Preventing Jacob-induced transcriptional inactivation of CREB protects synapses from β-amyloid in Alzheimer’s Disease

Km, Grochowska; Kaushik, Rahul; Gm, Gomes; Raman, Rajeev; Bär, Jörg; Bayraktar, Gonca; Samer, Sebastian; Reyes‐Resina, Irene; Spilker, Christina; Ms, Woo; Bikbaev, Arthur; Morawski, Markus; Ma, Friese; Rößner, Steffen; Gn, Brugal; Karpova, Anna; Mr, Kreutz

doi:10.1101/2020.01.08.898304

Cited by 3 publications

(17 citation statements)

References 144 publications

(306 reference statements)

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“…At present, it is unclear whether plasticity-related gene expression regulated by nuclear Jacob will occur in such factories. However, the association of Jacob with CREB is not limited to membrane-proximal regions, [20] and we cannot exclude the possibility of a role of the protein in the opposite process, i.e. gene silencing.…”

Section: Discussionmentioning

confidence: 94%

“…One of these messengers is Jacob, a protein that encodes and transduces the synaptic and extrasynaptic origin of GluN2B NMDAR signals to the nucleus [15]. In the nucleus, Jacob docks a signalosome to the cAMP response element binding protein (CREB)-complex [20], however, little is known about its subnuclear localization and corresponding dynamics. In previous work employing immunocytochemical staining and confocal imaging, we observed that Jacob localizes to the nuclear rim in hippocampal neurons [14,16,21,22].…”

Section: Introductionmentioning

confidence: 99%

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The nuclear lamina is a hub for the nuclear function of Jacob

et al. 2021

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Jacob is a synapto-nuclear messenger protein that couples NMDAR activity to CREB-dependent gene expression. In this study, we investigated the nuclear distribution of Jacob and report a prominent targeting to the nuclear envelope that requires NMDAR activity and nuclear import. Immunogold electron microscopy and proximity ligation assay combined with STED imaging revealed preferential association of Jacob with the inner nuclear membrane where it directly binds to LaminB1, an intermediate filament and core component of the inner nuclear membrane (INM). The association with the INM is transient; it involves a functional nuclear export signal in Jacob and a canonical CRM1-RanGTP-dependent export mechanism that defines the residing time of the protein at the INM. Taken together, the data suggest a stepwise redistribution of Jacob within the nucleus following nuclear import and prior to nuclear export.

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Section: Discussionmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

The nuclear lamina is a hub for the nuclear function of Jacob

et al. 2021

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“…Of note, the direct interaction of Jacob with CREB does not depend on the phosphorylation of S180. In response to synaptic NMDAR activation, Jacob phosphorylated at S180 accumulates in the nucleus (Dieterich et al, 2008;Karpova et al, 2013;Spilker et al, 2016b;Grochowska et al, 2017) where it then binds CREB (Karpova et al, 2013;Grochowska et al, 2020).…”

Section: Jacob Signalosome and Its Function In The Regulation Of Gene Expressionmentioning

confidence: 99%

“…Activation of extrasynaptic NMDARs leads to the formation and translocation of a different Jacob transport complex (Dieterich et al, 2008;Karpova et al, 2013;Grochowska et al, 2020). Several lines of evidence indicate that extrasynaptic NMDAR activity evoked by the block of synaptic NMDARs and subsequent treatment with NMDA induces dephosphorylation of ERK1/2 and Jacob (Figure 1.7; Ivanov et al, 2006;Rönicke et al, 2011;Karpova et al, 2013;Gomes et al, 2014;Grochowska et al, 2017;Grochowska et al, 2020) and triggers CREB shut-off resulting in synaptic dysfunction, synapse loss and subsequent cell death (Hardingham and Bading, 2010;Yan et al, 2020). Soluble amyloid-β oligomers (AβOs) are causative agents underlying the onset and progression of AD (Selkoe and Hardy, 2016;Cline et al, 2018).…”

Section: Jacob Signalosome and Its Function In The Regulation Of Gene Expressionmentioning

confidence: 99%

“…Soluble amyloid-β oligomers (AβOs) are causative agents underlying the onset and progression of AD (Selkoe and Hardy, 2016;Cline et al, 2018). It was shown that different AβOs species, Aβ1-42 and Aβ25-35, act on extrasynaptic NMDARs and drive non-phosphorylated Jacob in the nucleus which triggers CREB shut-off (Figure 1.8; Rönicke et al, 2011;Gomes et al, 2014;Grochowska et al, 2017Grochowska et al, , 2020. Jacob seems to play a role in extrasynaptic NMDAR signaling linked to neurodegenerative disorders and interrupted CREB-dependent gene expression at the early stage of AD pathology (Rönicke et al, 2011;Gomes et al, 2014;Grochowska et al, 2017Grochowska et al, , 2020.…”

Section: Jacob Signalosome and Its Function In The Regulation Of Gene Expressionmentioning

confidence: 99%

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Jacob, a Synapto-Nuclear Protein Messenger Linking N-methyl-D-aspartate Receptor Activation to Nuclear Gene Expression

Grochowska

Bär

Gomes

et al. 2021

Front. Synaptic Neurosci.

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Pyramidal neurons exhibit a complex dendritic tree that is decorated by a huge number of spine synapses receiving excitatory input. Synaptic signals not only act locally but are also conveyed to the nucleus of the postsynaptic neuron to regulate gene expression. This raises the question of how the spatio-temporal integration of synaptic inputs is accomplished at the genomic level and which molecular mechanisms are involved. Protein transport from synapse to nucleus has been shown in several studies and has the potential to encode synaptic signals at the site of origin and decode them in the nucleus. In this review, we summarize the knowledge about the properties of the synapto-nuclear messenger protein Jacob with special emphasis on a putative role in hippocampal neuronal plasticity. We will elaborate on the interactome of Jacob, the signals that control synapto-nuclear trafficking, the mechanisms of transport, and the potential nuclear function. In addition, we will address the organization of the Jacob/NSMF gene, its origin and we will summarize the evidence for the existence of splice isoforms and their expression pattern.

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A Jacob/nsmf gene knockout does not protect against hypoxia- and NMDA-induced neuronal cell death

Gomes

Bär

Karpova

et al. 2022

Preprint

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Jacob is a synapto-nuclear messenger protein that encodes and transduces the origin of synaptic and extrasynaptic NMDA receptor signals to the nucleus. The protein assembles a signalosome that differs in case of synaptic or extrasynaptic NMDAR activation. Following nuclear import Jacob docks these signalosomes to the transcription factor CREB. We have recently shown that amyloid-beta and extrasynaptic NMDAR activation triggers the translocation of a Jacob signalosome that results in inactivation of the transcription factor CREB, a phenomenon termed Jacob-induced CREB shut-off (JaCS). JaCS contributes to early Alzheimer's disease pathology and a gene knockout of nsmf, the gene encoding Jacob, protects against amyloid pathology. Given that extrasynaptic activity is also involved in acute excitotoxicity, like in stroke, we asked whether nsmf gene knockout will also protect against acute insults, like oxygen and glucose deprivation and excitotoxic NMDA stimulation. Here we show that organotypic hippocampal slices from wild-type and nsmf-/- mice display similar degrees of degeneration when exposed to either oxygen glucose deprivation or 50 uM NMDA incubation. This lack of neuroprotection indicates that JaCS is mainly relevant in conditions of low level chronic extrasynaptic NMDAR activation that results in cellular degeneration induced by alterations in gene transcription.

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Preventing Jacob-induced transcriptional inactivation of CREB protects synapses from β-amyloid in Alzheimer’s Disease

Cited by 3 publications

References 144 publications

The nuclear lamina is a hub for the nuclear function of Jacob

The nuclear lamina is a hub for the nuclear function of Jacob

Jacob, a Synapto-Nuclear Protein Messenger Linking N-methyl-D-aspartate Receptor Activation to Nuclear Gene Expression

A Jacob/nsmf gene knockout does not protect against hypoxia- and NMDA-induced neuronal cell death

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