Jinming Zhou scite author profile

The interferon-inducible myxovirus resistance (Mx) proteins play important roles in combating a wide range of virus infections. MxA inhibits many RNA and DNA viruses, whereas the antiviral activity of MxB is less well established. We find that human MxB inhibits HIV-1 infection by reducing the level of integrated viral DNA. Passaging HIV-1 through MxB-expressing cells allowed the evolution of a mutant virus that escapes MxB restriction. HIV-1 escapes MxB restriction by mutating the alanine residue at position 88 in the viral capsid protein (CA), with a consequent loss of CA interaction with the host peptidylprolyl isomerase cyclophilin A (CypA), suggesting a role for CypA in MxB restriction. Consistent with this, MxB associates with CypA, and shRNA-mediated CypA depletion or cyclosporine A treatment resulted in the loss of MxB inhibition of HIV-1. Taken together, we conclude that human MxB protein inhibits HIV-1 DNA integration by a CypA-dependent mechanism.

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Study of the impact of the T877A mutation on ligand‐induced helix‐12 positioning of the androgen receptor resulted in design and synthesis of novel antiandrogens

Zhou

Liu

Geng

et al. 2009

Proteins

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Antiandrogen flutamide, an antagonist of the wild-type androgen receptor (AR), is used in the clinics for treating metastatic prostate cancer. However, the T877A mutated AR is paradoxically activated by hydroxyflutamide, an active form of flutamide. Despite of crystallographic studies, how the T877A mutation results in antagonist-agonist conversion of hydroxyflutamide remains a puzzle. Here, started from a structural model of the apo form of AR ligand-binding domain (AR-LBD), we have investigated the impact of the T877A mutation on ligand-induced helix-12 positioning by replica-exchange molecular dynamics (REMD) simulations with an unique protocol, which is capable of simulating the H12 dynamics and keeping the main body of AR-LBD unchanged. Specifically, (i) we have computationally demonstrated that on the binding of hydroxyflutamide, the apo form of H12 rearranges into the agonistic form in the T877A mutant, but into the antagonistic forms in the wild-type receptor, shedding light on hydroxyflutamide agonism/antagonism; (ii) By REMD simulations, we have predicted antiandrogen SC184 is a non-agonist of the T877A mutant. This was confirmed by luciferase assays; and (iii) on the basis of the binding modes of hydroxyflutamide and SC184 from the simulations, we designed a novel flutamide derivative called SC333, which was subsequently predicted to be a pure antagonist of the T877A mutant. We then synthesized and experimentally confirmed SC333 is a pan-antiandrogen effective against the wild-type and the T877A and W741C mutated ARs, showing low micromolar cytotoxicity in LNCaP cells. Importantly, we demonstrated that distribution of the H12 conformations from REMD simulations is correlated with ligand agonist/antagonist activity.

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Human MxB Inhibits the Replication of Hepatitis C Virus

Liu

et al. 2019

J Virol

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Type I interferon (IFN) inhibits viruses by inducing the expression of antiviral proteins. The IFN-induced myxovirus resistance B (MxB) protein has been reported to inhibit a limited number of viruses, including HIV-1 and herpesviruses, but its antiviral coverage remains to be explored further. Here we show that MxB interferes with RNA replication of hepatitis C virus (HCV) and significantly inhibits viral replication in a cyclophilin A (CypA)-dependent manner. Our data further show that MxB interacts with the HCV protein NS5A, thereby impairing NS5A interaction with CypA and NS5A localization to the endoplasmic reticulum, two events essential for HCV RNA replication. Interestingly, we found that MxB significantly inhibits two additional CypA-dependent viruses of the Flaviviridae family, namely, Japanese encephalitis virus and dengue virus, suggesting a potential link between virus dependence on CypA and virus susceptibility to MxB inhibition. Collectively, these data have identified MxB as a key factor behind IFN-mediated suppression of HCV infection, and they suggest that other CypA-dependent viruses may also be subjected to MxB restriction. IMPORTANCE Viruses of the Flaviviridae family cause major illness and death around the world and thus pose a great threat to human health. Here we show that IFN-inducible MxB restricts several members of the Flaviviridae, including HCV, Japanese encephalitis virus, and dengue virus. This finding not only suggests an active role of MxB in combating these major pathogenic human viruses but also significantly expands the antiviral spectrum of MxB. Our study further strengthens the link between virus dependence on CypA and susceptibility to MxB restriction and also suggests that MxB may employ a common mechanism to inhibit different viruses. Elucidating the antiviral functions of MxB advances our understanding of IFN-mediated host antiviral defense and may open new avenues to the development of novel antiviral therapeutics.

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Influenza Virus Exploits an Interferon-Independent lncRNA to Preserve Viral RNA Synthesis through Stabilizing Viral RNA Polymerase PB1

Wang

Zhang

et al. 2019

Cell Reports

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Jinming Zhou

The Interferon-Inducible MxB Protein Inhibits HIV-1 Infection

Study of the impact of the T877A mutation on ligand‐induced helix‐12 positioning of the androgen receptor resulted in design and synthesis of novel antiandrogens

Human MxB Inhibits the Replication of Hepatitis C Virus

Influenza Virus Exploits an Interferon-Independent lncRNA to Preserve Viral RNA Synthesis through Stabilizing Viral RNA Polymerase PB1

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