Melanie Huettenrauch scite author profile

Melanie Huettenrauch

2Publications

33Citation Statements Received

74Citation Statements Given

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Affiliations

University of Göttingen

Publications

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Aβ38 in the Brains of Patients with Sporadic and Familial Alzheimer's Disease and Transgenic Mouse Models

Reinert

Martens²,

Huettenrauch

et al. 2014

JAD

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The pathogenesis of Alzheimer's disease (AD) is believed to be closely dependent on deposits of neurotoxic amyloid-β peptides (Aβ), which become abundantly present throughout the central nervous system in advanced stages of the disease. The different Aβ peptides existing are generated by subsequent cleavage of the amyloid-β protein precursor (AβPP) and may vary in length and differ at their C-terminus. Despite extensive studies on the most prevalent species Aβ40 and Aβ42, Aβ peptides with other C-termini such as Aβ38 have not received much attention. In the present study, we used a highly specific and sensitive antibody against Aβ38 to analyze the distribution of this Aβ species in cases of sporadic and familial AD, as well as in the brains of a series of established transgenic AD mouse models. We found Aβ38 to be present as vascular deposits in the brains of the majority of sporadic AD cases, whereas it is largely absent in non-demented control cases. Aβ38-positive extracellular plaques were virtually limited to familial cases. Interestingly we observed Aβ38-positive plaques not only among familial cases due to AβPP mutations, but also in cases of familial AD caused by presenilin (PSEN) mutations. Furthermore we demonstrate that Aβ38 deposits in the form of extracellular plaques are common in several AD transgenic mouse models carrying either only AβPP, or combinations of AβPP, PSEN1, and tau transgenes.

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Axonal degeneration in an Alzheimer mouse model is PS1 gene dose dependent and linked to intraneuronal AÎ² accumulation

Christensen

Huettenrauch

Mitkovski

et al. 2014

Front. Aging Neurosci.

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Abnormalities and impairments in axonal transport are suggested to strongly contribute to the pathological alterations underlying AD. The exact mechanisms leading to axonopathy are currently unclear, but it was recently suggested that APP expression itself triggers axonal degeneration. We used APP transgenic mice and crossed them on a hemi- or homozygous PS1 knock-in background (APP/PS1KI). Depending on the mutant PS1 dosage, we demonstrate a clear aggravation in both plaque-associated and plaque-distant axonal degeneration, despite of an unchanged APP expression level. Amyloid-β (Aβ) peptides were found to accumulate in axonal swellings as well as in axons and apical dendrites proximate to neurons accumulating intraneuronal Aβ in their cell bodies. This suggests that Aβ can be transported within neurites thereby contributing to axonal deficits. In addition, diffuse extracellular Aβ deposits were observed in the close vicinity of axonal spheroids accumulating intracellular Aβ, which might be indicative of a local Aβ release from sites of axonal damage.

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