Johanna Kuchenbecker scite author profile

Alzheimer disease is characterized by accumulation of the ␤-amyloid peptide (A␤) generated by ␤-and ␥-secretase processing of the amyloid precursor protein (APP). The intake of the polyunsaturated fatty acid docosahexaenoic acid (DHA) has been associated with decreased amyloid deposition and a reduced risk in Alzheimer disease in several epidemiological trials; however, the exact underlying molecular mechanism remains to be elucidated. Here, we systematically investigate the effect of DHA on amyloidogenic and nonamyloidogenic APP processing and the potential cross-links to cholesterol metabolism in vivo and in vitro. DHA reduces amyloidogenic processing by decreasing ␤-and ␥-secretase activity, whereas the expression and protein levels of BACE1 and presenilin1 remain unchanged. In addition, DHA increases protein stability of ␣-secretase resulting in increased nonamyloidogenic processing. Besides the known effect of DHA to decrease cholesterol de novo synthesis, we found cholesterol distribution in plasma membrane to be altered. In the presence of DHA, cholesterol shifts from raft to non-raft domains, and this is accompanied by a shift in ␥-secretase activity and presenilin1 protein levels. Taken together, DHA directs amyloidogenic processing of APP toward nonamyloidogenic processing, effectively reducing A␤ release. DHA has a typical pleiotropic effect; DHA-mediated A␤ reduction is not the consequence of a single major mechanism but is the result of combined multiple effects.

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Plasmalogen synthesis is regulated via alkyl‐dihydroxyacetonephosphate‐synthase by amyloid precursor protein processing and is affected in Alzheimer’s disease

Grimm¹,

Kuchenbecker²,

Rothhaar³

et al. 2011

Journal of Neurochemistry

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J. Neurochem. (2011) 116, 916–925. Abstract Lipids play an important role as risk or protective factors in Alzheimer’s disease, which is characterized by amyloid plaques composed of aggregated amyloid‐beta. Plasmalogens are major brain lipids and controversially discussed to be altered in Alzheimer’s disease (AD) and whether changes in plasmalogens are cause or consequence of AD pathology. Here, we reveal a new physiological function of the amyloid precursor protein (APP) in plasmalogen metabolism. The APP intracellular domain was found in vivo and in vitro to increase the expression of the alkyl‐dihydroxyacetonephosphate‐synthase (AGPS), a rate limiting enzyme in plasmalogen synthesis. Alterations in APP dependent changes of AGPS expression result in reduced protein and plasmalogen levels. Under the pathological situation of AD, increased amyloid‐beta level lead to increased reactive oxidative species production, reduced AGPS protein and plasmalogen level. Accordingly, phosphatidylethanol plasmalogen was decreased in the frontal cortex of AD compared to age matched controls. Our findings elucidate that plasmalogens are decreased as a consequence of AD and regulated by APP processing under physiological conditions.

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P3‐296: B‐vitamin supplementation is necessary for the brain gamma‐secretase activity reducing effects of docosahexaenoic acid and uridine monophosphate

Broersen

Wijk

Kuchenbecker

et al. 2010

Alzheimer's & Dementia

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Wie gut ist die Spaltlampenmikroskopie zur Diagnosestellung bei Bindehauttumoren geeignet?

Schulze¹,

Fleige²,

Kuchenbecker³

2007

Klin Monatsbl Augenheilkd

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Docosahexaensäure und Plasmalogene in der Alzheimer Krankheit

Kuchenbecker¹

2012

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