Biomolecular Condensation of the Human Papillomavirus E2 Master Regulator with p53: Implications in Viral Replication

Article Cell Biology

Human cytomegalovirus forms phase-separated compartments at viral genomes to facilitate viral replication

Enrico Caragliano et al.

Summary: Human cytomegalovirus forms replication compartments in the host cell nucleus using liquid-liquid phase separation with specific proteins, ensuring efficient viral genome replication.

CELL REPORTS (2022)

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Article Microbiology

A Critical Role for p53 during the HPV16 Life Cycle

Christian T. Fontan et al.

Summary: This study demonstrates that the interaction between the viral replication/transcription/segregation factor E2 and the tumor suppressor p53 is critical for the HPV16 life cycle. HPV16 immortalized cells retain significant expression of p53, and the critical role for the E2-p53 interaction demonstrates why this is the case. If the E2-p53 interaction is disrupted then HPV16 immortalized cells fail to proliferate, have enhanced DNA damage and senescence, and there is premature differentiation during the viral life cycle. Results suggest that targeting the E2-p53 interaction would have therapeutic benefits, potentially attenuating the spread of HPV16.

MICROBIOLOGY SPECTRUM (2022)

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Article Multidisciplinary Sciences

A phosphorylation-dependent switch in the disordered p53 transactivation domain regulates DNA binding

Xun Sun et al.

Summary: The phosphorylation of Thr55 modulates DNA binding of p53, controlling both activation and termination of p53-mediated transcriptional programs during different stages of the cellular DNA damage response.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

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Article Microbiology

Phase separation and DAXX redistribution contribute to LANA nuclear body and KSHV genome dynamics during latency and reactivation

Olga Vladimirova et al.

Summary: KSHV genomes associate with LANA to form stable nuclear bodies during latent infection. LANA-NB formation and KSHV genome conformation involves liquid-liquid phase separation. Disruption of LLPS alters the LANA-dependent KSHV chromosome conformation but does not induce lytic reactivation, indicating dynamic super-molecular nuclear structures of LANA-NBs during different modes of viral replication.

PLOS PATHOGENS (2021)

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Article Multidisciplinary Sciences

Ligand effects on phase separation of multivalent macromolecules

Kiersten M. Ruff et al.

Summary: Biomolecular condensates concentrate biomolecules into non-stoichiometric assemblies, enabling spatial and temporal control over cellular processes. Ligands can modulate the phase behavior of scaffolds, affecting the formation and dissolution of condensates. Different types of ligands have varying effects on the stability of condensates, with monovalent ligands destabilizing condensates and multivalent ligands either stabilizing or destabilizing them.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

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Review Virology

Liquid Biomolecular Condensates and Viral Lifecycles: Review and Perspectives

Temitope Akhigbe Etibor et al.

Summary: Viruses adapt to their hosts to utilize resources and evade immunity. Study of virus-host interaction at different levels has led to insights in viral lifecycles and infection control. Recent focus on biomolecular condensates and liquid-liquid phase separation reveals alternative mechanisms for controlling reactions in biological systems.

VIRUSES-BASEL (2021)

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Article Multidisciplinary Sciences

Sequence-encoded and composition-dependent protein-RNA interactions control multiphasic condensate morphologies

Taranpreet Kaur et al.

Summary: The study highlights the importance of multivalent protein-protein and protein-RNA interactions in driving biological phase separation, demonstrating how competition between different molecules can lead to the demixing of condensates into stable coexisting phases. The biphasic condensates formed by a minimal system of PLP, RRP, and RNA exhibit diverse morphologies that are tunable through mixture stoichiometry and hierarchy of intermolecular interactions. The findings provide insights into the composition and spatial organization of multicomponent biomolecular condensates.

NATURE COMMUNICATIONS (2021)

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Article Microbiology

Spatial and Functional Organization of Human Papillomavirus Replication Foci in the Productive Stage of Infection

Simran Khurana et al.

Summary: The life cycle of human papillomavirus (HPV) relies on keratinocyte differentiation to replicate and assemble its genome in cellular pathways, with cellular histones and viral proteins playing crucial roles in this process.

MBIO (2021)

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Review Microbiology

Deconstructing virus condensation

Nora Lopez et al.

Summary: Viruses have evolved precise mechanisms to utilize cellular pathways for replication, forming liquid-like viral factories (VFs) through a biomolecular condensation process. During infection, a positive feedback cycle leads to an increase in transcription and translation within VFs. Understanding viral biomolecular condensation may lead to novel therapeutics and provide insights into cellular gene regulation through phase separation.

PLOS PATHOGENS (2021)

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Review Virology

The Not-So-Good, the Bad and the Ugly: HPV E5, E6 and E7 Oncoproteins in the Orchestration of Carcinogenesis

Om Basukala et al.

Summary: Infection with HPV begins with viral particles accessing basal cells in the epidermis through potential skin microtraumas. While HPV infections are typically cleared within 2 to 3 weeks by the host's immune response, persistent infections and compromised immune systems can lead to malignancy. Despite the strong association of HPV infection with cancer, therapeutic interventions against HPV-induced cancers remain a challenge, emphasizing the necessity for focused translational research.

VIRUSES-BASEL (2021)

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Article Chemistry, Multidisciplinary

Phase separation of p53 precedes aggregation and is affected by oncogenic mutations and ligands

Elaine C. Petronilho et al.

Summary: Mutant p53 tends to form aggregates with amyloid properties, especially amyloid oligomers inside the nucleus, which are believed to cause oncogenic gain-of-function. The DNA-binding domain of p53 (p53C) undergoes phase separation and aggregation in the presence of polyethylene glycol (PEG), and mutant p53C undergoes phase separation faster than wild-type p53C. Mutant p53 undergoes gel- and solid-like phase transitions in the nucleus, modulated by polyanions like heparin and RNA. The disordered transactivation domain (TAD) also plays a role in phase separation and amyloid aggregation of p53.

CHEMICAL SCIENCE (2021)

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Review Biochemistry & Molecular Biology

Control of Viral Latency by Episome Maintenance Proteins

Alessandra De Leo et al.

TRENDS IN MICROBIOLOGY (2020)

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Article Virology

Phase Separation of Epstein-Barr Virus EBNA2 and Its Coactivator EBNALP Controls Gene Expression

Qiu Peng et al.

JOURNAL OF VIROLOGY (2020)

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Article Multidisciplinary Sciences

Liquid-like droplet formation by tumor suppressor p53 induced by multivalent electrostatic interactions between two disordered domains

Kiyoto Kamagata et al.

SCIENTIFIC REPORTS (2020)

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Article Multidisciplinary Sciences

Composition-dependent thermodynamics of intracellular phase separation

Joshua A. Riback et al.

NATURE (2020)

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Review Biochemistry & Molecular Biology

Negri bodies and other virus membrane-less replication compartments

Quentin Nevers et al.

BIOCHIMICA ET BIOPHYSICA ACTA-MOLECULAR CELL RESEARCH (2020)

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Review Biochemistry & Molecular Biology

Considerations and Challenges in Studying Liquid-Liquid Phase Separation and Biomolecular Condensates

Simon Alberti et al.

CELL (2019)

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Article Biochemistry & Molecular Biology

Phase separation of 53BP1 determines liquid-like behavior of DNA repair compartments

Sinan Kilic et al.

EMBO JOURNAL (2019)

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Article Multidisciplinary Sciences

Compositional adaptability in NPM1-SURF6 scaffolding networks enabled by dynamic switching of phase separation mechanisms

Mylene C. Ferrolino et al.

NATURE COMMUNICATIONS (2018)

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Review Cell Biology

Biomolecular condensates: organizers of cellular biochemistry

Salman F. Banani et al.

NATURE REVIEWS MOLECULAR CELL BIOLOGY (2017)

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Review Multidisciplinary Sciences

Liquid phase condensation in cell physiology and disease

Yongdae Shin et al.

SCIENCE (2017)

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Article Multidisciplinary Sciences

Negri bodies are viral factories with properties of liquid organelles

Jovan Nikolic et al.

NATURE COMMUNICATIONS (2017)

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Review Biochemistry & Molecular Biology

Mechanisms and strategies of papillomavirus replication

Alison A. McBride

BIOLOGICAL CHEMISTRY (2017)

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Article Biochemistry & Molecular Biology

Compositional Control of Phase-Separated Cellular Bodies

Salman F. Banani et al.

CELL (2016)

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Article Biochemistry & Molecular Biology

Coexisting Liquid Phases Underlie Nucleolar Subcompartments

Marina Feric et al.

CELL (2016)

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Review Cell Biology

Phase separation in biology; functional organization of a higher order

Diana M. Mitrea et al.

CELL COMMUNICATION AND SIGNALING (2016)

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Article Multidisciplinary Sciences

Recognition of the disordered p53 transactivation domain by the transcriptional adapter zinc finger domains of CREB-binding protein

Alexander S. Krois et al.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2016)

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Article Medicine, General & Internal

Carcinogenic human papillomavirus infection

Mark Schiffman et al.

NATURE REVIEWS DISEASE PRIMERS (2016)

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Review Virology

Human papillomavirus molecular biology and disease association

John Doorbar et al.

REVIEWS IN MEDICAL VIROLOGY (2015)

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Review Cell Biology

Liquid-Liquid Phase Separation in Biology

Anthony A. Hyman et al.

ANNUAL REVIEW OF CELL AND DEVELOPMENTAL BIOLOGY, VOL 30 (2014)

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Article Virology

The Papillomavirus E2 proteins

Alison A. McBride

VIROLOGY (2013)

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Article Multidisciplinary Sciences

Phase transitions in the assembly of multivalent signalling proteins

Pilong Li et al.

NATURE (2012)

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Article Virology

The Papillomavirus E1 Helicase Activates a Cellular DNA Damage Response in Viral Replication Foci

Nozomi Sakakibara et al.

JOURNAL OF VIROLOGY (2011)

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Article Biochemistry & Molecular Biology

Single-Molecule characterization of oligomerization kinetics and equilibria of the tumor suppressor p53

Sridharan Rajagopalan et al.

NUCLEIC ACIDS RESEARCH (2011)

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Article Biochemistry & Molecular Biology

Equilibrium dissociation and unfolding of the dimeric human papillomavirus strain-16 E2 DNA-binding domain

Yu-Keung Mok et al.

PROTEIN SCIENCE (2010)

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Review Virology

Dual Role of p53 in Innate Antiviral Immunity

Carmen Rivas et al.

VIRUSES-BASEL (2010)

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Article Multidisciplinary Sciences

In situ Subcellular Fractionation of Adherent and Non-adherent Mammalian Cells

Anyaporn Sawasdichai et al.

Jove-Journal of Visualized Experiments (2010)

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Article Biochemistry & Molecular Biology

The Human Papillomavirus E7-E2 Interaction Mechanism in Vitro Reveals a Finely Tuned System for Modulating Available E7 and E2 Proteins

Clara Smal et al.

BIOCHEMISTRY (2009)

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Article Microbiology

Human Papillomaviruses Activate the ATM DNA Damage Pathway for Viral Genome Amplification upon Differentiation

Cary A. Moody et al.

PLOS PATHOGENS (2009)

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Review Biochemistry & Molecular Biology

Structural biology of the tumor suppressor p53

Andreas C. Joerger et al.

ANNUAL REVIEW OF BIOCHEMISTRY (2008)

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Article Biochemistry & Molecular Biology

The papillomavirus E2 DNA binding domain

Gonzalo de Prat-Gay et al.

FRONTIERS IN BIOSCIENCE-LANDMARK (2008)

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Article Virology

p53 represses human papillomavirus type 16 DNA replication via the viral E2 protein

Craig Brown et al.

VIROLOGY JOURNAL (2008)

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Review Biochemistry & Molecular Biology

Structure-function-rescue: the diverse nature of common p53 cancer mutants

A. C. Joerger et al.

ONCOGENE (2007)

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Article Microbiology

EC5S ubiquitin complex is recruited by KSHV latent antigen LANA for degradation of the VHL and p53 tumor suppressors

Qi-Liang Cai et al.

PLOS PATHOGENS (2006)

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Article Virology

E2 proteins from high- and low-risk human papillomavirus types differ in their ability to bind p53 and induce apoptotic cell death

JL Parish et al.

JOURNAL OF VIROLOGY (2006)

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Review Biochemistry & Molecular Biology

The P53 pathway: what questions remain to be explored?

A. J. Levine et al.

CELL DEATH AND DIFFERENTIATION (2006)

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Article Biochemistry & Molecular Biology

Distinctive cognate sequence discrimination, bound DNA conformation, and binding modes in the E2 C-terminal domains from prototype human and bovine papillomaviruses

DU Ferreiro et al.

BIOCHEMISTRY (2000)

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Article Multidisciplinary Sciences

Surfing the p53 network

B Vogelstein et al.

NATURE (2000)

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Article Biochemistry & Molecular Biology

The human papillomavirus (HPV) 16 E2 protein induces apoptosis in the absence of other HPV proteins and via a p59-dependent pathway

K Webster et al.

JOURNAL OF BIOLOGICAL CHEMISTRY (2000)

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Biomolecular Condensation of the Human Papillomavirus E2 Master Regulator with p53: Implications in Viral Replication

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