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Toxicology Mechanisms and Methods Volume 23, 2013 - Issue 3: Special Issue: Nanotoxicology
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Research Article

Methodological approaches for nanotoxicology using cnidarian models

Alfredo AmbrosoneIstituto di Cibernetica E. Caianiello, Consiglio Nazionale delle Ricerche PozzuoliItaly
&
Claudia TortiglioneIstituto di Cibernetica E. Caianiello, Consiglio Nazionale delle Ricerche PozzuoliItalyCorrespondence[email protected]
Pages 207-216 | Received 14 Sep 2012, Accepted 03 Nov 2012, Published online: 12 Jan 2013

References

  • Ambrosone A, Marchesano V, Tino A, et al. (2012a). Hymyc1 downregulation promotes stem cell proliferation in Hydra vulgaris. PLoS One 7:e30660
  • Ambrosone A, Mattera L, Marchesano V, et al. (2012b). Mechanisms underlying toxicity induced by CdTe quantum dots determined in an invertebrate model organism. Biomaterials 33:1991–2000
  • Augustin MA, Sanguansri P. (2009). Nanostructured materials in the food industry. Adv Food Nutr Res 58:183–213
  • Baun A, Hartmann NB, Grieger K, et al. (2008). Ecotoxicity of engineered nanoparticles to aquatic invertebrates: a brief review and recommendations for future toxicity testing. Ecotoxicology 17:387–95
  • Bhabra G, Sood A, Fisher B, et al. (2009). Nanoparticles can cause DNA damage across a cellular barrier. Nat Nanotechnol 4:876–83
  • Blaise C, Gagne F, Ferard JF, et al. (2008). Ecotoxicity of selected nano-materials to aquatic organisms. Environ Toxicol 23:591–8
  • Bode HR. (2003). Head regeneration in Hydra. Dev Dyn 226:225–36
  • Bosch TC, David CN. (1984). Growth regulation in Hydra: relationship between epithelial cell cycle length and growth rate. Dev Biol 104:161–71
  • Bossert P, Galliot B. (2012). How to use Hydra as a model system to teach biology in the classroom. Int J Dev Biol 56:637–52
  • Burton PM, Finnerty JR. (2009). Conserved and novel gene expression between regeneration and asexual fission in Nematostella vectensis. Dev Genes Evol 219:79–87
  • Chapman J, Kirkness E, Simakov O, et al. (2010). The dynamic genome of Hydra. Nature 464:592–6
  • Cikala M, Wilm B, Hobmayer E, et al. (1999). Identification of caspases and apoptosis in the simple metazoan Hydra. Curr Biol 9:959–62
  • Conde J, Ambrosone A, Sanz V, et al. (2012). Design of multifunctional gold nanoparticles for in vitro and in vivo gene silencing. ACS Nano 6:8316–24
  • David CN. (1973). A quantitative method for maceration of Hydra tissue. Wilhem Roux Archiv 171:259–68
  • Eaton M. (2007). Nanomedicine: industry-wise research. Nat Mater 6:251–3
  • Fritzenwanker JH, Technau U. (2002). Induction of gametogenesis in the basal cnidarian Nematostella vectensis (Anthozoa). Dev Genes Evol 212:99–103
  • Galliot B, Ghila L. (2010). Cell plasticity in homeostasis and regeneration. Mol Reprod Dev 77:837–55
  • Ghosh M, Manivannan J, Sinha S, et al. (2012). In vitro and in vivo genotoxicity of silver nanoparticles. Mutat Res 749:60–9
  • Goldstone JV. (2008). Environmental sensing and response genes in cnidaria: the chemical defensome in the sea anemone Nematostella vectensis. Cell Biol Toxicol 24:483–502
  • Goldstone JV, Hamdoun A, Cole BJ, et al. (2006). The chemical defensome: environmental sensing and response genes in the Strongylocentrotus purpuratus genome. Dev Biol 300:366–84
  • Gratzner HG. (1982). Monoclonal antibody to 5-bromo-2-deoxyuridine: a new reagent for detection of DNA replication. Science 218:747–8
  • Hamilton MA, Russo RC, Thurston RV. (1977). Trimmed Spearman--Karber method for estimating median lethal concentrations in toxicity bioassays. Environ Sci Technol 11:714–19
  • Harter VL, Matthews RA. (2005). Acute and chronic toxicity test methods for Nematostella vectensis Stephenson. Bull Environ Contam Toxicol 74:830–6
  • Hartl M, Mitterstiller AM, Valovka T, et al. (2010). Stem cell-specific activation of an ancestral myc protooncogene with conserved basic functions in the early metazoan Hydra. Proc Natl Acad Sci USA 107:4051–6
  • Holdway DA, Lok K, Semaan M. (2001). The acute and chronic toxicity of cadmium and zinc to two hydra species. Environ Toxicol 16:557–65
  • Holstein TW, Hobmayer E, Technau U. (2003). Cnidarians: an evolutionarily conserved model system for regeneration? Dev Dyn 226:257–67
  • Johnson E, Gabel B. (1983). An artificial ‘embryo’ for detection of abnormal developmental biology. Fundam Appl Toxicol 3:243–9
  • Johnson E, Gorman R, Gabel B, et al. (1982). The Hydra attenuata system for detection of teratogenic hazards. Teratog Carcinog Mutagen 2:263–76
  • Karntanut W, Pascoe D. (2002). The toxicity of copper, cadmium and zinc to four different Hydra (Cnidaria: Hydrozoa). Chemosphere 47:1059–64
  • Kusserow A, Pang K, Sturm C, et al. (2005). Unexpected complexity of the Wnt gene family in a sea anemone. Nature 433:156–60
  • Lasi M, David C, Böttger A. (2010a). Apoptosis in pre-bilaterians: Hydra as a model. Apoptosis 15:269–78
  • Lasi M, Pauly B, Schmidt N, et al. (2010b). The molecular cell death machinery in the simple cnidarian Hydra includes an expanded caspase family and pro- and anti-apoptotic Bcl-2 proteins. Cell Res 20:812–25
  • Latt SA. (1977). Fluorometric detection of deoxyri-bonucleic acid synthesis: possibilities for inter-facing bromodeoxyuridine dye techniques with flow cytometry. J Histochem Cytochem 25:913–26
  • Lee J, Ji K, Kim J, et al. (2009). Acute toxicity of two CdSe/ZnSe quantum dots with different surface coating in Daphnia magna under various light conditions. Environ Toxicol 25:593–600
  • Lee J, Mahendra S, Alvarez PJ. (2010). Nanomaterials in the construction industry: a review of their applications and environmental health and safety considerations. ACS nano 4:3580–90
  • Loomis WF, Lenhoff HM. (1956). Growth and sexual differentiation of Hydra in mass culture. J Exp Zool 132:555–74
  • Malvindi MA, Carbone L, Quarta A, et al. (2008). Rod-shaped nanocrystals elicit neuronal activity in vivo. Small 4:1747–55
  • Marlow HQ, Srivastava M, Matus DQ, et al. (2009). Anatomy and development of the nervous system of Nematostella vectensis, an anthozoan cnidarian. Dev Neurobiol 69:235–54
  • Matus DQ, Pang K, Marlow H, et al. (2006). Molecular evidence for deep evolutionary roots of bilaterality in animal development. Proc Natl Acad Sci USA 103:11195–200
  • Morris VJ. (2011). Emerging roles of engineered nanomaterials in the food industry. Trends Biotechnol 29:509–16
  • Mu L, Sprando RL. (2010). Application of nanotechnology in cosmetics. Pharm Res 27:1746–9
  • Nunez G, Benedict MA, Hu Y, et al. (1998). Caspases: the proteases of the apoptotic pathway. Oncogene 17:3237–45
  • Oberdorster G. (2010). Safety assessment for nanotechnology and nanomedicine: concepts of nanotoxicology. J Intern Med 267:89–105
  • Oberdorster G. (2012). Nanotoxicology: in vitro–in vivo dosimetry. Environ Health Perspect 120:A13; author reply A13
  • Pachura S, Cambon JP, Blaise C, et al. (2005). 4-Nonylphenol-induced toxicity and apoptosis in Hydra attenuata. Environ Toxicol Chem 24:3085–91
  • Pascoe D, Carroll K, Karntanut W, et al. (2002). Toxicity of 17alpha-ethinylestradiol and bisphenol A to the freshwater cnidarian Hydra vulgaris. Arch Environ Contam Toxicol 43:56–63
  • Pascoe D, Karntanut W, Muller CT. (2003). Do pharmaceuticals affect freshwater invertebrates? A study with the cnidarian Hydra vulgaris. Chemosphere 51:521–8
  • Peyrot C, Gagnon C, Gagne F, et al. (2009). Effects of cadmium telluride quantum dots on cadmium bioaccumulation and metallothionein production to the freshwater mussel, Elliptio complanata. Comp Biochem Physiol C: Toxicol Pharmacol 150:246–51
  • Pierobon P, Sogliano C, Minei R, et al. (2004). Putative NMDA receptors in Hydra: a biochemical and functional study. Eur J Neurosci 20:2598–604
  • Pollino CA, Holdway DA. (1999). Potential of two hydra species as standard toxicity test animals. Ecotoxicol Environ Saf 43:309–16
  • Putnam NH, Srivastava M, Hellsten U, et al. (2007). Sea anemone genome reveals ancestral eumetazoan gene repertoire and genomic organization. Science 317:86–94
  • Quinn B, Gagne F, Blaise C. (2008). The effects of pharmaceuticals on the regeneration of the cnidarian, Hydra attenuata. Sci Total Environ 402:62–9
  • Quinn B, Gagne FO, Blaise C. (2012). Hydra, a model system for environmental studies. Int J Dev Biol 56:613–25
  • Reiter S, Crescenzi M., Galliot B, et al. (2012). Hydra, a versatile model to study the homeostatic and developmental functions of cell death. Int J Dev Biol 56:593–604
  • Rosenkrantz RT, Pollino CA, Nugegoda D, et al. (2008). Toxicity of water and sediment from stormwater retarding basins to Hydra hexactinella. Environ Pollut 156:922–7
  • Ryan JF, Mazza ME, Pang K, et al. (2007). Pre-bilaterian origins of the Hox cluster and the Hox code: evidence from the sea anemone, Nematostella vectensis. PLoS One 2:e153
  • Sanchez Alvarado A, Tsonis PA. (2006). Bridging the regeneration gap: genetic insights from diverse animal models. Nat Rev Genet 7:873–84
  • Singh N, Manshian B, Jenkins G, et al. (2009). Nanogenotoxicology: the DNA damaging potential of engineered nanomaterials. Biomaterials 30:3891–914
  • Steele R. (2012). The Hydra genome: insights, puzzles and opportunities for developmental biologists. Int J Dev Biol 56:535–42
  • Steele RE, David CN, Technau U. (2011). A genomic view of 500 million years of cnidarian evolution. Trends Genet 27:7–13
  • Technau U, Steele RE. (2011). Evolutionary crossroads in developmental biology: cnidaria. Development 138:1447–58
  • Tino A, Ambrosone A, Mattera L, et al. (2011). A new in vivo model system to assess the toxicity of semiconductor nanocrystals. Int J Biomater 2011:792–854
  • Trevino M, Stefanik DJ, Rodriguez R, et al. (2011). Induction of canonical Wnt signaling by alsterpaullone is sufficient for oral tissue fate during regeneration and embryogenesis in Nematostella vectensis. Dev Dyn 240:2673–9
  • Wilby OK. (1988). The Hydra regeneration assay. Proceedings of workshop organised by Association Francaise de Teratologie: 108–24
  • Wilby OK, Tesh JM. (1990). The Hydra assay as an early screen for teratogenic potential. Toxicol In Vitro 4:582–3
  • Youns M, Hoheisel JD, Efferth T. (2011). Therapeutic and diagnostic applications of nanoparticles. Curr Drug Targets 12:357–65

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