Xin Mao scite author profile

The COVID-19 pandemic caused by the SARS-CoV-2 virus continually poses serious threats to global public health. The main protease (Mpro) of SARS-CoV-2 plays a central role in viral replication. We designed and synthesized 32 new bicycloproline-containing Mpro inhibitors derived from either Boceprevir or Telaprevir, both of which are approved antivirals. All compounds inhibited SARS-CoV-2 Mpro activity in vitro with IC50 values ranging from 7.6 to 748.5 nM. The co-crystal structure of Mpro in complex with MI-23, one of the most potent compounds, revealed its interaction mode. Two compounds (MI-09 and MI-30) showed excellent antiviral activity in cell-based assays. In a SARS-CoV-2 infection transgenic mouse model, oral or intraperitoneal treatment with MI-09 or MI-30 significantly reduced lung viral loads and lung lesions. Both also displayed good pharmacokinetic properties and safety in rats.

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Structure‐Guided Discovery of a Potent and Selective Cell‐Active Inhibitor of SETDB1 Tudor Domain

Guo

Mao

Xiong

et al. 2021

Angew Chem Int Ed

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SET domain bifurcated protein 1 (SETDB1) is a histone lysine methyltransferase that promotes the silencing of some tumour suppressor genes and is overexpressed in many cancers. SETDB1 contains a unique tandem tudor domain (TTD) that recognizes histone H3 sequences containing both methylated and acetylated lysines. Beginning with the identification of a hit compound (Cpd1), we discovered the first potent and selective small molecule SETDB1-TTD inhibitor (R,R)-59 through stepwise structure-guided optimization. (R,R)-59 showed a K D value of 0.088 AE 0.045 mM in the ITC assay. The high potency of (R,R)-59 was well explained by the cocrystal structure of the (R,R)-59-TTD complex. (R,R)-59 is an endogenous binder competitive inhibitor. Evidence has also demonstrated its cellular target engagement. Interestingly, the enantiomer (S,S)-59 did not show activity in all the assays, highlighting the potential of (R,R)-59 as a tool compound in exploring the biological functions of SETDB1-TTD.

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Metal-Free Aerobic Oxidative Selective C–C Bond Cleavage in Heteroaryl-Containing Primary and Secondary Alcohols

Xia

Mao

et al. 2019

Org. Lett.

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A transition-metal-free aerobic oxidative selective C−C bond-cleavage reaction in primary and secondary heteroaryl alcohols is reported. This reaction was highly efficient and tolerated various heteroaryl alcohols, generating a carboxylic acid derivative and a neutral heteroaromatic compound. Experimental studies combined with density functional theory calculations revealed the mechanism underlying the selective C−C bond cleavage. This strategy also provides an alternative simple approach to carboxylation reaction.

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A convenient cell fusion assay for the study of SARS‐CoV entry and inhibition

Sha

Cao

et al. 2006

IUBMB Life

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SummarySARS-CoV spike (S) protein-mediated cell fusion is important for the viral entry mechanism and identification of SARS-CoV entry inhibitors. In order to avoid the high risks involved in handling SARS-CoV and to facilitate the study of viral fusion mechanism, we established the cell lines: SR-COS7 cells that stably express both SARS-CoV S protein and red fluorescence protein, R-COS7 cells that stably express red fluorescence protein, and AG-COS7 cells that stably express both ACE2 and green fluorescence protein, respectively. When SR-COS7 cells or R-COS7 cells were cocultured with AG-COS7 cells, syncytia with yellow fluorescence were conveniently observed after 12 h in SR-COS7 cells plus AG-COS7 cells, but not in R-COS7 cells plus AG-COS7 cells. The cell-to-cell fusion efficiency was simply determined for quantitative analysis based on the number of syncytium detected by flow cytometry. Such new cell-to-cell fusion model was further assessed by the potent HR2 peptide inhibitor, which led to the obvious decrease of the cell-to-cell fusion efficiency. The successful fusion and inhibition of cell-based binding assay shows that it can be well used for the study of SARSCoV entry and inhibition.

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A Theoretical Investigation of Gas Phase OH-Initiated Acenaphthylene Degradation Reaction

Mao

Wang

Huang³

et al. 2017

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The mechanisms for OH-initiated acenaphthylene degradation reactions are investigated theoretically by using the density function theory method at M06-2X/aug-ccpVTZ level in the present paper. There are two possible reaction pathways for the degradation processes have been predicted: the hydrogen abstraction pathway and the hydroxyl addition elimination pathway. Additionally, the formation mechanism for a series of the products such as epoxide, naphthalene-1,8-dicarbaldehyde, dialdehydes, 1-acenaphthenone and nitroacenaphthylene are discussed in detail as well. From the analyses of the decomposition of OH-acenaphthylene adducts, it is found that the favorable reaction with O 2 /NO is to form the acenaphthenone rather than epoxide, and the most stable isomer is acenaphthenone react from the C1-site reaction. The advantage reaction pathway with NO 2 is to form nitroacenaphthylene and nitroacenaphthylenol from C1-site, too.

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Xin Mao

SARS-CoV-2 M ^pro inhibitors with antiviral activity in a transgenic mouse model

Structure‐Guided Discovery of a Potent and Selective Cell‐Active Inhibitor of SETDB1 Tudor Domain

Metal-Free Aerobic Oxidative Selective C–C Bond Cleavage in Heteroaryl-Containing Primary and Secondary Alcohols

A convenient cell fusion assay for the study of SARS‐CoV entry and inhibition

A Theoretical Investigation of Gas Phase OH-Initiated Acenaphthylene Degradation Reaction

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Xin Mao

SARS-CoV-2 M pro inhibitors with antiviral activity in a transgenic mouse model

Structure‐Guided Discovery of a Potent and Selective Cell‐Active Inhibitor of SETDB1 Tudor Domain

Metal-Free Aerobic Oxidative Selective C–C Bond Cleavage in Heteroaryl-Containing Primary and Secondary Alcohols

A convenient cell fusion assay for the study of SARS‐CoV entry and inhibition

A Theoretical Investigation of Gas Phase OH-Initiated Acenaphthylene Degradation Reaction

Contact Info

Product

Resources

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SARS-CoV-2 M ^pro inhibitors with antiviral activity in a transgenic mouse model