Argininosuccinate synthetase 1 depletion produces a metabolic state conducive to herpes simplex virus 1 infection

Grady, Sarah L.; Purdy, John; Rabinowitz, Joshua D.; Shenk, Thomas

doi:10.1073/pnas.1321305110

Cited by 45 publications

(40 citation statements)

References 47 publications

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“…The HSV-1 and HCMV infection metabolomes were also studied in the context of siRNA knockdown screening of cellular enzymes by Grady et al, 118 who identified the argininosuccinate synthase 1 (AS1) as a single key metabolic enzyme whose down-regulation mimics an HSV-1 infection state. Contrarily to HSV-1 infection, AS1 knockdown cells decreased HCMV infection, emphasizing the disparity between the modes of action of these two viruses on host cell metabolism.…”

Section: Metabolomicsmentioning

confidence: 99%

Chemical Methods for Probing Virus–Host Proteomic Interactions

et al. 2016

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Interactions between host and pathogen proteins constitute an important aspect of both infectivity and the host immune response. Different viruses have evolved complex mechanisms to hijack host-cell machinery and metabolic pathways to redirect resources and energy flow toward viral propagation. These interactions are often critical to the virus, and thus understanding these interactions at a molecular level gives rise to opportunities to develop novel antiviral strategies for therapeutic intervention. This review summarizes current advances in chemoproteomic methods for studying these molecular altercations between different viruses and their hosts.

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Section: Metabolomicsmentioning

confidence: 99%

Chemical Methods for Probing Virus–Host Proteomic Interactions

et al. 2016

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“…HCMV infected cells showed enhanced glycolytic flux and TCA cycle to fuel fatty acid biosynthesis (68). Furthermore, reducing the expression of a single metabolic enzyme, argininosuccinate synthetase (AS1), was sufficient to mimic these HSV-1 induced metabolomic changes to improve viral replication (69). These metabolomic approaches can point to potential new sites for antiviral therapy (70).…”

Section: Metabolomic Approaches To Define and Map Biochemical Pathwaysmentioning

confidence: 99%

Activity-based proteomic and metabolomic approaches for understanding metabolism

Hunerdosse

Nomura

2014

Current Opinion in Biotechnology

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There are an increasing number of human pathologies that have been associated with altered metabolism, including obesity, diabetes, atherosclerosis, cancer, and neurodegenerative diseases. Most attention on metabolism has been focused on well-understood metabolic pathways and has largely ignored most of the biochemical pathways that operate in (patho)physiological settings, in part because of the vast landscape of uncharacterized and undiscovered metabolic pathways. One technology that has arisen to meet this challenge is activity-based protein profiling (ABPP) that uses activity-based chemical probes to broadly assess the functional states of both characterized and uncharacterized enzymes. This review will focus on how ABPP, coupled with inhibitor discovery platforms and functional metabolomic technologies, have led to discoveries that have expanded our knowledge of metabolism in health and disease.

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“…Grady et al used an siRNA screen to show that argininosuccinate synthase 1 (ASS1) knockdown increased virus yield and subsequently used metabolomic profiling to show that ASS1 inactivation resulted in a metabolic signature that closely resembled HSV-1 infection, in which levels of aspartate, carbamoyl-aspartate, one of the first committed metabolites on the pathway to nucleotide synthesis, and nucleotides and their precursors were reduced (Grady et al, 2013). …”

Section: Metabolomics To Reveal Unique and Novel Roles For Previouslymentioning

confidence: 99%

Exploring Metabolic Pathways and Regulation through Functional Chemoproteomic and Metabolomic Platforms

Medina-Cleghorn¹,

Nomura²

2014

Chemistry & Biology

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Genome sequencing efforts have revealed a strikingly large number of uncharacterized genes, including poorly or uncharacterized metabolic enzymes, metabolites, and metabolic networks that operate in normal physiology, and also those enzymes and pathways that may be rewired under pathological conditions. Though deciphering the functions of the uncharacterized metabolic genome is a challenging prospect, it also presents an opportunity for identifying novel metabolic nodes that may be important in disease therapy. In this review, we will discuss the chemoproteomic and metabolomic platforms employed in identifying, characterizing, and targeting nodal metabolic pathways important in physiology and disease, describing an integrated workflow for functional mapping of metabolic enzymes.

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Argininosuccinate synthetase 1 depletion produces a metabolic state conducive to herpes simplex virus 1 infection

Cited by 45 publications

References 47 publications

Chemical Methods for Probing Virus–Host Proteomic Interactions

Chemical Methods for Probing Virus–Host Proteomic Interactions

Activity-based proteomic and metabolomic approaches for understanding metabolism

Exploring Metabolic Pathways and Regulation through Functional Chemoproteomic and Metabolomic Platforms

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