Leonard E. Maroun scite author profile

Aberrant expression of the amyloid precursor protein (APP) gene may contribute to the beta-amyloid deposition seen in Alzheimer's disease and Down syndrome patients. Genomic DNA was isolated from human brain tissue and digested with HpaII, an enzyme sensitive to CpG methylation. Southern-blot analysis revealed the absence of methylation at a site in the APP gene of an Alzheimer's disease subject. This site was methylated in a nondemented subject and a subject with a non-Alzheimer's type of dementia (Pick's disease). This is the first report of an epigenetic defect in an Alzheimer's disease patient and the observation suggests that hypomethylation of the APP gene may be one of several factors contributing to aberrant gene expression in Alzheimer's disease.

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An animal model of gestational diabetes

Kaufmann¹,

Amankwah²,

Dunaway³

et al. 1981

American Journal of Obstetrics and Gynecology

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Partial IFN-alpha/betaand IFN-gammaReceptor Knockout Trisomy 16 Mouse Fetuses Show Improved Growth and Cultured Neuron Viability

Maroun¹,

Heffernan²,

Hallam³

2000

Journal of Interferon & Cytokine Research

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The trisomy 16 mouse fetus is a well-studied model for Down syndrome (trisomy 21), the leading genetic cause of mental retardation in the newborn population. Human chromosome 21 and mouse chromosome 16 each carry a large cluster of genes that code for components of the interferon (IFN)-alpha/beta and IFN-gamma receptors, and Down syndrome cells display significantly increased sensitivity to IFN action. We have previously reported that in utero anti-IFN IgG treatment of mice pregnant with trisomy 16 fetuses results in a significant improvement in trisomy 16 fetus growth and morphology and that anti-IFN-gamma IgG treatment can prevent the premature death of trisomy 16 fetal mouse cortical neurons in culture. We have now used IFN receptor subunit knockout mice to produce mouse fetuses that carry three No. 16 chromosomes and one copy each of disabled IFN-gamma receptor (IFNGR) and IFN-alpha/beta receptor (IFNAR-2) component genes. We report here that this partial IFN receptor knockout trisomy (PIRKOT) mouse fetus has significantly improved growth and yields cortical neurons whose viability is the equivalent of that seen in their euploid counterparts.

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Evidence for an interferon-related inflammatory reaction in the trisomy 16 mouse brain leading to caspase-1-mediated neuronal apoptosis

Hallam

Capps

Travelstead

et al. 2000

Journal of Neuroimmunology

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Interferon Action and Chromosome 21 Trisomy (Down Syndrome): 15 Years Later

Maroun

1996

Journal of Theoretical Biology

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Leonard E. Maroun

Hypomethylation of the amyloid precursor protein gene in the brain of an alzheimer’s disease patient

An animal model of gestational diabetes

Partial IFN-alpha/betaand IFN-gammaReceptor Knockout Trisomy 16 Mouse Fetuses Show Improved Growth and Cultured Neuron Viability

Evidence for an interferon-related inflammatory reaction in the trisomy 16 mouse brain leading to caspase-1-mediated neuronal apoptosis

Interferon Action and Chromosome 21 Trisomy (Down Syndrome): 15 Years Later

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