Genes involved in cellular mechanisms to repair oxidative damage are strong candidates as etiologic factors for Alzheimer’s disease (AD). One important enzyme involved in this mechanism is superoxide dismutase 2 (SOD2). The gene for this enzyme lies within a single haplotype block at 6q25.3, a region showing evidence for linkage to AD in a genome scan. We genotyped four single nucleotide polymorphisms (SNPs) in SOD2 in families of the National Institute of Mental Health‐AD Genetics Initiative (ADGI): rs2758346 in the 5′ untranslated region (UTR), rs4880 in exon 2, rs2855116 in intron 3 and rs5746136 in the 3′UTR. Under a dominant model, family‐based association tests showed significant evidence for association of AD with the first three loci in a candidate gene set of families with individuals having age of onset of at least 50 years and two affected and one unaffected sibling, and in a late‐onset subset of families (families with all affected individuals having age of onset of at least 65 years) from the full ADGI sample. The alleles transmitted more frequently to cases than expected under the null hypothesis were T, C, G, and G. Global tests of the transmission of haplotypes indicate that the first two loci have the most consistent association with risk of AD. Because of the high linkage disequilibrium in this small (14 kb) gene, and the presence of 100 SNPs in this gene, 26 of which may have functional significance, additional genotyping and sequencing are needed to identify the functionally relevant SNP. We discuss the importance of our findings and the relevance of SOD2 to AD risk.
The abnormal deposition of beta-amyloid proteins in the brain is one of the major histopathological hallmarks of Alzheimer's disease. Currently available intravital microscopy techniques for highresolution plaque visualization commonly involve highly invasive procedures and are limited to a small field-of-view within the rodent brain. Here, we report the transcranial detection of amyloidbeta deposits at the whole brain scale with 20 m resolution in APP/PS1 and arcA mouse models of Alzheimer's disease amyloidosis using a large-field multifocal (LMI) fluorescence microscopy technique. Highly sensitive and specific detection of amyloid-beta deposits at a single plaque level in APP/PS1 and arcA mice was facilitated using luminescent conjugated oligothiophene HS-169.Immunohistochemical staining with HS-169, anti-A antibody 6E10, and conformation antibodies OC (fibrillar) of brain tissue sections further showed that HS-169 resolved compact parenchymal and vessel-associated amyloid deposits. The novel imaging platform offers new prospects for in vivo studies into Alzheimer's disease mechanisms in animal models as well as longitudinal monitoring of therapeutic responses at a single plaque level.
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