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1.
Cell Rep ; 43(1): 113615, 2024 01 23.
Artículo en Inglés | MEDLINE | ID: mdl-38159280

RESUMEN

The integrated stress response (ISR) is critical for cell survival under stress. In response to diverse environmental cues, eIF2α becomes phosphorylated, engendering a dramatic change in mRNA translation. The activation of ISR plays a pivotal role in the early embryogenesis, but the eIF2-dependent translational landscape in pluripotent embryonic stem cells (ESCs) is largely unexplored. We employ a multi-omics approach consisting of ribosome profiling, proteomics, and metabolomics in wild-type (eIF2α+/+) and phosphorylation-deficient mutant eIF2α (eIF2αA/A) mouse ESCs (mESCs) to investigate phosphorylated (p)-eIF2α-dependent translational control of naive pluripotency. We show a transient increase in p-eIF2α in the naive epiblast layer of E4.5 embryos. Absence of eIF2α phosphorylation engenders an exit from naive pluripotency following 2i (two chemical inhibitors of MEK1/2 and GSK3α/ß) withdrawal. p-eIF2α controls translation of mRNAs encoding proteins that govern pluripotency, chromatin organization, and glutathione synthesis. Thus, p-eIF2α acts as a key regulator of the naive pluripotency gene regulatory network.


Asunto(s)
Células Madre Embrionarias de Ratones , Células Madre Pluripotentes , Animales , Ratones , Células Madre Embrionarias/metabolismo , Células Madre Embrionarias de Ratones/metabolismo , Fosforilación , Células Madre Pluripotentes/metabolismo , ARN Mensajero/metabolismo , Factor 2 Eucariótico de Iniciación/metabolismo
2.
Cell ; 186(11): 2361-2379.e25, 2023 05 25.
Artículo en Inglés | MEDLINE | ID: mdl-37192619

RESUMEN

Multiple anticancer drugs have been proposed to cause cell death, in part, by increasing the steady-state levels of cellular reactive oxygen species (ROS). However, for most of these drugs, exactly how the resultant ROS function and are sensed is poorly understood. It remains unclear which proteins the ROS modify and their roles in drug sensitivity/resistance. To answer these questions, we examined 11 anticancer drugs with an integrated proteogenomic approach identifying not only many unique targets but also shared ones-including ribosomal components, suggesting common mechanisms by which drugs regulate translation. We focus on CHK1 that we find is a nuclear H2O2 sensor that launches a cellular program to dampen ROS. CHK1 phosphorylates the mitochondrial DNA-binding protein SSBP1 to prevent its mitochondrial localization, which in turn decreases nuclear H2O2. Our results reveal a druggable nucleus-to-mitochondria ROS-sensing pathway-required to resolve nuclear H2O2 accumulation and mediate resistance to platinum-based agents in ovarian cancers.


Asunto(s)
Antineoplásicos , Especies Reactivas de Oxígeno , Antineoplásicos/farmacología , Antineoplásicos/metabolismo , Peróxido de Hidrógeno/metabolismo , Mitocondrias/metabolismo , Especies Reactivas de Oxígeno/metabolismo , Núcleo Celular/metabolismo , Humanos
3.
bioRxiv ; 2023 Mar 11.
Artículo en Inglés | MEDLINE | ID: mdl-36945474

RESUMEN

Multiple chemotherapies are proposed to cause cell death in part by increasing the steady-state levels of cellular reactive oxygen species (ROS). However, for most of these drugs exactly how the resultant ROS function and are sensed is poorly understood. In particular, it's unclear which proteins the ROS modify and their roles in chemotherapy sensitivity/resistance. To answer these questions, we examined 11 chemotherapies with an integrated proteogenomic approach identifying many unique targets for these drugs but also shared ones including ribosomal components, suggesting one mechanism by which chemotherapies regulate translation. We focus on CHK1 which we find is a nuclear H 2 O 2 sensor that promotes an anti-ROS cellular program. CHK1 acts by phosphorylating the mitochondrial-DNA binding protein SSBP1, preventing its mitochondrial localization, which in turn decreases nuclear H 2 O 2 . Our results reveal a druggable nucleus-to-mitochondria ROS sensing pathway required to resolve nuclear H 2 O 2 accumulation, which mediates resistance to platinum-based chemotherapies in ovarian cancers.

4.
Sci Signal ; 15(757): eabm0808, 2022 10 25.
Artículo en Inglés | MEDLINE | ID: mdl-36282911

RESUMEN

Multiple coronaviruses have emerged independently in the past 20 years that cause lethal human diseases. Although vaccine development targeting these viruses has been accelerated substantially, there remain patients requiring treatment who cannot be vaccinated or who experience breakthrough infections. Understanding the common host factors necessary for the life cycles of coronaviruses may reveal conserved therapeutic targets. Here, we used the known substrate specificities of mammalian protein kinases to deconvolute the sequence of phosphorylation events mediated by three host protein kinase families (SRPK, GSK-3, and CK1) that coordinately phosphorylate a cluster of serine and threonine residues in the viral N protein, which is required for viral replication. We also showed that loss or inhibition of SRPK1/2, which we propose initiates the N protein phosphorylation cascade, compromised the viral replication cycle. Because these phosphorylation sites are highly conserved across coronaviruses, inhibitors of these protein kinases not only may have therapeutic potential against COVID-19 but also may be broadly useful against coronavirus-mediated diseases.


Asunto(s)
COVID-19 , SARS-CoV-2 , Animales , Humanos , SARS-CoV-2/genética , Fosforilación , Glucógeno Sintasa Quinasa 3/metabolismo , Replicación Viral , Proteínas de la Nucleocápside/metabolismo , Nucleocápside/metabolismo , Serina/metabolismo , Treonina/metabolismo , Mamíferos/metabolismo , Proteínas Serina-Treonina Quinasas
5.
Methods Mol Biol ; 2365: 301-313, 2021.
Artículo en Inglés | MEDLINE | ID: mdl-34432251

RESUMEN

Protein degradation is a critical component of all facets of cell biology, and recently methods have been developed to make use of targeted protein degradation as both an investigative tool and a potential therapeutic avenue. Mass spectrometry-based proteomic studies have allowed detailed characterization of changes in protein level and the biology underlying growth, development, and disease. Current methods and instrumentation allow identification and quantitative analysis of thousands of proteins in a single assay. The method described here involves cell lysis and digestion to peptides, labeling peptides with isobaric tagging TMT reagents, basic reversed phase fractionation, and liquid chromatography-tandem mass spectrometry analysis of the enriched peptides.


Asunto(s)
Proteoma , Proteómica , Cromatografía Liquida , Péptidos , Espectrometría de Masas en Tándem
6.
Nature ; 586(7829): 412-416, 2020 10.
Artículo en Inglés | MEDLINE | ID: mdl-33029011

RESUMEN

An important tenet of learning and memory is the notion of a molecular switch that promotes the formation of long-term memory1-4. The regulation of proteostasis is a critical and rate-limiting step in the consolidation of new memories5-10. One of the most effective and prevalent ways to enhance memory is by regulating the synthesis of proteins controlled by the translation initiation factor eIF211. Phosphorylation of the α-subunit of eIF2 (p-eIF2α), the central component of the integrated stress response (ISR), impairs long-term memory formation in rodents and birds11-13. By contrast, inhibiting the ISR by mutating the eIF2α phosphorylation site, genetically11 and pharmacologically inhibiting the ISR kinases14-17, or mimicking reduced p-eIF2α with the ISR inhibitor ISRIB11, enhances long-term memory in health and disease18. Here we used molecular genetics to dissect the neuronal circuits by which the ISR gates cognitive processing. We found that learning reduces eIF2α phosphorylation in hippocampal excitatory neurons and a subset of hippocampal inhibitory neurons (those that express somatostatin, but not parvalbumin). Moreover, ablation of p-eIF2α in either excitatory or somatostatin-expressing (but not parvalbumin-expressing) inhibitory neurons increased general mRNA translation, bolstered synaptic plasticity and enhanced long-term memory. Thus, eIF2α-dependent mRNA translation controls memory consolidation via autonomous mechanisms in excitatory and somatostatin-expressing inhibitory neurons.


Asunto(s)
Factor 2 Eucariótico de Iniciación/metabolismo , Hipocampo/citología , Consolidación de la Memoria , Neuronas/metabolismo , Somatostatina/metabolismo , Animales , Región CA1 Hipocampal/citología , Región CA1 Hipocampal/fisiología , Factor 2 Eucariótico de Iniciación/deficiencia , Factor 2 Eucariótico de Iniciación/genética , Potenciales Postsinápticos Excitadores , Hipocampo/fisiología , Potenciación a Largo Plazo , Masculino , Memoria a Largo Plazo , Ratones , Ratones Endogámicos C57BL , Inhibición Neural , Plasticidad Neuronal , Parvalbúminas , Fosforilación , Células Piramidales/fisiología , Transmisión Sináptica
7.
bioRxiv ; 2020 Dec 16.
Artículo en Inglés | MEDLINE | ID: mdl-32817937

RESUMEN

While vaccines are vital for preventing COVID-19 infections, it is critical to develop new therapies to treat patients who become infected. Pharmacological targeting of a host factor required for viral replication can suppress viral spread with a low probability of viral mutation leading to resistance. In particular, host kinases are highly druggable targets and a number of conserved coronavirus proteins, notably the nucleoprotein (N), require phosphorylation for full functionality. In order to understand how targeting kinases could be used to compromise viral replication, we used a combination of phosphoproteomics and bioinformatics as well as genetic and pharmacological kinase inhibition to define the enzymes important for SARS-CoV-2 N protein phosphorylation and viral replication. From these data, we propose a model whereby SRPK1/2 initiates phosphorylation of the N protein, which primes for further phosphorylation by GSK-3a/b and CK1 to achieve extensive phosphorylation of the N protein SR-rich domain. Importantly, we were able to leverage our data to identify an FDA-approved kinase inhibitor, Alectinib, that suppresses N phosphorylation by SRPK1/2 and limits SARS-CoV-2 replication. Together, these data suggest that repurposing or developing novel host-kinase directed therapies may be an efficacious strategy to prevent or treat COVID-19 and other coronavirus-mediated diseases.

8.
J Proteome Res ; 16(4): 1506-1514, 2017 04 07.
Artículo en Inglés | MEDLINE | ID: mdl-28171727

RESUMEN

A comprehensive view of protein phosphorylation remains an unmet challenge in the field of cell biology. Mass spectrometry-based proteomics is one of the most promising approaches for identifying thousands of phosphorylation events in a single experiment, yet the full breadth of the phosphoproteome has yet to be elucidated. In this article, we examined the complementarity of two methods for phosphopeptide enrichment based on either titanium dioxide (TiO2) enrichment or phosphorylation motif-specific immunoaffinity precipitation (IAP) with four different antibodies. Each method identified nearly 2000 phosphoproteins. However, distinct populations of phosphopeptides were observed. Despite quantifying over 10 000 unique phosphorylation events using TiO2 and over 3900 with IAP, less than 5% of the sites were in common. Agreeing with published literature, the ratio of pS:pT:pY phosphorylation for the TiO2-enriched data set approximated 90:10:<1. In contrast, that ratio for the combined IAP data sets was 51:29:20. These differences not only suggest the complementarity between multiple enrichment methods but also emphasize their collective importance in obtaining a comprehensive view of the phosphoproteome.


Asunto(s)
Fosfopéptidos/biosíntesis , Fosfoproteínas/biosíntesis , Proteómica , Línea Celular Tumoral , Humanos , Espectrometría de Masas , Fosfopéptidos/genética , Fosfoproteínas/genética , Fosforilación/genética , Titanio/química
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