta Wo
Hung-Ta Wo
Kai Li
Zhen Cheng
Zhen Cheng
Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker
Research
author_facet Hao Chen
Hao Chen
Huaxiao Yang
Chen Zhang
Si Chen
Si Chen
Xin Zhao
Mark Zhu
Zhiming Wang
Yuebing Wang
Hung-Ta Wo
Hung-Ta Wo
Kai Li
Zhen Cheng
Zhen Cheng
author_sort Hao Chen
title Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker
title_short Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker
title_full Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker
title_fullStr Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker
title_full_unstemmed Differential Responses of Transplanted Stem Cells to Diseased Environment Unveiled by a Molecular NIR-II Cell Tracker
title_sort differential responses of transplanted stem cells to diseased environment unveiled by a molecular nir-ii cell tracker
publisher American Association for the Advancement of Science
series Research
issn 2639-5274
publishDate 2021-01-01
description Stem cell therapy holds high promises in regenerative medicine. The major challenge of clinical translation is to precisely and quantitatively evaluate the in vivo cell distribution, migration, and engraftment, which cannot be easily achieved by current techniques. To address this issue, for the first time, we have developed a molecular cell tracker with a strong fluorescence signal in the second near-infrared (NIR-II) window (1,000-1,700 nm) for real-time monitoring of in vivo cell behaviors in both healthy and diseased animal models. The NIR-II tracker (CelTrac1000) has shown complete cell labeling with low cytotoxicity and profound long-term tracking ability for 30 days in high spatiotemporal resolution for semiquantification of the biodistribution of transplanted stem cells. Taking advantage of the unique merits of CelTrac1000, the responses of transplanted stem cells to different diseased environments have been discriminated and unveiled. Furthermore, we also demonstrate CelTrac1000 as a universal and effective technique for ultrafast real-time tracking of the cellular migration and distribution in a 100 μm single-cell cluster spatial resolution, along with the lung contraction and heart beating. As such, this NIR-II tracker will shift the optical cell tracking into a single-cell cluster and millisecond temporal resolution for better evaluating and understanding stem cell therapy, affording optimal doses and efficacy.
url http://dx.doi.org/10.34133/2021/9798580
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