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Dermatoglyphics, phenotype, and mosaicism in parents of trisomy 21 (down syndrome) childrenGilbert, Adel Dorothy January 1991 (has links)
Several studies claim to have demonstrated an increased frequency of Down syndrome (DS) dermatoglyphics and other DS characteristics in parents of DS children, which could be explained by unrecognized parental mosaicism for trisomy 21. The goal of this study was to test the following hypothesis: In some cases of DS the cause will be parental gonadal mosaicism for trisomy 21. These parents will also be mosaic in tissues other than the gonads and will therefore have quantitative deviations in the direction of the DS phenotype. Upon examination of such traits in 162 parents with one DS child it was found that 22 parents had dermatoglyphic characteristics within the DS distribution of the Preus diagnostic index (no significant increase), 6 had DS quantitative phenotypic traits, and 1 had both. There was no evidence of bimodality in the distribution of these traits, or of a correlation between these traits with one another or with the Preus dermatoglyphic index for DS. There were no trisomy 21 cells in 200 lymphoblast cells counted for each of the 5 subjects with the most DS-like dermatoglyphic characteristics. The one subject who has both DS dermatoglyphics and a trend toward DS phenotype had 1/300 trisomy 21 cells in lymphoblast culture and 0/100 cells in fibroblast culture. Neither these data nor these from the literature, provide support for the suggestion that parental mosaicism for trisomy 21 is associated with an increase in DS-like physical characteristics.
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Dermatoglyphics, phenotype, and mosaicism in parents of trisomy 21 (down syndrome) childrenGilbert, Adel Dorothy January 1991 (has links)
No description available.
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Effect of Epigallocatechin-3-gallate on a pattern separation task and hippocampal neurogenesis in a mouse model of Down syndromeStringer, Megan Elizabeth January 2015 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Down syndrome (DS) is caused by three copies of human chromosome 21 (Hsa21) and results in an array of phenotypes including intellectual disability. Ts65Dn mice, the most extensively studied DS model, have three copies of ~50% of the genes on Hsa21 and display many phenotypes associated with DS, including cognitive deficits. DYRK1A is found in three copies in humans with Trisomy 21 and in Ts65Dn mice, and is involved in a number of critical pathways including CNS development and osteoclastogenesis. Epigallocatechin-3-gallate (EGCG), the main polyphenol in green tea, inhibits Dyrk1a activity. We have shown that a three-week EGCG treatment (~10mg/kg/day) during adolescence normalizes skeletal abnormalities in Ts65Dn mice, yet the same dose did not rescue deficits in the Morris water maze spatial learning task (MWM) or novel object recognition (NOR). Others have reported that An EGCG dose of 2-3 mg per day (90mg/ml) improved hippocampal-dependent task deficits in Ts65Dn mice. The current study investigated deficits in a radial arm maze pattern separation task in Ts65Dn mice. Pattern separation requires differentiation between similar memories acquired during learning episodes; distinguishing between these similar memories is thought to depend on distinctive encoding in the hippocampus. Pattern separation has
been linked to functional activity of newly generated granule cells in the dentate gyrus. Recent studies in Ts65Dn mice have reported significant reductions in adult hippocampal neurogenesis, and after EGCG treatment, enhanced hippocampal neurogenesis. Thus, it was hypothesized that Ts65Dn mice would be impaired in the pattern separation task, and that EGCG would alleviate the pattern separation deficits seen in trisomic mice, in association with increased adult hippocampal neurogenesis. At weaning, Ts65Dn mice and euploid littermates were randomly assigned to the water control, or EGCG [0.4 mg/mL], with both treatments yielding average daily intakes of ~50 mg/kg/day. Beginning on postnatal day 75, all mice were trained on a radial arm maze-delayed non-matching-to-place pattern separation task. Euploid mice performed significantly better over training than Ts65Dn mice, including better performance at each of the three separations. EGCG did not significantly alleviate the pattern separation deficits in Ts65Dn mice. After the behavioral testing commenced, animals were given ad libitum food access for five days, received a 100mg/kg injection of BrdU, and were perfused two hours later. Coronal sections through the dorsal hippocampus were processed for BrdU labeling, and cells were manually counted throughout the subgranular zone of the dentate gyrus. The euploid controls had significantly more BrdU labeled cells than Ts65Dn mice, however, EGCG does not appear to increase proliferation of the hippocampal neuroprogenitor cells. This is the first report of deficits in Ts65Dn mice on a pattern separation task. To the extent that pattern separation depends on the functional involvement of newly generated neurons in an adult dentate gyrus, this approach in Ts65Dn mice may help identify more targeted pharmacotherapies for cognitive deficits in individuals with DS.
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