Acute and long-term effects after single loading of functionalized multi-walled carbon nanotubes into zebrafish ( Danio rerio)

Carbon nanotubes (CNTs) are widely explored for biomedical applications, but there is very limited information regarding their in vivo biodistribution and biocompatibility. Here, we report the in vivo biodistribution and long-term effects of functionalized multi-walled carbon nanotubes (MWCNTs) in d...

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Veröffentlicht in:	Toxicology and applied pharmacology 2009-03, Vol.235 (2), p.216-225
Hauptverfasser:	Cheng, Jinping, Chan, Chung Man, Veca, L. Monica, Poon, Wing Lin, Chan, Po Kwok, Qu, Liangwei, Sun, Ya-Ping, Cheng, Shuk Han
Format:	Artikel
Sprache:	eng
Schlagworte:	60 APPLIED LIFE SCIENCES Animals Biological and medical sciences Biomarkers Blastoderm - cytology Blastoderm - metabolism BLOOD CELLS CARBON Cell Nucleus - metabolism Cell Nucleus - ultrastructure Cytoskeleton - metabolism Cytoskeleton - ultrastructure Danio rerio EGGS Embryo, Nonmammalian - cytology Embryo, Nonmammalian - metabolism EMBRYOS FERTILIZATION Fluorescein-5-isothiocyanate Fluorescent Dyes GERM CELLS IN VIVO In vivo biodistribution Larva - metabolism LARVAE Long-term effects Materials Testing Medical sciences Microinjections Microscopy, Atomic Force Microscopy, Electron Multi-walled carbon nanotubes NANOTUBES Nanotubes - toxicity REPRODUCTION Reproduction potential Serum Albumin, Bovine - chemistry Serum Albumin, Bovine - toxicity Survival Survival Analysis Tissue Distribution TOXICITY Toxicology TRANSMISSION ELECTRON MICROSCOPY Zebrafish Zebrafish - physiology
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container_title	Toxicology and applied pharmacology
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creator	Cheng, Jinping Chan, Chung Man Veca, L. Monica Poon, Wing Lin Chan, Po Kwok Qu, Liangwei Sun, Ya-Ping Cheng, Shuk Han
description	Carbon nanotubes (CNTs) are widely explored for biomedical applications, but there is very limited information regarding their in vivo biodistribution and biocompatibility. Here, we report the in vivo biodistribution and long-term effects of functionalized multi-walled carbon nanotubes (MWCNTs) in developing zebrafish. The fluorescent-labeled MWCNTs were introduced into zebrafish embryos at 1-cell stage and at 72 h post fertilization through microinjection. After single injection, both acute and long-term interactions between zebrafish and functionalized MWCNTs were studied. The injected FITC-BSA-MWCNTs (at 1-cell stage) were allocated to all blastoderm cells of the embryos through proliferation, and were distinctively excluded from the yolk cell. When introduced into the circulation system, FITC-BSA-MWCNTs moved easily in the compartments and finally were cleaned out by the body at 96 h after the loading. At early stages, the treated zebrafish embryos generated immune response by accumulating circulating white blood cells at the trunk region. Under transmission electron microscope, many lysosome-like vesicles were observed in the blastoderm cells of the treated embryos. The zebrafish loaded with MWCNTs had normal primordial germ cells at early stage and produced second generation later on. However, the larvae of the second generation had obviously lower survival rates as compared to the untreated groups, suggesting a negative effect on the reproduction potential. These results suggest that extensive purification and functionalization processes can help improve the biocompatibility of CNTs. This study also indicates that purified CNTs may have long-term toxicity effects when they were delivered into the body.
doi_str_mv	10.1016/j.taap.2008.12.006
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Monica ; Poon, Wing Lin ; Chan, Po Kwok ; Qu, Liangwei ; Sun, Ya-Ping ; Cheng, Shuk Han</creator><creatorcontrib>Cheng, Jinping ; Chan, Chung Man ; Veca, L. Monica ; Poon, Wing Lin ; Chan, Po Kwok ; Qu, Liangwei ; Sun, Ya-Ping ; Cheng, Shuk Han</creatorcontrib><description>Carbon nanotubes (CNTs) are widely explored for biomedical applications, but there is very limited information regarding their in vivo biodistribution and biocompatibility. Here, we report the in vivo biodistribution and long-term effects of functionalized multi-walled carbon nanotubes (MWCNTs) in developing zebrafish. The fluorescent-labeled MWCNTs were introduced into zebrafish embryos at 1-cell stage and at 72 h post fertilization through microinjection. After single injection, both acute and long-term interactions between zebrafish and functionalized MWCNTs were studied. The injected FITC-BSA-MWCNTs (at 1-cell stage) were allocated to all blastoderm cells of the embryos through proliferation, and were distinctively excluded from the yolk cell. When introduced into the circulation system, FITC-BSA-MWCNTs moved easily in the compartments and finally were cleaned out by the body at 96 h after the loading. At early stages, the treated zebrafish embryos generated immune response by accumulating circulating white blood cells at the trunk region. Under transmission electron microscope, many lysosome-like vesicles were observed in the blastoderm cells of the treated embryos. The zebrafish loaded with MWCNTs had normal primordial germ cells at early stage and produced second generation later on. However, the larvae of the second generation had obviously lower survival rates as compared to the untreated groups, suggesting a negative effect on the reproduction potential. 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Monica</creatorcontrib><creatorcontrib>Poon, Wing Lin</creatorcontrib><creatorcontrib>Chan, Po Kwok</creatorcontrib><creatorcontrib>Qu, Liangwei</creatorcontrib><creatorcontrib>Sun, Ya-Ping</creatorcontrib><creatorcontrib>Cheng, Shuk Han</creatorcontrib><title>Acute and long-term effects after single loading of functionalized multi-walled carbon nanotubes into zebrafish ( Danio rerio)</title><title>Toxicology and applied pharmacology</title><addtitle>Toxicol Appl Pharmacol</addtitle><description>Carbon nanotubes (CNTs) are widely explored for biomedical applications, but there is very limited information regarding their in vivo biodistribution and biocompatibility. Here, we report the in vivo biodistribution and long-term effects of functionalized multi-walled carbon nanotubes (MWCNTs) in developing zebrafish. The fluorescent-labeled MWCNTs were introduced into zebrafish embryos at 1-cell stage and at 72 h post fertilization through microinjection. After single injection, both acute and long-term interactions between zebrafish and functionalized MWCNTs were studied. The injected FITC-BSA-MWCNTs (at 1-cell stage) were allocated to all blastoderm cells of the embryos through proliferation, and were distinctively excluded from the yolk cell. When introduced into the circulation system, FITC-BSA-MWCNTs moved easily in the compartments and finally were cleaned out by the body at 96 h after the loading. At early stages, the treated zebrafish embryos generated immune response by accumulating circulating white blood cells at the trunk region. Under transmission electron microscope, many lysosome-like vesicles were observed in the blastoderm cells of the treated embryos. The zebrafish loaded with MWCNTs had normal primordial germ cells at early stage and produced second generation later on. However, the larvae of the second generation had obviously lower survival rates as compared to the untreated groups, suggesting a negative effect on the reproduction potential. These results suggest that extensive purification and functionalization processes can help improve the biocompatibility of CNTs. This study also indicates that purified CNTs may have long-term toxicity effects when they were delivered into the body.</description><subject>60 APPLIED LIFE SCIENCES</subject><subject>Animals</subject><subject>Biological and medical sciences</subject><subject>Biomarkers</subject><subject>Blastoderm - cytology</subject><subject>Blastoderm - metabolism</subject><subject>BLOOD CELLS</subject><subject>CARBON</subject><subject>Cell Nucleus - metabolism</subject><subject>Cell Nucleus - ultrastructure</subject><subject>Cytoskeleton - metabolism</subject><subject>Cytoskeleton - ultrastructure</subject><subject>Danio rerio</subject><subject>EGGS</subject><subject>Embryo, Nonmammalian - cytology</subject><subject>Embryo, Nonmammalian - metabolism</subject><subject>EMBRYOS</subject><subject>FERTILIZATION</subject><subject>Fluorescein-5-isothiocyanate</subject><subject>Fluorescent Dyes</subject><subject>GERM CELLS</subject><subject>IN VIVO</subject><subject>In vivo biodistribution</subject><subject>Larva - metabolism</subject><subject>LARVAE</subject><subject>Long-term effects</subject><subject>Materials Testing</subject><subject>Medical sciences</subject><subject>Microinjections</subject><subject>Microscopy, Atomic Force</subject><subject>Microscopy, Electron</subject><subject>Multi-walled carbon nanotubes</subject><subject>NANOTUBES</subject><subject>Nanotubes - toxicity</subject><subject>REPRODUCTION</subject><subject>Reproduction potential</subject><subject>Serum Albumin, Bovine - chemistry</subject><subject>Serum Albumin, Bovine - toxicity</subject><subject>Survival</subject><subject>Survival Analysis</subject><subject>Tissue Distribution</subject><subject>TOXICITY</subject><subject>Toxicology</subject><subject>TRANSMISSION ELECTRON MICROSCOPY</subject><subject>Zebrafish</subject><subject>Zebrafish - physiology</subject><issn>0041-008X</issn><issn>1096-0333</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2009</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kU2LFDEQhoMo7uzoH_AgAVH00G2-uqcb9rLs-gULXhS8heqkspuhJxmTtOIe_O1mmEFvnqqKeqoqb15CnnHWcsb7t9u2AOxbwdjQctEy1j8gK87GvmFSyodkxZjiTe1-OyPnOW8ZY6NS_DE54yOXUgxqRX5fmqUghWDpHMNtUzDtKDqHpmQKrpY0-3A7Y22DrRmNjrolmOJjgNnfo6W7ZS6--QnzXAsDaYqBBgixLBNm6kOJ9B6nBM7nO_qaXkPwkSZMPr55Qh45mDM-PcU1-fr-3Zerj83N5w-fri5vGqOULE0vQPCuY2i4ZcIhH7pxcgMqBCsVt1I4teF2tGPXwdiNphMdbCbTK8UccJRr8uK4N-bidTa-oLkzMYSqUwvOB7FRY6VeHal9it8XzEXvfDY4zxAwLlkLJruh38gKiiNoUsw5odP75HeQfmnO9MEbvdUHb_TBG82Frt7Uoeen7cu0Q_tv5GRGBV6eAMgGZpcgGJ__coKLbiPq-TW5OHJYf-yHx3QQhMGg9emgx0b_v3f8Aa59rbA</recordid><startdate>20090301</startdate><enddate>20090301</enddate><creator>Cheng, Jinping</creator><creator>Chan, Chung Man</creator><creator>Veca, L. 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Monica</au><au>Poon, Wing Lin</au><au>Chan, Po Kwok</au><au>Qu, Liangwei</au><au>Sun, Ya-Ping</au><au>Cheng, Shuk Han</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Acute and long-term effects after single loading of functionalized multi-walled carbon nanotubes into zebrafish ( Danio rerio)</atitle><jtitle>Toxicology and applied pharmacology</jtitle><addtitle>Toxicol Appl Pharmacol</addtitle><date>2009-03-01</date><risdate>2009</risdate><volume>235</volume><issue>2</issue><spage>216</spage><epage>225</epage><pages>216-225</pages><issn>0041-008X</issn><eissn>1096-0333</eissn><coden>TXAPA9</coden><abstract>Carbon nanotubes (CNTs) are widely explored for biomedical applications, but there is very limited information regarding their in vivo biodistribution and biocompatibility. Here, we report the in vivo biodistribution and long-term effects of functionalized multi-walled carbon nanotubes (MWCNTs) in developing zebrafish. The fluorescent-labeled MWCNTs were introduced into zebrafish embryos at 1-cell stage and at 72 h post fertilization through microinjection. After single injection, both acute and long-term interactions between zebrafish and functionalized MWCNTs were studied. The injected FITC-BSA-MWCNTs (at 1-cell stage) were allocated to all blastoderm cells of the embryos through proliferation, and were distinctively excluded from the yolk cell. When introduced into the circulation system, FITC-BSA-MWCNTs moved easily in the compartments and finally were cleaned out by the body at 96 h after the loading. At early stages, the treated zebrafish embryos generated immune response by accumulating circulating white blood cells at the trunk region. Under transmission electron microscope, many lysosome-like vesicles were observed in the blastoderm cells of the treated embryos. The zebrafish loaded with MWCNTs had normal primordial germ cells at early stage and produced second generation later on. However, the larvae of the second generation had obviously lower survival rates as compared to the untreated groups, suggesting a negative effect on the reproduction potential. These results suggest that extensive purification and functionalization processes can help improve the biocompatibility of CNTs. This study also indicates that purified CNTs may have long-term toxicity effects when they were delivered into the body.</abstract><cop>Amsterdam</cop><pub>Elsevier Inc</pub><pmid>19133284</pmid><doi>10.1016/j.taap.2008.12.006</doi><tpages>10</tpages></addata></record>
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subjects	60 APPLIED LIFE SCIENCES Animals Biological and medical sciences Biomarkers Blastoderm - cytology Blastoderm - metabolism BLOOD CELLS CARBON Cell Nucleus - metabolism Cell Nucleus - ultrastructure Cytoskeleton - metabolism Cytoskeleton - ultrastructure Danio rerio EGGS Embryo, Nonmammalian - cytology Embryo, Nonmammalian - metabolism EMBRYOS FERTILIZATION Fluorescein-5-isothiocyanate Fluorescent Dyes GERM CELLS IN VIVO In vivo biodistribution Larva - metabolism LARVAE Long-term effects Materials Testing Medical sciences Microinjections Microscopy, Atomic Force Microscopy, Electron Multi-walled carbon nanotubes NANOTUBES Nanotubes - toxicity REPRODUCTION Reproduction potential Serum Albumin, Bovine - chemistry Serum Albumin, Bovine - toxicity Survival Survival Analysis Tissue Distribution TOXICITY Toxicology TRANSMISSION ELECTRON MICROSCOPY Zebrafish Zebrafish - physiology
title	Acute and long-term effects after single loading of functionalized multi-walled carbon nanotubes into zebrafish ( Danio rerio)
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