In vitro sensitivity of herpesvirus simiae (B-virus) to twelve antivirals effective against herpesvirus hominis (H. simplex)

Hepatitis B virus (HBV) is a global health burden that causes acute and chronic hepatitis. To develop an HBV-neutralizing antibody that effectively prevents HBV infection, we previously generated a human anti-preS1 monoclonal antibody (1A8) that binds to genotypes A–D and validated its HBV-neutralizing activity in vitro. In the present study, we aimed to determine the fine epitope and paratope of 1A8 to understand the mechanism of HBV neutralization. We performed alanine-scanning mutagenesis on the preS1 (aa 19–34, genotype C) and the heavy (HCDR) and light (LCDR) chain complementarity-determining regions. The 1A8 recognized the three residues (Leu22, Gly23, and Phe25) within the highly conserved receptor-binding motif (NPLGFFP) of the preS1, while four CDR residues of 1A8 were critical in antigen binding. Structural analysis of the epitope–paratope interaction by molecular modeling revealed that Leu100 in the HCDR3, Ala50 in the HCDR2, and Tyr96 in the LCDR3 closely interacted with Leu22, Gly23, and Phe25 of the preS1. Additionally, we found that 1A8 also binds to the receptor-binding motif (NPLGFLP) of infrequently occurring HBV. The results suggest that 1A8 may broadly and effectively block HBV entry and thus have potential as a promising candidate for the prevention and treatment of HBV infection.

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In Vitro Sensitivity to Antibiotics of Swedish Strains of Mycoplasma Gallisepticum

Acta Veterinaria Scandinavica ◽

10.1186/bf03547080 ◽

1965 ◽

Vol 6 (1) ◽

pp. 234-238

Author(s):

Lena Silvén

Keyword(s):

Mycoplasma Gallisepticum ◽

In Vitro Sensitivity

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In Vitro Sensitivity Analysis of the Gastrointestinal Dissolution Profile of Weakly Basic Drugs in the Stomach-to-Intestine Fluid Changing System: Explanation for Variable Plasma Exposure after Oral Administration

Molecular Pharmaceutics ◽

10.1021/acs.molpharmaceut.0c01207 ◽

2021 ◽

Vol 18 (4) ◽

pp. 1711-1719

Author(s):

Toshihide Takagi ◽

Takato Masada ◽

Keiko Minami ◽

Makoto Kataoka ◽

Ken-ichi Izutsu ◽

...

Keyword(s):

Sensitivity Analysis ◽

Oral Administration ◽

Dissolution Profile ◽

Basic Drugs ◽

Plasma Exposure ◽

In Vitro Sensitivity

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P.028 No amplification of the hepatitis B virus covalently closed circular DNA after in vitro infection of the human hepatoma HepaRG cells

Journal of Clinical Virology ◽

10.1016/s1386-6532(06)80212-x ◽

2006 ◽

Vol 36 ◽

pp. S69-S70

Author(s):

O. Hantz ◽

R. Parent ◽

D. Durantel ◽

P. Gripon ◽

C. Trépo ◽

...

Keyword(s):

Hepatitis B Virus ◽

Hepatitis B ◽

Human Hepatoma ◽

Circular Dna ◽

Covalently Closed Circular Dna ◽

Heparg Cells ◽

B Virus

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Effects of Dendritic Cells from Hepatitis B Virus Transgenic Mice-Stimulated Autologous Lymphocytes on Hepatitis B Virus Replication: A Study on the Impact of Specific Sensitized Effector Cells on In Vitro Virus Replication

Viral Immunology ◽

10.1089/vim.2014.0053 ◽

2015 ◽

Vol 28 (2) ◽

pp. 85-92 ◽

Cited By ~ 1

Author(s):

Zhong-Yang Shen ◽

Wei-Ping Zheng ◽

Tao Liu ◽

Yang Yang ◽

Hong-Li Song

Keyword(s):

Dendritic Cells ◽

Hepatitis B Virus ◽

Hepatitis B ◽

Transgenic Mice ◽

Virus Replication ◽

Effector Cells ◽

B Virus ◽

The Impact

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Direct Interaction between the Subunit RAP30 of Transcription Factor IIF (TFIIF) and RNA Polymerase Subunit 5, Which Contributes to the Association between TFIIF and RNA Polymerase II

Journal of Biological Chemistry ◽

10.1074/jbc.m009634200 ◽

2001 ◽

Vol 276 (15) ◽

pp. 12266-12273 ◽

Cited By ~ 31

Author(s):

Wenxiang Wei ◽

Dorjbal Dorjsuren ◽

Yong Lin ◽

Weiping Qin ◽

Takahiro Nomura ◽

...

Keyword(s):

Rna Polymerase ◽

Rna Polymerase Ii ◽

Middle Part ◽

Wild Type ◽

Binding Region ◽

Pol Ii ◽

Transcription Factor Iif ◽

B Virus

The general transcription factor IIF (TFIIF) assembled in the initiation complex, and RAP30 of TFIIF, have been shown to associate with RNA polymerase II (pol II), although it remains unclear which pol II subunit is responsible for the interaction. We examined whether TFIIF interacts with RNA polymerase II subunit 5 (RPB5), the exposed domain of which binds transcriptional regulatory factors such as hepatitis B virus X protein and a novel regulatory protein, RPB5-mediating protein. The results demonstrated that RPB5 directly binds RAP30in vitrousing purified recombinant proteins andin vivoin COS1 cells transiently expressing recombinant RAP30 and RPB5. The RAP30-binding region was mapped to the central region (amino acids (aa) 47–120) of RPB5, which partly overlaps the hepatitis B virus X protein-binding region. Although the middle part (aa 101–170) and the N-terminus (aa 1–100) of RAP30 independently bound RPB5, the latter was not involved in the RPB5 binding when RAP30 was present in TFIIF complex. Scanning of the middle part of RAP30 by clustered alanine substitutions and then point alanine substitutions pinpointed two residues critical for the RPB5 binding inin vitroandin vivoassays. Wild type but not mutants Y124A and Q131A of RAP30 coexpressed with FLAG-RAP74 efficiently recovered endogenous RPB5 to the FLAG-RAP74-bound anti-FLAG M2 resin. The recovered endogenous RPB5 is assembled in pol II as demonstrated immunologically. Interestingly, coexpression of the central region of RPB5 and wild type RAP30 inhibited recovery of endogenous pol II to the FLAG-RAP74-bound M2 resin, strongly suggesting that the RAP30-binding region of RPB5 inhibited the association of TFIIF and pol II. The exposed domain of RPB5 interacts with RAP30 of TFIIF and is important for the association between pol II and TFIIF.

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