Deconvoluting Stress-Responsive Proteostasis Signaling Pathways for Pharmacologic Activation Using Targeted RNA Sequencing

Grandjean, Julia M. D.; Plate, Lars; Morimoto, Richard I.; Bollong, Michael J.; Powers, Evan T.; Wiseman, R. Luke

doi:10.1021/acschembio.9b00134

Cited by 50 publications

(90 citation statements)

References 72 publications

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“…Much of our understanding of cellular protein homeostasis networks comes from studies in which cells are subjected to insults like heat shock (35), Hsp90 inhibitors (36), or chemical denaturants or oxidants (37,38) that cause immediate disruption to global protein conformation. Although such approaches have been instrumental in revealing the existence of homeostatic networks that promote stereotypical, temporally orchestrated restoration of homeostasis, animal cells are rarely, if ever, subjected to such acute, massive, proteome-wide insults.…”

Section: Discussionmentioning

confidence: 99%

Acute unfolding of a single protein immediately stimulates recruitment of ubiquitin protein ligase E3C (UBE3C) to 26S proteasomes

Gottlieb

Thompson

Ordureau

et al. 2019

Journal of Biological Chemistry

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The intracellular accumulation of aggregated misfolded proteins is a cytopathological hallmark of neurodegenerative diseases. However, the functional relationship between protein misfolding or aggregation and the cellular proteostasis network that monitors and maintains proteome health is poorly understood. Previous studies have associated translational suppression and transcriptional remodeling with the appearance of protein aggregates, but whether these responses are induced by aggregates or their misfolded monomeric or oligomeric precursors remains unclear. Because aggregation in cells is rapid, nonlinear, and asynchronous, it has not been possible to deconvolve these kinetically linked processes to determine the earliest cellular responses to misfolded proteins. Upon removal of the synthetic, biologically inert ligand shield-1 (S1), AgDD, an engineered variant FK506-binding protein (FKBP1A), rapidly (t1 ⁄ 2 ϳ5 min) unfolds and self-associates, forming detergent-insoluble, microscopic cytoplasmic aggregates. Using global diglycine-capture (K-GG) proteomics, we found here that this solubility transition is associated with immediate increases in ubiquitylation of AgDD itself, along with that of endogenous proteins that are components of the ribosome and the 26S proteasome. We also found that the earliest cellular responses to acute S1 removal include recruitment of ubiquitin protein ligase E3C (UBE3C) to the 26S proteasome and ubiquitylation of two key proteasomal ubiquitin receptors, 26S proteasome regulatory subunit RPN10 (RPN10) and Rpn13 homolog (RPN13 or ADRM1). We conclude that these proteasomal responses are due to AgDD protein misfolding and not to the presence of detergent-insoluble aggregates.

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Section: Discussionmentioning

confidence: 99%

Acute unfolding of a single protein immediately stimulates recruitment of ubiquitin protein ligase E3C (UBE3C) to 26S proteasomes

Gottlieb

Thompson

Ordureau

et al. 2019

Journal of Biological Chemistry

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“…While recent research has spelled out important roles for NRF1 and NRF2 in regulating cellular physiology, the functional importance for three stress-inducible CNC-containing transcription factors with overlapping, but distinct, transcriptional profiles in vertebrates is not completely defined. One approach to deconvolute the diverse functional roles for these transcription factors is to define transcriptional gene sets that can be used to define transcription factor activity both in cell culture and mammalian tissues [ 18 ]. To date, only one recent study by Liu et al has aimed to comparatively delineate the transcriptional programs enacted by NRF factors [ 19 ].…”

Section: Introductionmentioning

confidence: 99%

Defining the Functional Targets of Cap‘n’collar Transcription Factors NRF1, NRF2, and NRF3

Ibrahim

Mesgarzadeh

et al. 2020

Antioxidants

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The NRF transcription factors NRF1, NRF2, and NRF3, are a subset of Cap‘n’collar transcriptional regulators which modulate the expression of genes harboring antioxidant-response element (ARE) sequences within their genomic loci. Despite the emerging physiological importance of NRF family members, the repertoire of their genetic targets remains incompletely defined. Here we use RNA-sequencing-based transcriptional profiling and quantitative proteomics to delineate the overlapping and differential genetic programs effected by the three NRF transcription factors. We then create consensus target gene sets regulated by NRF1, NRF2, and NRF3 and define the integrity of these gene sets for probing NRF activity in mammalian cell culture and human tissues. Together, our data provide a quantitative assessment of how NRF family members sculpt proteomes and transcriptomes, providing a framework to understand the critical physiological importance of NRF transcription factors and to establish pharmacologic approaches for therapeutically activating these transcriptional programs in disease.

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“…HEK293 cells expressing WT or mutant ATF6 were collected for RNA-Seq analysis. Cells were lysed and total RNA was collected using a Qiagen kit (RNeasy Mini Kit) in line with the manufacturer's recommendations and previous study (49). Three sets of independent experiments were performed.…”

Section: Gtcaatcagagc-3′)mentioning

confidence: 99%

Multiexon deletion alleles of ATF6 linked to achromatopsia

Lee¹,

Chiang²,

Kroeger³

et al. 2020

JCI Insight

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Deconvoluting Stress-Responsive Proteostasis Signaling Pathways for Pharmacologic Activation Using Targeted RNA Sequencing

Cited by 50 publications

References 72 publications

Acute unfolding of a single protein immediately stimulates recruitment of ubiquitin protein ligase E3C (UBE3C) to 26S proteasomes

Acute unfolding of a single protein immediately stimulates recruitment of ubiquitin protein ligase E3C (UBE3C) to 26S proteasomes

Defining the Functional Targets of Cap‘n’collar Transcription Factors NRF1, NRF2, and NRF3

Multiexon deletion alleles of ATF6 linked to achromatopsia

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