Abstract
The Ts65Dn mouse carries a partial trisomy for mouse chromosome 16 in a region that has high homology to the Down syndrome (DS) region of human chromosome 21 and is, thus, a potential animal model of DS. The focus of the present study was to begin to characterize the behavioral phenotype of this mouse to assess its usefulness as a model of aspects of the DS phenotype. The behavior of Ts65Dn and littermate control mice was assessed in the elevated plus maze, lighted and dark open field, and a step-down passive avoidance task. The behavior of Ts65Dn mice in these tests differed considerably from the nontrisomic controls. In the elevated plus maze, Ts65Dn had more total arm visits than controls, showed a higher percentage of arm visits to the open arms than control mice, and showed no preference for the closed arms. Ts65Dn mice were more active in both open-field situations, regardless of light condition, and ventured into the center of the arena more than controls. Lighting in the open field had moderate effects on the activity of the Ts65Dn mice, but control mice were, as expected, much more active in the dark than the light. The trisomic mice learned and retained the step-down passive avoidance task in the same number of trials as the controls. Overall, these data indicate that Ts65Dn mice are more active than control mice in two testing situations. Most striking is the finding that the Ts65Dn mice were much less responsive to variations in environmental cues to which normal mice are quite sensitive. These data not only begin to characterize systematically the Ts65Dn phenotype, but also raise several interesting issues about the sources of the aberrant behaviors observed in these mice.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Archer, J. (1973). Tests for emotionality in rats and mice: A review.Anim. Behav. 21:205–235.
Becker, J. T., and Olton, D. S. (1980). Object discrimination by rats: The role of frontal and hippocampal systems in retention and reversal.Physiol. Behav. 24:33–38.
Brito, G. N. O., and Brito, L. S. O. (1990). Septohippocampal system and the prelimbic sector of the frontal cortex: A neuropsychological battery analysis in the rat.Behav. Brain Res. 36:127–146.
Burgio, G. R., Severi, F., Rossoni, R., and Vaccaro, R. (1965). Mongolism and thyroid autoimmunity.Lancet 1:166–167.
Caputo, A. R., Wagner, R., and Reynolds, F. D., Jr. (1989). Down syndrome: Clinical review of ocular features.Clin. Pediat. 28:355–358.
Cicchette, D., and Beeghley, M. (1990).Children with Down Syndrome: A Developmental Perspective, Cambridge, Cambridge University Press.
Colton, C. A., Yao, J., Gilbert, D., and Oster-Granite, M. L. (1990). Enhanced production of superoxide anion by microglia from trisomy 16 mice.Brain Res. 519:236–242.
Crnic, L. S. (1991). Behavioral consequences of virus infection.In Ader, R., Felten, D. L., and Cohen, N. (eds.),Psychoneuroimmunology, 2nd ed., Academic Press, New York, pp. 749–769.
Cruz, A. P. M., Frei, F., and Graeff, F. G. (1994). Ethopharmacological analysis of rat behavior on the elevated plus maze.Pharm. Biochem. Behav. 49:171–176.
Dahle, A. J., and McCollister, F. P. (1986). Hearing and otologic disorders in children with Down syndrome.Am. J. Ment. Defic. 90:636–642.
Davisson, M. T., Schmidt, C., and Akeson, E. C. (1990). Segmental trisomy of murine chromosome 16: A new model system for studying Down syndrome.In Patterson, D., and Epstein, C. J. (eds.),Molecular Genetics of Chromosome 21 and Down Syndrome, Progress in Clinical Biological Research, Vol. 360, Wiley-Liss, New York, pp. 263–280.
Davisson, M. T., Schmidt, C., Reeves, R. H., Irving, N. G., Akeson, E. C., Harris, B. S., and Bronson, R. T. (1993). Segmental trisomy as a mouse model for Down syndrome.In Epstein, C. J. (ed.),The Phenotypic Mapping of Down Syndrome and Other Aneuploid Conditions, Wiley-Liss, New York, pp. 117–133.
Delabar, J. M., Creau, N., Sinet, P. M., Ritter, O., Antonarakis, S. E., Burmeister, M., Chakravarti, A., Nizetic, D., Ohki, M., Patterson, D., Petersen, M. B., Reeves, R. H., and Van Broeckhoven, C. (1994). Report on the fourth international workshop on human chromosome 21.Genomics 18:735–745.
Dewald, G. W., Biez-Martin, J. L., Steffen, S. L., Jenkins, R. B., Stupka, P. J., and Burget, E. O., Jr. (1990). Hematologic disorders in 13 patients with acquired trisomy 21 and 13 individuals with Down syndrome.Am. J. Med. Genet. Suppl. 7:247–250.
Divac, I. (1971). Frontal lobe system and spatial reversal in the rat.Neuropsychologica 9:175–183.
Doar, B., Finger, S., and Almli, C. R. (1987). Tactile-visual acquisition and reversal learning deficits in rats with prefrontal cortical lesions.Exp. Brain Res. 66:432–434.
Epstein, C. J., Berger, C. N., Carlson, E. J., Chan, P. H., and Huang, T. T. (1990). Models for Down syndrome: Chromosome 21-specific genes in mice.In Patterson, D., and Epstein, C. J. (eds.),Molecular Genetics of Chromosome 21 and Down Syndrome, Progress in Clinical Biological Research, Vol. 360, Wiley-Liss, New York, pp. 215–232.
File, S. E. (1993). The interplay of learning and anxiety in the elevated plus maze.Behav. Brain Res. 58:199–202.
Gropp, A., Kolbus, U., and Giers, D. (1975). Systematic approach to the study of trisomy in the mouse II.Cytogenet. Cell Genet. 14: 42–62.
Hayes, A., and Batshaw, M. L. (1993). Down syndrome.Pediat. Clin. N. Am. 40:523–535.
Kolb, B. (1984). Functions of the frontal cortex in the rat: A comparative review.Brain Res. Rev. 8:65–98.
Kolb, B., Nonneman, A. J., and Singh, R. K. (1974). Double dissociation of spatial impairments and perseveration following selective prefrontal lesions in rats.J. Comp. Physiol. Psychol. 87:772–780.
Lejeune, J., Gutier, M., and Turpin, R. (1959). Les chromosomes humains en culture de tissues.C.R. Acad. Sci. (Paris) 248:602.
Logdberg, B., and Brun, A. (1993). Prefrontal neocortical disturbances in mental retardation.J. Intell. Disab. Res. 37: 459–468.
Miller, R. W. (1970). Neoplasia and Down's syndrome.Ann. N.Y. Acad. Sci. 171:637–644.
Milner, B. (1964). Some effects of frontal lobectomy in man.In Warren, J. M., and Akert, K. (eds.),The Frontal Granular Cortex and Behavior, McGraw-Hill, New York, pp. 313–334.
Mishkin, M. (1964). Perseveration of central sets after frontal lesions in monkeys.In Warren, J. M., and Akert, K. (eds.),The Frontal Granular Cortex and Behavior, McGraw-Hill, New York, pp. 219–241.
Nadel, L. (1994). Neural and cognitive development in Down syndrome.In Nadel, L., and Rosenthal, D. M. (eds.),Down Syndrome: Living and Learning in the Community, Wiley-Liss, New York, pp. 312–321.
Nagy, Z. M., Porada, K. J., and Monsour, A. P. (1980). Ontogeny of short- and long-term memory capacities for passive avoidance training in undernourished mice.Dev. Psychobiol. 13:373–384.
Ohr, P. S., and Fagen, J. W. (1991). Conditioning and longterm memory in three-month-old infants with Down syndrome.Am. J. Ment. Retard. 96:151–162.
Oster-Granite, M. L. (1986). The neurobiologic consequences of autosomal trisomy in mice and men.Brain Res. Bull. 16:767–771.
Pueschel, S. M. (1990). Clinical aspects of Down syndrome from infancy to adulthood.Am. J. Med. Genet. Suppl. 7: 52–56.
Pueschel, S. M., Bernier, J. C., and Pezzullo, J. C. (1991). Behavioral observations in children with Down's syndrome.J. Ment. Defic. Res. 35:502–511.
Pueschel, S. M., and Scola, F. H. (1987). Atlantoaxial instability in individuals with Down syndrome: Epidemiologic, radiographic and clinical studies.Pediatrics 80: 555–560.
Reeves, R. H., and Miller, R. D. (1992). Mouse chromosome 16.Mammal. Genome 3:s233-s240.
Ugazio, A. G., Maccario, R., Notarangelo, L. D., and Burgio, G. R. (1990). Immunology of Down syndrome: A review.Am. J. Med. Genet. Suppl. 7:204–212.
Walsh, R. N., and Cummins, R. A. (1976). The open-field test: A critical review.Psychol. Bull. 83:482–504.
Wang, P. P., Doherty, S., Hesselink, J. R., and Bellugi, U. (1992). Callosal morphology concurs with neurobehavioral and neuropathological findings in two neurodevelopmental disorders.Arch. Neurol. 49:407–411.
Wishart, J. G. (1993). The development of learning difficulties in children with Down's syndrome.J. Intell. Disabil. Res. 37:389–403.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Coussons-Read, M.E., Crnic, L.S. Behavioral assessment of the Ts65Dn mouse, a model for down syndrome: Altered behavior in the elevated plus maze and open field. Behav Genet 26, 7–13 (1996). https://doi.org/10.1007/BF02361154
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02361154