Cloning and characterization of a novel cellular protein, TDP-43, that binds to human immunodeficiency virus type 1 TAR DNA sequence motifs

Ou, Sai Hong Ignatius; Wu, F; Harrich, David; Garcı́a-Martı́nez, León F.; Gaynor, Richard B.

doi:10.1128/jvi.69.6.3584-3596.1995

Cited by 647 publications

(354 citation statements)

References 77 publications

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“…Enhanced VPS4B promoter activity upon TDP-43 knockdown suggests the transcriptional regulation of VPS4B by TDP-43. Chromatin immunoprecipitation shows that TDP-43 directly binds to a GT-rich region in the VPS4B promoter region in rat primary neurons and human brain, as shown before for TAR-DNA motif of HIV1 (Ou et al, 1995). Overexpression of VPS4B in neurons inhibits recycling endosome transport similar ◀ Figure 7.…”

Section: Tdp-43 Regulates the Escrt Factor Vps4bsupporting

confidence: 68%

TDP‐43 loss of function inhibits endosomal trafficking and alters trophic signaling in neurons

et al. 2016

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Nuclear clearance of TDP‐43 into cytoplasmic aggregates is a key driver of neurodegeneration in amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD), but the mechanisms are unclear. Here, we show that TDP‐43 knockdown specifically reduces the number and motility of RAB11‐positive recycling endosomes in dendrites, while TDP‐43 overexpression has the opposite effect. This is associated with delayed transferrin recycling in TDP‐43‐knockdown neurons and decreased β2‐transferrin levels in patient CSF. Whole proteome quantification identified the upregulation of the ESCRT component VPS4B upon TDP‐43 knockdown in neurons. Luciferase reporter assays and chromatin immunoprecipitation suggest that TDP‐43 represses VPS4B transcription. Preventing VPS4B upregulation or expression of its functional antagonist ALIX restores trafficking of recycling endosomes. Proteomic analysis revealed the broad reduction in surface expression of key receptors upon TDP‐43 knockdown, including ErbB4, the neuregulin 1 receptor. TDP‐43 knockdown delays the surface delivery of ErbB4. ErbB4 overexpression, but not neuregulin 1 stimulation, prevents dendrite loss upon TDP‐43 knockdown. Thus, impaired recycling of ErbB4 and other receptors to the cell surface may contribute to TDP‐43‐induced neurodegeneration by blocking trophic signaling.

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Section: Tdp-43 Regulates the Escrt Factor Vps4bsupporting

confidence: 68%

TDP‐43 loss of function inhibits endosomal trafficking and alters trophic signaling in neurons

et al. 2016

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“…3B) (14). Other DE genes at 24 hpi related to ribonucleoprotein biogenesis and RNA processing are also known to affect HIV-1 replication directly; these genes include TARDBP (TAR DNA-binding protein 43) whose protein binds the transactivation response (TAR) element of integrated HIV-1 DNA and represses HIV-1 transcription (15)(16)(17). Downregulation of HNRNPA1, TARDBP, and other related genes may therefore allow more efficient HIV-1 replication in SUP-T1 cells.…”

Section: Viral Mrna Constitutes a Large Portion Of Total Mrna Of Hivimentioning

confidence: 99%

Next-Generation Sequencing Reveals HIV-1-Mediated Suppression of T Cell Activation and RNA Processing and Regulation of Noncoding RNA Expression in a CD4 ⁺ T Cell Line

Chang

Sova

Peng

et al. 2011

mBio

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Next-generation sequencing (NGS) enables the highly sensitive measurement of whole transcriptomes. We report the first application to our knowledge of this technology to the analysis of RNA from a CD4+ T cell line infected with intact HIV. We sequenced the total mRNA from infected cells and detected differences in the expression of both host and viral mRNA. Viral reads represented a large portion of the total mapped sequencing reads: approximately 20% at 12 h postinfection (hpi) and 40% at 24 hpi. We also detected a small but significant suppression of T cell activation-related genes at 12 hpi. This suppression persisted and expanded by 24 hpi, providing new possible markers of virus-induced T cell cytopathology. By 24 hpi, the expression of over 50% of detectable host loci was also altered, indicating widespread alteration of host processes, including RNA processing, splicing, and transport to an extent not previously reported. In addition, next-generation sequencing provided insights into alternative viral RNA splice events and the expression of noncoding RNAs, including microRNA host genes.

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“…Parkin is an E3 ubiquitin ligase involved in protein degradation, while Park2 mutations result in loss of Parkin function, leading to autosomal recessive early onset Parkinson's disease (Kitada et al 1998;Lucking et al 2000;Shimura et al 2000;Cookson and Bandmann 2010). Transactivation response DNA-binding protein 43 (TDP-43) is a 414 amino acid protein with DNA/RNA binding protein properties (Ou et al 1995). TDP-43 binds to Park2 mRNA and regulates its expression (Polymenidou et al 2011).…”

mentioning

confidence: 99%

Parkin reverses TDP‐43‐induced cell death and failure of amino acid homeostasis

Hebron

Chen

Miessau

et al. 2013

Journal of Neurochemistry

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The E3 ubiquitin ligase Parkin plays a central role in the pathogenesis of many neurodegenerative diseases. Parkin promotes specific ubiquitination and affects the localization of TDP-43, which controls the translation of thousands of mRNAs. Here we tested the effects of lentiviral Parkin and TDP-43 expression on amino acid metabolism in the rat motor cortex using high frequency 13C NMR spectroscopy. TDP-43 expression increased glutamate levels, decreased the levels of other amino acids, including glutamine, aspartate, leucine and isoleucine, and impaired mitochondrial TCA cycle. TDP-43 induced lactate accumulation and altered the balance between excitatory (glutamate) and inhibitory (GABA) neurotransmitters. Parkin restored amino acid levels, neurotransmitter balance and TCA cycle metabolism, rescuing neurons from TDP-43-induced apoptotic death. Furthermore, TDP-43 expression led to an increase in 4E-BP levels, perhaps altering translational control and deregulating amino acid synthesis; while Parkin reversed the effects of TDP-43 on the 4E-BP signaling pathway. Taken together, these data suggest that Parkin may affect TDP-43 localization and mitigate its effects on 4E-BP signaling and loss of amino acid homeostasis.

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Cloning and characterization of a novel cellular protein, TDP-43, that binds to human immunodeficiency virus type 1 TAR DNA sequence motifs

Cited by 647 publications

References 77 publications

TDP‐43 loss of function inhibits endosomal trafficking and alters trophic signaling in neurons

TDP‐43 loss of function inhibits endosomal trafficking and alters trophic signaling in neurons

Next-Generation Sequencing Reveals HIV-1-Mediated Suppression of T Cell Activation and RNA Processing and Regulation of Noncoding RNA Expression in a CD4 ⁺ T Cell Line

Parkin reverses TDP‐43‐induced cell death and failure of amino acid homeostasis

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Cloning and characterization of a novel cellular protein, TDP-43, that binds to human immunodeficiency virus type 1 TAR DNA sequence motifs

Cited by 647 publications

References 77 publications

TDP‐43 loss of function inhibits endosomal trafficking and alters trophic signaling in neurons

TDP‐43 loss of function inhibits endosomal trafficking and alters trophic signaling in neurons

Next-Generation Sequencing Reveals HIV-1-Mediated Suppression of T Cell Activation and RNA Processing and Regulation of Noncoding RNA Expression in a CD4 + T Cell Line

Parkin reverses TDP‐43‐induced cell death and failure of amino acid homeostasis

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Next-Generation Sequencing Reveals HIV-1-Mediated Suppression of T Cell Activation and RNA Processing and Regulation of Noncoding RNA Expression in a CD4 ⁺ T Cell Line