Svenja König scite author profile

Tau protein is subject to phosphorylation by multiple kinases at more than 80 different sites. Some of these sites are associated with tau pathology and neurodegeneration, but other sites are modified in normal tau as well as in pathological tau. Although phosphorylation of tau at residues in the microtubule-binding repeats is thought to reduce tau association with microtubules, the functional consequences of other sites are poorly understood. The AT8 antibody recognizes a complex phosphoepitope site on tau that is detectable in a healthy brain but significantly increased in Alzheimer’s disease (AD) and other tauopathies. Previous studies showed that phosphorylation of tau at the AT8 site leads to exposure of an N-terminal sequence that promotes activation of a protein phosphatase 1 (PP1)/glycogen synthase 3 (GSK3) signaling pathway, which inhibits kinesin-1-based anterograde fast axonal transport (FAT). This finding suggests that phosphorylation may control tau conformation and function. However, the AT8 includes three distinct phosphorylated amino acids that may be differentially phosphorylated in normal and disease conditions. To evaluate the effects of specific phosphorylation sites in the AT8 epitope, recombinant, pseudophosphorylated tau proteins were perfused into the isolated squid axoplasm preparation to determine their effects on axonal signaling pathways and FAT. Results from these studies suggest a mechanism where specific phosphorylation events differentially impact tau conformation, promoting activation of independent signaling pathways that differentially affect FAT. Implications of findings here to our understanding of tau function in health and disease conditions are discussed.

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Argumentstrukturmuster als Konstruktionen? Identität – Verwandtschaft – Idiosynkrasien

Engelberg¹,

König²,

Proost³

et al. 2011

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The role of mycotoxins in neurodegenerative diseases: current state of the art and future perspectives of research

Nguyen

König

Eggert

et al. 2021

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Mycotoxins are fungal metabolites that can cause various diseases in humans and animals. The adverse health effects of mycotoxins such as liver failure, immune deficiency, and cancer are well-described. However, growing evidence suggests an additional link between these fungal metabolites and neurodegenerative diseases. Despite the wealth of these initial reports, reliable conclusions are still constrained by limited access to human patients and availability of suitable cell or animal model systems. This review summarizes knowledge on mycotoxins associated with neurodegenerative diseases and the assumed underlying pathophysiological mechanisms. The limitations of the common in vivo and in vitro experiments to identify the role of mycotoxins in neurotoxicity and thereby in neurodegenerative diseases are elucidated and possible future perspectives to further evolve this research field are presented.

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Age‐dependent NMDA receptor function is regulated by the amyloid precursor protein

et al. 2023

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N‐methyl‐D‐aspartate receptors (NMDARs) are critical for the maturation and plasticity of glutamatergic synapses. In the hippocampus, NMDARs mainly contain GluN2A and/or GluN2B regulatory subunits. The amyloid precursor protein (APP) has emerged as a putative regulator of NMDARs, but the impact of this interaction to their function is largely unknown. By combining patch‐clamp electrophysiology and molecular approaches, we unravel a dual mechanism by which APP controls GluN2B‐NMDARs, depending on the life stage. We show that APP is highly abundant specifically at the postnatal postsynapse. It interacts with GluN2B‐NMDARs, controlling its synaptic content and mediated currents, both in infant mice and primary neuronal cultures. Upon aging, the APP amyloidogenic‐derived C‐terminal fragments, rather than APP full‐length, contribute to aberrant GluN2B‐NMDAR currents. Accordingly, we found that the APP processing is increased upon aging, both in mice and human brain. Interfering with stability or production of the APP intracellular domain normalized the GluN2B‐NMDARs currents. While the first mechanism might be essential for synaptic maturation during development, the latter could contribute to age‐related synaptic impairments.

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Varianz in Resultativkonstruktionen: Eine korpusbasierte, kontrastive Studie Deutsch – Englisch – Rumänisch

König¹

2014

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Svenja König

Defined Tau Phosphospecies Differentially Inhibit Fast Axonal Transport Through Activation of Two Independent Signaling Pathways

Argumentstrukturmuster als Konstruktionen? Identität – Verwandtschaft – Idiosynkrasien

The role of mycotoxins in neurodegenerative diseases: current state of the art and future perspectives of research

Age‐dependent NMDA receptor function is regulated by the amyloid precursor protein

Varianz in Resultativkonstruktionen: Eine korpusbasierte, kontrastive Studie Deutsch – Englisch – Rumänisch

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