Your search keyword '"*PARVOVIRUS B19"' showing total 3 results

1. High-Throughput Screening Identifies Inhibitors for Parvovirus B19 Infection of Human Erythroid Progenitors.

Author

Kang Ning, Anuradha Roy, Fang Cheng, Peng Xu, Kleiboeker, Steve, Escalante, Carlos R., Jingxin Wang, and Jianming Qiu

Subjects

*PARVOVIRUS B19, *PARVOVIRUS diseases, *VIRAL nonstructural proteins, *HIGH throughput screening (Drug development), *DNA replication, *HYDROPS fetalis, *BLOOD diseases

Abstract

Parvovirus B19 (B19V) infection can cause hematological disorders and fetal hydrops during pregnancy. Currently, no antivirals or vaccines are available for the treatment or prevention of B19V infection. To identify novel small-molecule antivirals against B19V replication, we developed a high-throughput screening (HTS) assay, which is based on an in vitro nicking assay using recombinant N-terminal amino acids 1 to 176 of the viral large nonstructural protein (NS1N) and a fluorescently labeled DNA probe (OriQ) that spans the nicking site of the viral DNA replication origin. We collectively screened 17,040 compounds and identified 2,178 (12.78%) hits that possess >10% inhibition of the NS1 nicking activity, among which 84 hits were confirmed to inhibit nicking in a dose-dependent manner. Using ex vivo-expanded primary human erythroid progenitor cells (EPCs) infected by B19V, we validated 24 compounds that demonstrated >50% in vivo inhibition of B19V infection at 10 μM, which can be categorized into 7 structure scaffolds. Based on the therapeutic index (half-maximal cytotoxic concentration [CC50]/half-maximal effective concentration [EC50] ratio) in EPCs, the top 4 compounds were chosen to examine their inhibitions of B19V infection in EPCs at two times of the 90% maximal effective concentration (EC90). A purine derivative (P7) demonstrated an antiviral effect (EC50 = 1.46 μM) without prominent cytotoxicity (CC50 = 71.8 mM) in EPCs and exhibited 92% inhibition of B19V infection in EPCs at 3.32 μM, which can be used as the lead compound in future studies for the treatment of B19V infection-caused hematological disorders. [ABSTRACT FROM AUTHOR]

Published

2022

2. The N-Terminal 5-68 Amino Acids Domain of the Minor Capsid Protein VP1 of Human Parvovirus B19 Enters Human Erythroid Progenitors and Inhibits B19 Infection.

Author

Wei Zou, Kang Ning, Peng Xu, Xuefeng Deng, Fang Cheng, Kleiboeker, Steve, and Jianming Qiu

Subjects

*PARVOVIRUS B19, *HYDROPS fetalis, *PURE red cell aplasia, *AMINO acids, *PARVOVIRUS diseases, *CARRIER proteins

Abstract

Parvovirus B19 (B19V) infection causes diseases in humans ranging from the mild erythema infectiosum to severe hematological disorders. The unique region of the minor structural protein VP1 (VP1u) of 227 amino acids harbors strong neutralizing epitopes which elicit dominant immune responses in patients. Recent studies have shown that the VP1u selectively binds to and enters B19V-permissive cells through an unknown cellular proteinaceous receptor. In the present study, we demonstrated that purified recombinant VP1u effectively inhibits B19V infection of ex vivo expanded primary human erythroid progenitors. Furthermore, we identified that the amino acid (aa) sequence 5-68 of the VP1 (VP1u5-68aa) is sufficient to confer the inhibition of B19V infection at a level similar to that of the full-length VP1u. In silico structure prediction suggests that the VP1u5-68aa contains three α-helices. Importantly, we found that the inhibition capability of the minimal domain VP1u5-68aa is independent of its dimerization but is likely dependent on the structure of the three predicated α-helices. As VP1u5-68aa outcompetes the full-length VP1u in entering cells, we believe that VP1u5-68aa functions as a receptor-binding ligand during virus entry. Finally, we determined the effective inhibition potency of VP1u5-68aa in B19V infection of human erythroid progenitors, which has a half-maximal effective concentration (EC50) of 67 nM, suggesting an antiviral peptide candidate to combat B19V infection. IMPORTANCE Human parvovirus B19 infection causes severe hematological disorders, including transient aplastic crisis, pure red cell aplasia, and hydrops fetalis. A productive B19 infection is highly restricted to human erythroid progenitors in human bone marrow and fetal liver. In the current study, we identified that the N-terminal 5-68 amino acids domain of the minor viral capsid protein VP1 enters ex vivo expanded human erythroid progenitors, which is nearly 5 times more efficient than the full-length VP1 unique region (1-227 aa). Importantly, purified recombinant 5-68 aa of the VP1 has high efficiency in inhibition of parvovirus B19 infection of human erythroid progenitors, which has an EC50 of 67 nM and low cytotoxicity. The N-terminal 5-68 amino acids holds the potential as an effective antiviral of parvovirus B19-caused hematological disorders, as well as a carrier to deliver proteins to human erythroid progenitors. [ABSTRACT FROM AUTHOR]

Published

2021

3. Structure of parvovirus B19 decorated by Fabs from a human antibody.

Author

Yingyuan Sun, Klose, Thomas, Yue Liu, Modrow, Susanne, and Rossmann, Michael G.

Subjects

*PARVOVIRUS B19, *QUATERNARY structure, *HYDROPS fetalis, *PROGENITOR cells, *IMMUNOGLOBULINS, *DNA viruses

Abstract

Parvovirus B19, one of the most common human pathogens, is a small DNA virus that belongs to the Parvoviridae. As a result of previous infections, antibodies to B19 are present in most adults. B19 has a strong tropism to erythroid progenitor cells and is able to cause a series of medical conditions including fifth disease, arthritis, myocarditis, hydrops fetalis and aplastic crisis. No approved vaccine is currently available for B19 and there is a lack of structural characterization of any B19 epitopes. Here we present the first cryo-EM structure of a B19 virus-like particle (VLP) complexed with the antigen-binding fragment (Fab) of a human neutralizing antibody, 860-55D. A model was built into the 3.2Å resolution map and the antigenic residues on the surface of B19 capsid were identified. Antibody 860-55D bridges the capsid of B19 by binding to a quaternary structure epitope formed by residues from three neighboring VP2 capsid proteins. [ABSTRACT FROM AUTHOR]

Published

2019