Franziska Denk scite author profile

Amyloid ␤ (A␤) and tau protein are both implicated in memory impairment, mild cognitive impairment (MCI), and early Alzheimer's disease (AD), but whether and how they interact is unknown. Consequently, we asked whether tau protein is required for the robust phenomenon of A␤-induced impairment of hippocampal long-term potentiation (LTP), a widely accepted cellular model of memory. We used wild-type mice and mice with a genetic knock-out of tau protein and recorded field potentials in an acute slice preparation. We demonstrate that the absence of tau protein prevents A␤-induced impairment of LTP. Moreover, we show that A␤ increases tau phosphorylation and that a specific inhibitor of the tau kinase glycogen synthase kinase 3 blocks the increased tau phosphorylation induced by A␤ and prevents A␤-induced impairment of LTP in wild-type mice. Together, these findings show that tau protein is required for A␤ to impair synaptic plasticity in the hippocampus and suggest that the A␤-induced impairment of LTP is mediated by tau phosphorylation. We conclude that preventing the interaction between A␤ and tau could be a promising strategy for treating cognitive impairment in MCI and early AD.

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Pain vulnerability: a neurobiological perspective

Denk

2014

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There are many known risk factors for chronic pain conditions, yet the biological underpinnings that link these factors to abnormal processing of painful signals are only just beginning to be explored. This Review will discuss the potential mechanisms that have been proposed to underlie vulnerability and resilience toward developing chronic pain. Particular focus will be given to genetic and epigenetic processes, priming effects on a cellular level, and alterations in brain networks concerned with reward, motivation/learning and descending modulatory control. Although research in this area is still in its infancy, a better understanding of how pain vulnerability emerges has the potential to help identify individuals at risk and may open up new therapeutic avenues.

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Nerve Growth Factor and Pain Mechanisms

Denk

Bennett

McMahon³

2017

Annu. Rev. Neurosci.

194

195

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Nerve growth factor (NGF) antagonism is on the verge of becoming a powerful analgesic treatment for numerous conditions, including osteoarthritis and lower back pain. This review summarizes the historical research, both fundamental and clinical, that led to our current understanding of NGF biology. We also discuss the surprising number of questions that remain about NGF expression patterns and NGF's various functions and interaction partners in relation to persistent pain and the potential side effects of anti-NGF therapy.

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Chronic Pain: Emerging Evidence for the Involvement of Epigenetics

Denk

McMahon

2012

Neuron

226

164

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Epigenetic processes, such as histone modifications and DNA methylation, have been associated with many neural functions including synaptic plasticity, learning, and memory. Here, we critically examine emerging evidence linking epigenetic mechanisms to the development or maintenance of chronic pain states. Although in its infancy, research in this area potentially unifies several pathophysiological processes underpinning abnormal pain processing and opens up a different avenue for the development of novel analgesics.

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Defining the nociceptor transcriptome

Thakur

Crow

Richards

et al. 2014

Front. Mol. Neurosci.

113

146

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Unbiased “omics” techniques, such as next generation RNA-sequencing, can provide entirely novel insights into biological systems. However, cellular heterogeneity presents a significant barrier to analysis and interpretation of these datasets. The neurons of the dorsal root ganglia (DRG) are an important model for studies of neuronal injury, regeneration and pain. The majority of investigators utilize a dissociated preparation of whole ganglia when studying cellular and molecular function. We demonstrate that the standard methods for producing these preparations gives a 10%-neuronal mixture of cells, with the remainder of cells constituting satellite glia and other non-neuronal cell types. Using a novel application of magnetic purification, we consistently obtain over 95% pure, viable neurons from adult tissue, significantly enriched for small diameter nociceptors expressing the voltage gated ion channel Nav1.8. Using genome-wide RNA-sequencing we compare the currently used (10% neuronal) and pure (95% nociceptor) preparations and find 920 genes enriched. This gives an unprecedented insight into the molecular composition of small nociceptive neurons in the DRG, potentially altering the interpretation of previous studies performed at the tissue level, and indicating a number of novel markers of this widely-studied population of cells. We anticipate that the ease of use, affordability and speed of this technique will see it become widely adopted, delivering a greatly improved capacity to study the roles of nociceptors in health and disease.

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HDAC inhibitors attenuate the development of hypersensitivity in models of neuropathic pain

et al. 2013

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Changes in the transcriptional fingerprint of satellite glial cells following peripheral nerve injury

Jager

Pallesen

Richner

et al. 2020

Glia

101

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Satellite glial cells (SGCs) are homeostatic cells enveloping the somata of peripheral sensory and autonomic neurons. A wide variety of neuronal stressors trigger activation of SGCs, contributing to, for example, neuropathic pain through modulation of neuronal activity. However, compared to neurons and other glial cells of the nervous system, SGCs have received modest scientific attention and very little is known about SGC biology, possibly due to the experimental challenges associated with studying them in vivo and in vitro. Utilizing a recently developed method to obtain SGC RNA from dorsal root ganglia (DRG), we took a systematic approach to characterize the SGC transcriptional fingerprint by using next-generation sequencing and, for the first time, obtain an overview of the SGC injury response. Our RNA sequencing data are easily accessible in supporting information in Excel format. They reveal that SGCs are enriched in genes related to the immune system and cell-to-cell communication. Analysis of SGC transcriptional changes in a nerve injury-paradigm reveal a differential response at 3 days versus 14 days postinjury, suggesting dynamic modulation of SGC function over time. Significant downregulation of several genes linked to cholesterol synthesis was observed at both time points. In contrast, regulation of gene clusters linked to the immune system (MHC protein complex and leukocyte migration) was mainly observed after 14 days. Finally, we demonstrate that, after nerve injury, macrophages are in closer physical proximity to both small and large DRG neurons, and that previously reported injury-induced proliferation of SGCs may, in fact, be proliferating macrophages. K E Y W O R D Sdorsal root ganglion, macrophages, nerve injury, nociceptors, pain, peripheral nervous system, satellite glial cells, transcriptome

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Franziska Denk

Differential involvement of serotonin and dopamine systems in cost-benefit decisions about delay or effort

Tau Protein Is Required for Amyloid β-Induced Impairment of Hippocampal Long-Term Potentiation

Pain vulnerability: a neurobiological perspective

Nerve Growth Factor and Pain Mechanisms

Chronic Pain: Emerging Evidence for the Involvement of Epigenetics

Defining the nociceptor transcriptome

HDAC inhibitors attenuate the development of hypersensitivity in models of neuropathic pain

Changes in the transcriptional fingerprint of satellite glial cells following peripheral nerve injury

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