Shuaiyi Liang scite author profile

The optimization, based on computational, thermodynamic, and crystallographic data, of a series of small-molecule ligands of the Phe43 cavity of the envelope glycoprotein gp120 of human immunodeficiency virus (HIV) has been achieved. Importantly, biological evaluation revealed that the small-molecule CD4 mimics (4−7) inhibit HIV-1 entry into target cells with both significantly higher potency and neutralization breadth than previous congeners, while maintaining high selectivity for the target virus. Their binding mode was characterized via thermodynamic and crystallographic studies.

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Comparison of the Inhibition Mechanisms of Adalimumab and Infliximab in Treating Tumor Necrosis Factor α-Associated Diseases from a Molecular View

Liang

Guo

et al. 2013

Journal of Biological Chemistry

130

137

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Background:The epitope and the TNF␣ inhabitation mechanism of Adalimumab remain unclear. Results: The crystal structure of the TNF␣ in complex with Adalimumab is reported at a resolution of 3.1 Å. Conclusion:The epitope of Adalimumab provided information that Adalimumab may have clinical advantage compared with Infliximab. Significance: These data reveal the Adalimumab's mechanism of TNF␣ inhibition and its advantages compared with other TNF inhibitors in clinical practice. TNF␣-targeting therapy with the use of the drugs Etanercept, Infliximab, and Adalimumab is used in the clinical treatment of various inflammatory and immune diseases. Although all of these reagents function to disrupt the interaction between TNF␣ and its receptors, clinical investigations showed the advantages of Adalimumab treatment compared withEtanercept and Infliximab. However, the underlying molecular mechanism of action of Adalimumab remains unclear. In our previous work, we presented structural data on how Infliximab binds with the E-F loop of TNF␣ and functions as a TNF␣ receptorbinding blocker. To further elucidate the variations between TNF␣ inhibitors, we solved the crystal structure of TNF␣ in complex with Adalimumab Fab. The structural observation and the mutagenesis analysis provided direct evidence for identifying the Adalimumab epitope on TNF␣ and revealed the mechanism of Adalimumab inhibition of TNF␣ by occupying the TNF␣ receptor-binding site. The larger antigenantibody interface in TNF␣ Adalimumab also provided information at a molecular level for further understanding the clinical advantages of Adalimumab therapy compared with Infliximab.TNF is an immunity-modulating cytokine required for immune processes. The unregulated activities of TNFs can lead to the development of inflammatory diseases. Excess amounts of TNF␣ expressed in cells are associated with the development of immune diseases, including rheumatoid arthritis, Crohn's disease, psoriatic arthritis, and inflammatory bowel disease (1, 2). The function of TNF␣ requires smooth interaction with its two receptors, TNF receptor 1 (TNFR1) 4 and TNF receptor 2 (TNFR2). Blocking the interaction between TNF␣ and TNFRs has successfully been developed as a therapy in treating inflammatory or autoimmune diseases (3,4). TNF␣ neutralization therapies, including the use of a soluble TNFR2-Fc recombinant (Etanercept), a mouse-human chimera mAb (Infliximab), or a human mAb (Adalimumab), have been introduced in the past decades for the management of rheumatoid arthritis and other immune diseases (5).Although all of these TNF␣ blockers function by interrupting the TNF␣-TNFR interaction, information on whether the different TNF␣ inhibitors have similar clinical efficacy remains controversial because of the lack of randomized clinical trial meta-analyses. In the early stages of clinical usage of Infliximab, its discontinuation was reported to result in loss of response. This largely affected patients who received long term treatment and later discontinued use (6). Approximately 10% of...

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Structural Basis for Treating Tumor Necrosis Factor α (TNFα)-associated Diseases with the Therapeutic Antibody Infliximab

Liang

Dai

Hou

et al. 2013

Journal of Biological Chemistry

112

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Background: Although infliximab has high efficacy in treating TNF␣-associated diseases, the epitope on TNF␣ remains unclear. Results: The crystal structure of the TNF␣ in complex with the infliximab Fab is reported at a resolution of 2.6 Å. Conclusion: TNF␣ E-F loop plays a crucial role in the interaction. Significance: The structure may lead to understanding the mechanism of mAb anti-TNF␣.

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Nucleoside Monophosphate Complex Structures of the Endonuclease Domain from the Influenza Virus Polymerase PA Subunit Reveal the Substrate Binding Site inside the Catalytic Center

Zhao

Lou

Guo

et al. 2009

J Virol

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Identification of gp120 Residue His105 as a Novel Target for HIV-1 Neutralization by Small-Molecule CD4-Mimics

Fritschi

Liang

Mohammadi

et al. 2021

ACS Med. Chem. Lett.

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The design and synthesis of butyl chain derivatives at the indane ring 3-position of our lead CD4-mimetic compound BNM-III-170 that inhibits human immunodeficiency virus (HIV-1) infection are reported. Optimization efforts were guided by crystallographic and computational analysis of the small-molecule ligands of the Phe43 cavity of the envelope glycoprotein gp120. Biological evaluation of 11−21 revealed that members of this series of CD4-mimetic compounds are able to inhibit HIV-1 viral entry into target cells more potently and with greater breadth compared to BNM-III-170. Crystallographic analysis of the binding pocket of 14, 16, and 17 revealed a novel hydrogen bonding interaction between His105 and a primary hydroxyl group on the butyl side chain. Further optimization of this interaction with the His105 residue holds the promise of more potent CD4-mimetic compounds.

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Shuaiyi Liang

Small-Molecule CD4-Mimics: Structure-Based Optimization of HIV-1 Entry Inhibition

Comparison of the Inhibition Mechanisms of Adalimumab and Infliximab in Treating Tumor Necrosis Factor α-Associated Diseases from a Molecular View

Structural Basis for Treating Tumor Necrosis Factor α (TNFα)-associated Diseases with the Therapeutic Antibody Infliximab

Nucleoside Monophosphate Complex Structures of the Endonuclease Domain from the Influenza Virus Polymerase PA Subunit Reveal the Substrate Binding Site inside the Catalytic Center

Identification of gp120 Residue His105 as a Novel Target for HIV-1 Neutralization by Small-Molecule CD4-Mimics

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