Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay

Hall, J. Perry; Brault, Amy; Vincent, Fabien; Weng, Shawn; Wang, Hong; Dumlao, Darren S.; Aulabaugh, Ann; Aivazian, Dikran; Castro, Dana; Chen, Ming; Culp, Jeffrey S.; Dower, Ken; Gardner, Joseph P.; Hawrylik, Steven J.; Golenbock, Douglas T.; Hepworth, David; Horn, Mark; Jones, Lyn H.; Jones, Peter; Latz, Eicke; Li, Jing; Lin, Lih-Ling; Lin, Wen Jen; Lin, David W.; Lovering, Frank; Niljanskul, Nootaree; Nistler, Ryan; Pierce, Betsy S.; Plotnikova, Olga; Schmitt, Daniel C.; Shanker, Suman; Smith, James F.; Snyder, William B.; Subashi, Timothy A.; Trujillo, John I.; Tyminski, Edyta; Wang, Guoxing; Wong, Joseph T.Y.; Lefker, Bruce A.; Dakin, Leslie A.; Leach, Karen L.

doi:10.1371/journal.pone.0184843

Cited by 124 publications

(132 citation statements)

References 37 publications

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“…The cGAS-STING antiviral response has become the subject of intense development in the pharmaceutical industry, including efforts to develop inhibitors of cGAS and STING to treat human autoimmune diseases (35)(36)(37), as well as agonists of STING to improve immune responses to tumors (38)(39)(40). Our discovery of a second DNA-activated antiviral response in human cells has important implications for these efforts.…”

Section: Discussionmentioning

confidence: 99%

Human DNA-PK activates a STING-independent DNA sensing pathway

Burleigh

Maltbaek

Cambier

et al. 2019

Preprint

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Detection of intracellular DNA by the cGAS-STING pathway activates a type I interferon-mediated innate immune response that protects from virus infection and can be harnessed to promote anti-tumor immunity. Whether there are additional DNA sensing pathways, and how such pathways might function, remains controversial. We show here that humans -but not mice -have a second, potent, STINGindependent DNA sensing pathway that is blocked by the E1A viral oncogene of human adenovirus 5.We identify human DNA-PK as the sensor of this pathway and demonstrate that DNA-PK kinase activity drives a robust and broad antiviral response. We discover that the heat shock protein HSPA8/HSC70 is a unique target of DNA-PK. Finally, we demonstrate that detection of foreign DNA and DNA damage trigger distinct modalities of DNA-PK activity. These findings reveal the existence, sensor, unique target, and viral antagonists of a STING-independent DNA sensing pathway (SIDSP) in human cells. IntroductionThe cGAS-STING DNA sensing pathway has emerged as a key component of the innate immune response that is important for antiviral immunity (1), contributes to specific autoimmune diseases (2), and mediates important aspects of antitumor immunity (3). cGAS binds to double-stranded DNA and catalyzes the formation of cyclic GMP-AMP (4, 5), a diffusible cyclic dinucleotide that activates the endoplasmic adaptor protein STING (6). Activated STING then serves as a platform for the inducible recruitment of the TBK1 kinase, which phosphorylates and activates the transcription factor IRF3, leading to the induction of the type I interferon mediated antiviral response (7).Nearly all studies on the cGAS-STING pathway involve the use of mice and mouse cells.Knockouts of cGAS (Mb21d1) and STING (Tmem173) have clearly demonstrated that both are essential for the transcriptional and cell biological responses to foreign intracellular DNA, and that they mediate the pathology of specific autoimmune diseases (2,8,9). However, numerous additional sensors of intracellular DNA have been proposed, all of which are thought to act upstream of STING (10). Whether STING-independent DNA sensing exists is currently unknown.Here, we report the unexpected finding that the E1A oncogene of human adenovirus 5 blocks two distinct DNA sensing pathways in human cells: the well-known cGAS-STING pathway (11), and a second, STING-independent DNA sensing pathway (SIDSP). We identify the DNA damage response protein DNA-PK as the sensor of the SIDSP, along with the heat shock protein HSPA8 as a unique SIDSP target. We show that the SIDSP is potently activated in human and primate cells, but it is weak or absent from mouse cells. Our findings demonstrate that human cells have a second DNA sensing pathway, with implications for host defense, autoimmunity, and anti-tumor immunity. Results Human adenovirus 5 E1A blocks two DNA sensing pathways in human cellsWe previously demonstrated that the viral oncogenes of the DNA tumor viruses are potent antagonists of the cGAS-STING DNA sensing pathway ...

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Section: Discussionmentioning

confidence: 99%

Human DNA-PK activates a STING-independent DNA sensing pathway

Burleigh

Maltbaek

Cambier

et al. 2019

Preprint

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“…Proteins and ligands are not identified if they are part of an active therapeutic research program. Nucleotide‐binding domain 1 (NBD1) of Cystic Fibrosis Transmembrane Conductance Regulator, and the cyclic GMP‐AMP Synthase (cGAS) were expressed and purified as described . Other proteins were purified at Pfizer using standard growth and purification techniques.…”

Section: Methodsmentioning

confidence: 99%

“…Nucleotide-binding domain 1 (NBD1) of Cystic Fibrosis Transmembrane Conductance Regulator, and the cyclic GMP-AMP Synthase (cGAS) were expressed and purified as described. 15,16 Other proteins were purified at Pfizer using standard growth and purification techniques. All the proteins used in these experiments were shown to be greater than 95% pure by gel.…”

Section: Methodsmentioning

confidence: 99%

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A simple model for determining affinity from irreversible thermal shifts

Hall

2019

Protein Science

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Thermal denaturation (Tm) data are easy to obtain; it is a technique that is used by both small labs and large‐scale industrial organizations. The link between ligand affinity (K D) and ΔTm is understood for reversible denaturation; however, there is a gap in our understanding of how to quantitatively interpret ΔTm for the many proteins that irreversibly denature. To better understand the origin, and extent of applicability, of a K D to ΔTm correlate, we define equations relating K D and ΔTm for irreversible protein unfolding, which we test with computational models and experimental data. These results suggest a general relationship exists between K D and ΔTm for irreversible denaturation.

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“…Given these advances in developing small molecules and methods to activate innate immunity to reduce microbial burden, methods to inhibit hyperactive innate immune signaling may aid in the development of therapies for autoimmune disorders. Already, small molecules have been developed that target cGAS and reduce its activity (An et al, 2015; Hall et al, 2017; Vincent et al, 2017). Given the evolutionary arms race between pathogens and host, especially with respect to the co-evolution of DNA-and retro-viruses with humans (Elde and Malik, 2009), might it be possible to develop virally based strategies or molecules to inhibit hyperactive innate immunity?…”

Section: Prospectivementioning

confidence: 99%

The Role of Nucleic Acid Sensing in Controlling Microbial and Autoimmune Disorders

Matz

Guzman

Goodman

2019

Nucleic Acid Sensing and Immunity - Part B

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Innate immunity, the first line of defense against invading pathogens, is an ancient form of host defense found in all animals, from sponges to humans. During infection, innate immune receptors recognize conserved molecular patterns, such as microbial surface molecules, metabolites produces during infection, or nucleic acids of the microbe’s genome. When initiated, the innate immune response activates a host defense program that leads to the synthesis proteins capable of pathogen killing. In mammals, the induction of cytokines during the innate immune response leads to the recruitment of professional immune cells to the site of infection, leading to an adaptive immune response. While a fully functional innate immune response is crucial for a proper host response and curbing microbial infection, if the innate immune response is dysfunctional and is activated in the absence of infection, autoinflammation and autoimmune disorders can develop. Therefore, it follows that the innate immune response must be tightly controlled to avoid an autoimmune response from host-derived molecules, yet still unencumbered to respond to infection. In this review, we will focus on the innate immune response activated from cytosolic nucleic acids, derived from the microbe or host itself. We will depict how viruses and bacteria activate these nucleic acid sensing pathways and their mechanisms to inhibit the pathways. We will also describe the autoinflammatory and autoimmune disorders that develop when these pathways are hyperactive. Finally, we will discuss gaps in knowledge with regard to innate immune response failure and identify where further research is needed.

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Discovery of PF-06928215 as a high affinity inhibitor of cGAS enabled by a novel fluorescence polarization assay

Cited by 124 publications

References 37 publications

Human DNA-PK activates a STING-independent DNA sensing pathway

Human DNA-PK activates a STING-independent DNA sensing pathway

A simple model for determining affinity from irreversible thermal shifts

The Role of Nucleic Acid Sensing in Controlling Microbial and Autoimmune Disorders

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