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Developmental toxicity of low generation PAMAM dendrimers in zebrafish

Biological molecules and intracellular structures operate at the nanoscale; therefore, development of nanomedicines shows great promise for the treatment of disease by using targeted drug delivery and gene therapies. PAMAM dendrimers, which are highly branched polymers with low polydispersity and hi...

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Published in:	Toxicology and applied pharmacology 2007-11, Vol.225 (1), p.70-79
Main Authors:	King Heiden, Tisha C., Dengler, Emelyne, Kao, Weiyuan John, Heideman, Warren, Peterson, Richard E.
Format:	Article
Language:	English
Subjects:	60 APPLIED LIFE SCIENCES Animals Biological and medical sciences CARBOXYLIC ACIDS CELL CULTURES Danio rerio Dendrimer Dendrimers Developmental toxicity Dose-Response Relationship, Drug Drug Carriers - administration & dosage Drug Carriers - chemistry Drug Carriers - toxicity Drug Delivery Systems DRUGS Embryology: invertebrates and vertebrates. Teratology Embryonic Development - drug effects EMBRYOS Fundamental and applied biological sciences. Psychology GENE THERAPY Integrins - metabolism LIGANDS Medical sciences Models, Animal NANOSTRUCTURES Nanotherapeutics Nanotoxicology Oligopeptides - administration & dosage Oligopeptides - toxicity Polyamines - administration & dosage Polyamines - chemistry Polyamines - toxicity PUBLIC HEALTH RECEPTORS RGD Structure-Activity Relationship Teratology. Teratogens Time Factors TOXICITY Toxicity Tests Toxicology Zebrafish Zebrafish embryo
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creator	King Heiden, Tisha C. Dengler, Emelyne Kao, Weiyuan John Heideman, Warren Peterson, Richard E.
description	Biological molecules and intracellular structures operate at the nanoscale; therefore, development of nanomedicines shows great promise for the treatment of disease by using targeted drug delivery and gene therapies. PAMAM dendrimers, which are highly branched polymers with low polydispersity and high functionality, provide an ideal architecture for construction of effective drug carriers, gene transfer devices and imaging of biological systems. For example, dendrimers bioconjugated with selective ligands such as Arg–Gly–Asp (RGD) would theoretically target cells that contain integrin receptors and show potential for use as drug delivery devices. While RGD-conjugated dendrimers are generally considered not to be cytotoxic, there currently exists little information on the risks that such materials pose to human health. In an effort to compliment and extend the knowledge gleaned from cell culture assays, we have used the zebrafish embryo as a rapid, medium throughput, cost-effective whole-animal model to provide a more comprehensive and predictive developmental toxicity screen for nanomaterials such as PAMAM dendrimers. Using the zebrafish embryo, we have assessed the developmental toxicity of low generation (G3.5 and G4) PAMAM dendrimers, as well as RGD-conjugated forms for comparison. Our results demonstrate that G4 dendrimers, which have amino functional groups, are toxic and attenuate growth and development of zebrafish embryos at sublethal concentrations; however, G3.5 dendrimers, with carboxylic acid terminal functional groups, are not toxic to zebrafish embryos. Furthermore, RGD-conjugated G4 dendrimers are less potent in causing embryo toxicity than G4 dendrimers. RGD-conjugated G3.5 dendrimers do not elicit toxicity at the highest concentrations tested and warrant further study for use as a drug delivery device.
doi_str_mv	10.1016/j.taap.2007.07.009
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Using the zebrafish embryo, we have assessed the developmental toxicity of low generation (G3.5 and G4) PAMAM dendrimers, as well as RGD-conjugated forms for comparison. Our results demonstrate that G4 dendrimers, which have amino functional groups, are toxic and attenuate growth and development of zebrafish embryos at sublethal concentrations; however, G3.5 dendrimers, with carboxylic acid terminal functional groups, are not toxic to zebrafish embryos. Furthermore, RGD-conjugated G4 dendrimers are less potent in causing embryo toxicity than G4 dendrimers. 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PAMAM dendrimers, which are highly branched polymers with low polydispersity and high functionality, provide an ideal architecture for construction of effective drug carriers, gene transfer devices and imaging of biological systems. For example, dendrimers bioconjugated with selective ligands such as Arg–Gly–Asp (RGD) would theoretically target cells that contain integrin receptors and show potential for use as drug delivery devices. While RGD-conjugated dendrimers are generally considered not to be cytotoxic, there currently exists little information on the risks that such materials pose to human health. In an effort to compliment and extend the knowledge gleaned from cell culture assays, we have used the zebrafish embryo as a rapid, medium throughput, cost-effective whole-animal model to provide a more comprehensive and predictive developmental toxicity screen for nanomaterials such as PAMAM dendrimers. Using the zebrafish embryo, we have assessed the developmental toxicity of low generation (G3.5 and G4) PAMAM dendrimers, as well as RGD-conjugated forms for comparison. Our results demonstrate that G4 dendrimers, which have amino functional groups, are toxic and attenuate growth and development of zebrafish embryos at sublethal concentrations; however, G3.5 dendrimers, with carboxylic acid terminal functional groups, are not toxic to zebrafish embryos. Furthermore, RGD-conjugated G4 dendrimers are less potent in causing embryo toxicity than G4 dendrimers. 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subjects	60 APPLIED LIFE SCIENCES Animals Biological and medical sciences CARBOXYLIC ACIDS CELL CULTURES Danio rerio Dendrimer Dendrimers Developmental toxicity Dose-Response Relationship, Drug Drug Carriers - administration & dosage Drug Carriers - chemistry Drug Carriers - toxicity Drug Delivery Systems DRUGS Embryology: invertebrates and vertebrates. Teratology Embryonic Development - drug effects EMBRYOS Fundamental and applied biological sciences. Psychology GENE THERAPY Integrins - metabolism LIGANDS Medical sciences Models, Animal NANOSTRUCTURES Nanotherapeutics Nanotoxicology Oligopeptides - administration & dosage Oligopeptides - toxicity Polyamines - administration & dosage Polyamines - chemistry Polyamines - toxicity PUBLIC HEALTH RECEPTORS RGD Structure-Activity Relationship Teratology. Teratogens Time Factors TOXICITY Toxicity Tests Toxicology Zebrafish Zebrafish embryo
title	Developmental toxicity of low generation PAMAM dendrimers in zebrafish
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