A mouse model for Down syndrome exhibits learning and behaviour deficits

Roger H. Reeves; Nicholas G. Irving; Timothy H. Moran; Anny Wohn; Cheryl Kitt; Sangram S. Sisodia; Cecilia Schmidt; Roderick T. Bronson; Muriel T. Davisson

doi:10.1038/ng1095-177

A mouse model for Down syndrome exhibits learning and behaviour deficits

Roger H. Reeves, Nicholas G. Irving, Timothy H. Moran, Anny Wohn, Cheryl Kitt, Sangram S. Sisodia, Cecilia Schmidt, Roderick T. Bronson, Muriel T. Davisson

School of Medicine

Research output: Contribution to journal › Article › peer-review

692 Scopus citations

Abstract

Trisomy 21 or Down syndrome (DS) is the most frequent genetic cause of mental retardation, affecting one in 800 live born human beings. Mice with segmental trisomy 16 (Ts65Dn mice) are at dosage imbalance for genes corresponding to those on human chromosome 21q21–22.3—which includes the so–called DS ‘critical region’. They do not show early–onset of Alzheimer disease pathology; however, Ts65Dn mice do demonstrate impaired performance in a complex learning task requiring the integration of visual and spatial information. The reproducibility of this phenotype among Ts65Dn mice indicates that dosage imbalance for a gene or genes in this region contributes to this impairment. The corresponding dosage imbalance for the human homologues of these genes may contribute to cognitive deficits in DS.

Original language	English (US)
Pages (from-to)	177-184
Number of pages	8
Journal	Nature genetics
Volume	11
Issue number	2
DOIs	https://doi.org/10.1038/ng1095-177
State	Published - Oct 1995

ASJC Scopus subject areas

Genetics

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title = "A mouse model for Down syndrome exhibits learning and behaviour deficits",

abstract = "Trisomy 21 or Down syndrome (DS) is the most frequent genetic cause of mental retardation, affecting one in 800 live born human beings. Mice with segmental trisomy 16 (Ts65Dn mice) are at dosage imbalance for genes corresponding to those on human chromosome 21q21–22.3—which includes the so–called DS {\textquoteleft}critical region{\textquoteright}. They do not show early–onset of Alzheimer disease pathology; however, Ts65Dn mice do demonstrate impaired performance in a complex learning task requiring the integration of visual and spatial information. The reproducibility of this phenotype among Ts65Dn mice indicates that dosage imbalance for a gene or genes in this region contributes to this impairment. The corresponding dosage imbalance for the human homologues of these genes may contribute to cognitive deficits in DS.",

author = "Reeves, {Roger H.} and Irving, {Nicholas G.} and Moran, {Timothy H.} and Anny Wohn and Cheryl Kitt and Sisodia, {Sangram S.} and Cecilia Schmidt and Bronson, {Roderick T.} and Davisson, {Muriel T.}",

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AU - Reeves, Roger H.

AU - Irving, Nicholas G.

AU - Moran, Timothy H.

AU - Wohn, Anny

AU - Kitt, Cheryl

AU - Sisodia, Sangram S.

AU - Schmidt, Cecilia

AU - Bronson, Roderick T.

AU - Davisson, Muriel T.

PY - 1995/10

Y1 - 1995/10

N2 - Trisomy 21 or Down syndrome (DS) is the most frequent genetic cause of mental retardation, affecting one in 800 live born human beings. Mice with segmental trisomy 16 (Ts65Dn mice) are at dosage imbalance for genes corresponding to those on human chromosome 21q21–22.3—which includes the so–called DS ‘critical region’. They do not show early–onset of Alzheimer disease pathology; however, Ts65Dn mice do demonstrate impaired performance in a complex learning task requiring the integration of visual and spatial information. The reproducibility of this phenotype among Ts65Dn mice indicates that dosage imbalance for a gene or genes in this region contributes to this impairment. The corresponding dosage imbalance for the human homologues of these genes may contribute to cognitive deficits in DS.

AB - Trisomy 21 or Down syndrome (DS) is the most frequent genetic cause of mental retardation, affecting one in 800 live born human beings. Mice with segmental trisomy 16 (Ts65Dn mice) are at dosage imbalance for genes corresponding to those on human chromosome 21q21–22.3—which includes the so–called DS ‘critical region’. They do not show early–onset of Alzheimer disease pathology; however, Ts65Dn mice do demonstrate impaired performance in a complex learning task requiring the integration of visual and spatial information. The reproducibility of this phenotype among Ts65Dn mice indicates that dosage imbalance for a gene or genes in this region contributes to this impairment. The corresponding dosage imbalance for the human homologues of these genes may contribute to cognitive deficits in DS.

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A mouse model for Down syndrome exhibits learning and behaviour deficits

Abstract

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