Advanced search
Publication Cover
Systems Biology in Reproductive Medicine Volume 58, 2012 - Issue 1: Special Issue: SBiRM: Invited Papers from MPI Research Summit/Symposium: Current Trends in Developmental and Reproductive Toxicology - August 21-23, 2011
Submit an article Journal homepage
1,729
Views
32
CrossRef citations to date
0
Altmetric
Research Articles

Alternative models in developmental toxicology

Hyung-yul Lee Division of Personalized Nutrition and Medicine
,
Amy L. Inselman Division of Personalized Nutrition and Medicine
,
Jyotshnabala Kanungo Division of Neurotoxicology, FDA//National Center for Toxicological Research, Jefferson, AR, USA
&
Deborah K. Hansen Division of Personalized Nutrition and MedicineCorrespondence[email protected]
Pages 10-22 | Received 20 Sep 2011, Accepted 22 Nov 2011, Published online: 12 Jan 2012

References

  • http:////ecvam-dbalm.jrc.ec.europa.eu
  • http:////www.epa.gov//ncct//toxrefdb
  • Adler, S., Pellizzer, C., Hareng, L., Hartung, T. and Bremer, S. (2008) First steps in establishing a developmental toxicity test method based on human embryonic stem cells. Toxicol in vitro 22:200–211.
  • Andrews, J.E., Ebron-McCoy, M., Logsdon, T.R., Mole, L.M., Kavlock, R.J.and Rogers, J.M. (1993) Deveopmental toxicity of methanol in whole embryo culture: A comparative study with mouse and rat embryos. Toxicology 81:205–215.
  • Andrews, J.E., Nichols, H.P., Schmid, J.E., Mole, L.M., Hunter E.S.3rd and Klinefelter, G.R. (2004) Developmental toxicity of mixtures: The water disinfection by-products dichloro-, dibromo- and bromochloror acetic acid in rat embryo culture. Reprod Toxicol 19:111–116.
  • Barrier, M. Jeffay, S., Nichols, H.P., Chandler, K.J., Hoopes, M.R., Slentz-Kesler, K., (2011) Mouse embryonic stem cell adherent cell differentiation and cytotoxicity (ACDC) assay. Reprod Toxicol 31:383–391.
  • Bjorke-Monsen, A.L., Ueland, P.M., Schneede, J., Vollset, S.E. and Refsum, H. (1997) Elevated plasma total homocysteine and C677T mutation of the methylenetetrahydrofolate reductase gene in patients with spina bifida. Q J Med 90:593–596.
  • Brannen, K.C., Panzica-Kelly, J.M., Danberry, T.I. and Augustine-Rauch, K.A. (2010) Development of a zebrafish embryo teratogenicity assay and quantitative prediction model. Birth Def Res B 89:66–77.
  • Brown, N.A. (2002) Selection of test chemicals for the ECVAM international validation study on in vitro embryotoxicity tests. European Centre for the Validation of Alternatives Methods. Altern Lab Anim 30:177–198.
  • Brown, N.A. and Fabro, S. (1981) Quantitation of rat embryonic development in vitro: A morphological scoring system. Teratology 24:65–78.
  • Buesen, R., Visan, A., Genschow, E., Slawik, B., Spielmann, H. and Seiler, A. (2004) Trends in improving the embryonic stem cell test (EST): an overview. ALTEX 21:15–22.
  • Carney, E.W., Tornesi, B., Keller, C., Findlay, H.A., Nowland, W.S., Marshall, V.A., (2007) Refinement of a morphological scoring system for postimplantation rabbit conceptuses. Birth Defects Res B 80:213–222.
  • Carney, E.W., Tornesi, B., Markham, D.A., Rasoulpour, R.J. and Moore, N. (2008) Species-specificity of ethylene glycol-induced developmental toxicity: Toxicokinetic and whole embryo culture studies in the rabbit. Birth Def Res B 83:573–581.
  • Chandler, K.J., Barrier, M., Jeffay, S, Nichols, H.P., Kleinstreuer, N.C., Singh, A.V., (2011) Evaluation of 309 environmental chemicals using a mouse embryonic stem cell adherent cell differentiation and cytotoxicity assay.PLoS One 6(6):pe18540.
  • Chapin, R., Augustine-Rauch, K., Beyer, B., Daston, G., Finnell, R., Flynn, T., (2008) State of the art in developmental toxicity screening methods and a way forward: A meeting report addressing embryonic stem cells, whole embryo culture, and zebrafish. Birth Def Res B 83:446–456.
  • Chatot, C.L., Klein, N.W., Clapper, M.L., Resor, S.R., Singer, W.D., Russman, B.S., (1984) Human serum teratogenicity studied by rat embryo culture: Epilepsy, anticonvulsant drugs, and nutrition. Epilepsia 25:205–216.
  • Daston, G.P. (1996) The theoretical and empirical case for in vitro developmental toxicity screens, and potential applications. Teratology 53:339–344.
  • Daston, G.P., Chapin, R.E., Scialli, A.R., Piersma, A.H., Carney, E.W., Rogers, J.M., (2010) A different approach to validating screening assays for developmental toxicity. Birth Def Res B 89:526–530.
  • De Jong, E., Barenys, M., Hermsen, S.A.B., Verhoef, A., Ossendorp, B.C., Bessems, J.G.M., (2011) Comparison of the mouse embryonic stem cell test, the rat whole embryo culture and the zebrafish embryotoxicity test as alternative methods for developmental toxicity testing of six 1,2,4-triazoles. Toxicol Appl Pharmacol 251:103–111.
  • EFSA (2005) Opinion of the Scientific Panel on Animal Health and Welfare on a request from the Commission related to the aspects of the biology and welfare of animals used for experimental and other scientific purposes (EFSA-Q-2004-105). EFSA J 292:1–46.
  • EU Directive (2010) EU Directive 2010//63//EU of the European parliament and the council of 22 September 2010. On the protection of animals used for scientific purposes. Off J EU 276:33–79.
  • Evans, M.J. and Kaufman, M.H. (1981) Establishment in culture of pluripotential cells from mouse embryos. Nature 292:154–156.
  • Ferrari, D.A., Gilles, P.A., Klein, N.W., Nadler, D., Weeks, B.S., Lammi-Keefe, C.J., (1994) Rat embryo development on human sera is related to numbers of previous spontaneous abortions and nutritional factors. Am J Obstet Gynecol 170:228–236.
  • Flynn, T.J., Collins, T.F.X., Sprando, R.L., Black, T.N., Ruggles, D.I., Wiesenfeld, P.W., (2003) Developmental effects of serum from flaxseed-fed rats on cultured rat embryos. Food Chem Toxicol 41:835–840.
  • Garg, R.C., Bracken, W.M. and Hoberman, A.M. (2011) Reproductive and developmental safety evaluation of new pharmaceutical compounds. In Reproductive and Developmental Toxicology, ed.Gupta R.C., Elsevier Inc., Boston, MA, USA 89–109.
  • Genschow, E., Spielmann, H., Scholz, G., Seiler, A., Brown, N., Piersma, A., (2002) The ECVAM international validation study on in vitro embryotoxicity tests: Results of the definitive phase and evaluation of prediction models. Altern Lab Anim 30:151–176
  • Greene, N.D.E., Dunlevy, L.P.E. and Copp, A.J. (2003) Homocysteine is embryotoxic but does not cause neural tube defects in mouse embryos. Anat Embryol (Berl) 206:185–191.
  • Hansen, D.K. (1993) In vitro effects of folate derivatives on valproate-induced neural tube defects in mouse and rat embryos. Toxicol In Vitro 7:735–742.
  • Hansen, D.K., Dial, S.L.and Grafton, T.F. (1995) Lack of attenuation of valproic acid-induced embryotoxicity by compounds involved in one-carbon transfer reactions. Toxicol In Vitro 9:615–621.
  • Hansen, D.K. and Grafton, T.F. (1991) Lack of attenuation of valproic acid-induced effects by folinic acid in rat embryos in vitro. Teratology 43:575–582.
  • Hansen, D.K. and Grafton, T.F. (1994) Comparison of dexamethasone-induced embryotoxicity in vitro in mouse and rat embryos. Teratogen Carcinogen Mutagen 14:281–289.
  • Hansen, D.K., Grafton, T.F., Melnyk, S. and James, S.J. (2001) Lack of embryotoxicity of homocysteine thiolactone in mouse embyros in vitro. Reprod Toxicol 15:239–244.
  • Hermsen, S.A.B., van den Brandhof, E.-J., van der Ven, L.E.M. and Piersma, A.H. (2011) Relative embryotoxicity of two classes of chemicals in a modified zebrafish embryotoxicity test and comparison with their in vivo potencies. Toxicol In Vitro 25:745–753.
  • Hettwer, M., Reis-Fernandes, M.A., Iken, M., Ott, M., Steinberg, P.and Nau, H. (2010) Metabolic activation capacity by primary hepatocytes expands the applicability of the embryonic stem cell test as alternative to experimental animal testing. Reprod Toxicol 30:113–120.
  • Hofer, T., Gerner, I., Gundert-Remy, U., Liebsch, M., Schulte, A., Spielmann, H., (2004) Animal testing and alternative approaches for the human health risk assessment under the proposed new European chemicals regulation. Arch Toxicol 78:549–564.
  • Inselman, A.L., Hansen, D.K., Lee, H.-Y., Nakamura, N., Ning, B., Monteiro, J.P., (2011) Assessment of research models for testing gene-environment interactions. Eur J Pharmacol 668: S108–S116.
  • Juchau, M.R., Bark, D.H., Shewey, L.M. and Greenaway, J.C. (1985a) Generation of reactive dysmorphogenic intermediates by rate embryos in culture: effects of cytochrome P-450 inducers. Toxicol Appl Pharmacol 81:533–544.
  • Juchau, M.R., Giachelli, C.M., Fantel, A.G., Greenaway, J.C., Shepard, T.H.and Faustman-Watts, E.M. (1985b) Effects of 3-methylcholanthrene and Phenobarbital on the capacity of embryos to bioactivate teratogens during organogenesis. Toxicol Appl Pharmacol 80:137–146.
  • Kalter, H. (1979) The structure and uses of genetically homogeneous lines of animals. In Handbook of Teratology, Vol. 4 Research Procedures and Data Analysis ed.Wilson J.G., and Fraser F.C., Plenum Press, New York, NY, USA ppp.155–190.
  • Kennelly, E.J., Flynn, T.J., Mazzola, E.P., Roach, J.A., McCloud, T.G., Danford, D.E., (1999) Detecting potential teratogenic alkaloids from blue cohosh rhizomes using an in vitro rat embryo culture. J Nat Prod 62:1385–1389.
  • Kitchin, K.T. and Ebron, M.T. (1983) Studies of saccharin and cyclohexylamine in a coupled microsomal activating//embryo culture system. Food Chem Toxicol 21:537–541.
  • Klein, N.W., Vogler, M.A., Chatot, C.L. and Pierro, L.J. (1980) The use of cultured rat embryos to evaluate the teratogenic activity of serum: cadmium and cyclophosphamide. Teratology 21:199–208.
  • Klug, S., Lewandowski, C. and Neubert, D. (1985) Modification and standardization of the culture of early postimplantation embryos for toxicological studies. Arch Toxicol 58:84–88.
  • Lawrence, C., Sanders, G.E., Varga, Z.M., Baumann, D.P., Freeman, A., Baur, B., (2009) Regulatory compliance and the zebrafish. Zebrafish 6:453–456.
  • Luijten, M., van Beelen, V.A., Verhoef, A., Renkens, M.F., van Herwijnen, M.H., Westerman, A., (2010) Transcriptomics analysis of retinoic acid embryotoxicity in rat postimplantation whole embryo culture. Reprod Toxicol 30:333–340.
  • Luijten, M., Verhoef, A., Westerman, A. and Piersma, A.H. (2008) Application of a metabolizing system as an adjunct to the rat whole embryo culture. Toxicol in Vitro 22:1332–1336.
  • Martin, G.R. (1981) Isolation of a pluripotent cell line from early mouse embryos cultured in medium conditioned by teratocarcinoma stem cells. Proc Nat Acad Sci USA 78:7634–7638.
  • Marx-Stoelting, P., Adriaens, E., Ahr, H.-J., Bremer, S., Garthoff, B., Gelbke, H.-P., (2009) A review of the implementation of the embryonic stem cell test (EST). The report and recommendations of an ECVAM//ReProTect Workshop. Altern Lab Anim 37:313–328.
  • Mehta, A., Konala, V.B.R., Khanna, A. and Majumdar, A.S. (2008) Assessment of drug induced developmental toxicity using human embryonic stem cells. Cell Biol Internat 32:1412–1424.
  • Mosmann, T. (1983) Rapid colorimetric assay for cellular growth and survival: Application to proliferation and cytotoxicity assays. J Immunol Meth 65:55–63.
  • National Research Counil (2007) Toxicity Testing in the 21st Century A Vision and A Strategy. The National Academies Press, Washington, DC, USA.
  • New, D.A.T. (1978) Whole-embryo culture and the study of mammalian embryos during organogenesis. Biol Rev 53:81–122.
  • Oglesby, L.A., Ebron, M.T., Beyer, P.E., Carver, B.D. and Kavlock, R.J. (1986) Co-culture of rat embryos and hepatocytes: in vitro detection of a proteratogen. Teratogen Carcinogen Mutagen 6:129–138.
  • Paquette, J.A., Kumpf, S.W., Streck, R.D., Thomson, J.J., Chapin, R.E. and Stedman, D.B. (2008) Assessment of the embryonic stem cell test and application and use in the pharmaceutical industry. Birth Def Res B 83:104–111.
  • Pellizzer, C., Adler, S., Corvi, R., Hartung, T. and Bremer, S. (2004) Monitoring of teratogenic effects in vitro by analysing a selected gene expression pattern. Toxicol in vitro 18:325–335.
  • Pennings, J.L., van Dartel, D.A., Robinson, J.F., Pronk, T.E. and Piersma, A.H. (2011) Gene set assembly for quantitative prediction of developmental toxicity in the embryonic stem cell test. Toxicology 284:63–71.
  • Piersma, A.H., van Aerts, L.A., Verhoef, A., Garbis-Berkvens, J.M., Robinson, J.E., Peereboom-Stegeman, J.H., (1991) Biotransformation of cyclophosphamide in post-implantation rat embryo culture using maternal hepatocytes in co-culture. Pharmacol Toxciol 69:47–51.
  • Robinson, J.F., van Beelen, V.A., Verhoef, A., Renkens, M.F.J., Luijten, M., van Herwijnen, M.H.M., (2010) Embryotoxicant-specific transcriptomic responses in rat postimplantation whole-embryo culture. Toxicol Sci 118:675–685.
  • Rosenquist, T.H., Ratashak, S.A. and Selhub, J. (1996) Homocysteine induces congenital defects of the heart and neural tube: effect of folic acid. Proc Natl Acad Sci USA 93:15227–15232.
  • Schenk, B., Weimer, M., Bremer, S., van der Burg, B., Cortvrindt, R., Freyberger, A., (2010) The ReProTect Feasibility Study, a novel comprehensive in vitro approach to detect reproductive toxicants. Reprod Toxicol 30:200.
  • Schmid, B.P., Goulding, E., Kitchin, K. and Sanyal, M.K. (1981) Assessment of the teratogenic potential of acrolein and cyclophosphamide in a rat embryo culture system. Toxicology 22:235–243.
  • Schwetz, B.A. (1992) Criteria for judging the relative toxicity of chemicals from developmental toxicity data: A workshop summary. Teratology 45:337–339.
  • Seiler, A., Visan, A., Buesen, R., Genschow, E. and Spielmann, H. (2004) Improvement of an in vitro stem cell assay for developmental toxicity: the use of molecular endpoints in the embryonic stem cell test. Reprod Toxicol 18:231–240.
  • Seiler, A.E. and Spielmann, H. (2011) The validated embryonic stem cell test to predict embryotoxicity in vitro. Nat. Protoc. 6:961–78.
  • Selderslaghs, I.W.T., Van Rompay, A.R., De Coen, W. and Witters, H.E. (2009) Development of a screening assay to identify teratogenic and embryotoxic chemicals using the zebrafish embryo. Reprod Toxicol 28:308–320.
  • Sipes, N.S., Martin, M.T., Reif, D.M., Kleinstreuer, N.C., Judson, R.S., Singh, A.V., (2011a) Predictive models of prenatal developmental toxicity from ToxCast high-throughput screening data. Toxicol Sci 124:109–124.
  • Sipes, N.S., Padilla, S. and Knudsen, T.B. (2011b) Zebrafish – As an integrative model for twenty-first century toxicity testing. Birth Def Res C 93:256–267.
  • Smith, M.K., Kimmel, G.L., Kochhar, D.M., Shepard, T.H., Speilberg, S.P. and Wilson, J. (1983) A selection of candidate compounds for in vitro teratogenesis test validation. Teratogen Carcinogen Mutagen 3:461–480.
  • Spielmann, H., Grune, B., Liebsch, M., Seiler, A. and Vogel, R. (2008) Successful validation of in vitro methods in toxicology by ZEBET, the National Centre for Alternatives in Germany at the BfR (Federal Institute for Risk Assessment). Exp Toxicol Pathol 60:225–233.
  • Spielmann, H., Pohl, I., Doring, B., Liebsch, M. and Moldenhauer, F. (1997) The embryonic stem cell test (EST), an in vitro embryotoxicity test using two permanent mouse cell lines: 3T3 fibroblasts and embryonic stem cells. In Vitro Toxicol 10:119–127.
  • Strähle, U., Scholz, S., Geisler, R., Greiner, P., Hollert, H., Rastegar, S., (2011) Zebrafish embryos as an alternative to animal experiments – a commentary on the definition of the onset of protected life stages in animal welfare regulations. Reprod Toxicol doi:10.1016//j.reprotox.2011.06.121.
  • Uibel, F., Muhleisen, A., Kohle, C., Weimer, M., Stummann, T.C., Bremer, S., (2010) ReproGlo: A new stem cell-based reporter assay aimed to predict embryotoxic potential of drugs and chemicals. Repro Toxicol 30:103–112.
  • Vanaerts, L.A., Blom, H.J, Deabreu, R.A., Trijbels, F.J., Eskes, T.K., Copius Peereboom-Stegeman, J.H., (1994) Prevention of neural tube defects by and toxicity of L-homocysteine in cultured postimplantation rat embryos. Teratology 50:348–360.
  • van Dartel, D.A., Pennings, J.L., de la Fonteyne, L.J., Brauers, K.J., Claessen, S., van Delft, J.H., . (2011a) Evaluation of developmental toxicant identification using gene expression profiling in embryonic stem cell differentiation cultures. Toxicol Sci 119:126–134.
  • van Dartel, D.A., Pennings, J.L., de la Fonteyne, L.J., Brauers, K.J., Claessen, S., van Delft, J.H., . (2011b) Concentration-dependent gene expression responses to flusilazole in embryonic stem cell differentiation cultures. Toxicol Appl Pharmacol 251:110–118.
  • van Dartel, D.A., Pennings, J.L., de la Fonteyne, L.J., van Herwijnen, M.H., van Delft, J.H., van Schooten, F.J., . (2010b) Monitoring developmental toxicity in the embryonic stem cell test using differential gene expression of differentiation-related genes. Toxicol Sci 116:130–139.
  • van Dartel, D.A., Pennings, J.L., Hendriksen, P.J., van Shcooten, F.J. and Piersma, A.H. (2009) Early gene expression changes during embryonic stem cell differentiation into cardiomyocytes and their modulation by monobutyl phthalate. Reprod Toxicol 27:93–102.
  • van Dartel, D.A., Pennings, J.L., Hendriksen, P.J., van Shcooten, F.J. and Piersma, A.H. (2010a) Transcriptomics-based identification of developmental toxicants through their interference with cardiomyocyte differentiation of embryonic stem cells. Toxicol Appl Pharmacol 243:420–428.
  • Van den Bulck, K., Hill, A., Mesens, N., Diekman, H. and De Schaepdrijver, L. (2011) Zebrafish developmental toxicity assay: A fishy solution to reproductive toxicity screening, or just a red herring? Reprod Toxicol 32:213–219.
  • Van Maele-Fabry, G., Delhaise, F. and Picard, J.J. (1990) Morphogenesis and quantification of the development of post-implantation mouse embryos. Toxicol In Vitro 4:149–156.
  • Ying, Q.-L., Stavridis, M., Griffiths, D., Li, M. and Smith, A. (2003) Conversion of embryonic stem cells into neuroectodermal precursors in adherent monoculture. Nature Biotech 21:183–186.
  • zur Nieden, N.I., Ruf, L.J., Kempka, G., Hildebrand, H. and Ahr, H.J. (2001) Molecular markers in embryonic stem cells. Toxicol In Vitro 15:455–461.
  • zur Nieden, N.I., Kempka, G. and Ahr, H.J. (2004) Molecular multiple endpoint embryonic stem cell test – a possible approach to test for the teratogenic potential of compounds. Toxicol Appl Pharmacol 194:257–269.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.