Ancheng Shen scite author profile

Multiple cancer immunotherapies including chimeric antigen receptor T cell and immune checkpoint inhibitors (ICIs) have been successfully developed to treat various cancers by motivating the adaptive anti-tumor immunity. Particularly, the checkpoint blockade approach has achieved great clinic success as evidenced by several U.S. Food and Drug Administration (FDA)-approved anti-programmed death receptor 1/ligand 1 or anti-cytotoxic T lymphocyte associated protein 4 antibodies. However, the majority of cancers have low clinical response rates to these ICIs due to poor tumor immunogenicity. Indeed, the cyclic guanosine monophosphate-adenosine monophosphate synthase‒stimulator of interferon genes‒TANK-binding kinase 1 (cGAS‒STING‒TBK1) axis is now appreciated as the major signaling pathway in innate immune response across different species. Aberrant signaling of this pathway has been closely linked to multiple diseases, including auto-inflammation, virus infection and cancers. In this perspective, we provide an updated review on the latest progress on the development of small molecule modulators targeting the cGAS‒STING‒TBK1 signaling pathway and their preclinical and clinical use as a new immune stimulatory therapy. Meanwhile, highlights on the clinical candidates, limitations and challenges, as well as future directions in this field are also discussed. Further, small molecule inhibitors targeting this signaling axis and their potential therapeutic use for various indications are discussed as well.

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Structure–Activity Relationship Study of Amidobenzimidazole Analogues Leading to Potent and Systemically Administrable Stimulator of Interferon Gene (STING) Agonists

Song

Wang

Zhang

et al. 2021

J. Med. Chem.

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Activation of the stimulator of interferon gene (STING) has emerged as an exciting immuno-oncology therapeutic strategy; however, the first-generation STING agonists, cyclic dinucleotide (CDN) analogues, have suffered from many disadvantages and failed in clinical trials. Therefore, non-CDN small-molecule STING agonists are urgently needed. In view of the unique structure of the high potency of dimeric amidobenzimidazole STING agonist 5, a structural elaboration was conducted by modifying several structural hotspots of this scaffold. Triazole 40 was identified as a new potent STING activator, possessing EC50 values of 0.24 and 39.51 μM for h- and m-STING, respectively. This compound has a slightly better pharmacokinetic profile and is >20-fold more aqueously soluble than 5. It activated the STING signaling dramatically by directly binding and stabilizing all h-STING isoforms and m-STING. In vivo, intermittent administration of 40 was found to have significant antitumor efficacy with good tolerance in two mouse tumor models.

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A Concerted Catalytic System for Sonogashira Coupling Reactions: Combination of N‐Heterocyclic Carbene Palladium and Copper Complexes

Shen

Fang

et al. 2018

Asian J Org Chem

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Robust acenaphthoimidazolylidene palladium complexes have been demonstrated as highlye fficient and general catalysts for Sonogashira cross-coupling reactionsi n excellent yields even at 0.01 mol %c atalyst loadings in com-bination with 1mol %I Pr-Cu under mild reaction conditions. The outcomes highlight that, along with the steric bulky aspects, s-donor properties of the NHC ligands are also crucial to accelerate the transformations.Scheme1.Pd-andCu-catalyzed Sonogashira cross-coupling reactions.[a] A.

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Ancheng Shen

Small molecules targeting the innate immune cGAS‒STING‒TBK1 signaling pathway

Structure–Activity Relationship Study of Amidobenzimidazole Analogues Leading to Potent and Systemically Administrable Stimulator of Interferon Gene (STING) Agonists

A Concerted Catalytic System for Sonogashira Coupling Reactions: Combination of N‐Heterocyclic Carbene Palladium and Copper Complexes

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