John Fuesler scite author profile

The human PYHIN proteins, AIM2, IFI16, IFIX, and MNDA, are critical regulators of immune response, transcription, apoptosis, and cell cycle. However, their protein interactions and underlying mechanisms remain largely uncharacterized. Here, we provide the interaction network for all PYHIN proteins and define a function in sensing of viral DNA for the previously uncharacterized IFIX protein. By designing a cell-based inducible system and integrating microscopy, immunoaffinity capture, quantitative mass spectrometry, and bioinformatics, we identify over 300 PYHIN interactions reflective of diverse functions, including DNA damage response, transcription regulation, intracellular signaling, and antiviral response. In view of the IFIX interaction with antiviral factors, including nuclear PML bodies, we further characterize IFIX and demonstrate its function in restricting herpesvirus replication. We discover that IFIX detects viral DNA in both the nucleus and cytoplasm, binding foreign DNA via its HIN domain in a sequence-non-specific manner. Furthermore, IFIX contributes to the induction of interferon response. Our results highlight the value of integrative proteomics in deducing protein function and establish IFIX as an antiviral DNA sensor important for mounting immune responses.

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Dynamic instability — A common denominator in prokaryotic and eukaryotic DNA segregation and cell division

Fuesler

2012

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Dynamic instability is an essential phenomenon in eukaryotic nuclear division and prokaryotic plasmid R1 segregation. Although the molecular machines used in both systems differ greatly in composition, strong similarities and requisite nuances in dynamics and segregation mechanisms are observed. This brief examination of the current literature provides a functional comparison between prokaryotic and eukaryotic dynamically unstable filaments, specifically ParM and microtubules. Additionally, this mini-review should support the notion that any dynamically unstable filament could serve as the molecular machine driving DNA segregation, but these machines possess auxiliary features to adapt to temporal and spatial disparities in either system. Key words: Dynamic instability, Microtubules, ParM filaments, R1 plasmid, Mitosis, Mitotic spindle, Brownian ratchet, Cytoskeleton evolution, Catastrophe/recovery Microtubule-mediated sister chromatid segregation during anaphase is a fundamental process in the nuclear division of most eukaryotic cells [1,2]. In a related prokaryotic process, proper segregation of duplicated R1 antibiotic resistance plasmid is achieved using the ParM/ParR/parC actin-like motility system encoded in the par operon of R1 [3,4]. While these systems differ in overall macromolecular structure and composition, notable similarities are evident in these seemingly distantly related processes [5,6]. Importantly and most Unauthenticated Download Date | 5/10/18 2:41 PM

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An arrayed human genomic library constructed in the PAC shuttle vector pJCPAC-Mam2 for genome-wide association studies and gene therapy

Fuesler¹,

Nagahama²,

Szulewski³

et al. 2012

Gene

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The various iterations of the HapMap Project and many genome-wide association studies (GWAS) have identified hundreds of potential genes involved in monogenic and multifactorial traits. We constructed an arrayed 115,000-member human genomic library in the PAC shuttle vector pJCPAC-Mam2 that can be propagated in both bacterial and human cells. The library appears to represent a two-fold coverage of the human genome. Transient transfection of a p53-containing PAC clone into p53-null Saos-2 human osteosarcoma cells demonstrated that both p53 mRNA and protein were produced. Additionally, expression of the p53 protein triggered apoptosis in a subset of the Saos-2 cells. This library should serve as a valuable resource to validate potential disease genes identified by GWAS in human cell lines and in animal models. Also, individual library members could potentially be used for gene therapy trials for a variety of recessive disorders.

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An arrayed human genomic library constructed in the PAC shuttle vector pJCPAC-Mam2 for genome-wide association studies

Nagahama

Szulewski

Mundorff

et al. 2012

BIOS

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John Fuesler

The functional interactome of PYHIN immune regulators reveals IFIX is a sensor of viral DNA

Dynamic instability — A common denominator in prokaryotic and eukaryotic DNA segregation and cell division

An arrayed human genomic library constructed in the PAC shuttle vector pJCPAC-Mam2 for genome-wide association studies and gene therapy

An arrayed human genomic library constructed in the PAC shuttle vector pJCPAC-Mam2 for genome-wide association studies

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