Literature DB >> 31636065

A First-in-Human Trial of GLS4, a Novel Inhibitor of Hepatitis B Virus Capsid Assembly, following Single- and Multiple-Ascending-Oral-Dose Studies with or without Ritonavir in Healthy Adult Volunteers.

Nan Zhao1, Bo Jia1, Hong Zhao2, Junyu Xu1, Xiaoyan Sheng1, Lin Luo3, Zhangma Huang3, Xingan Wang3, Qingyun Ren3, Yingjun Zhang3, Xia Zhao4, Yimin Cui4.   

Abstract

GLS4 is a novel inhibitor of the hepatitis B virus (HBV) capsid assembly with inhibitory activities against nucleot(s)ide-resistant HBV strains. This study investigated the pharmacokinetics, safety, and tolerability of GLS4 and the effects of food and ritonavir in healthy adults. GLS4 was administered in a single-ascending-dose study over 1 to 240 mg and multiple-ascending-dose study that ranged from 30 mg once daily to 180 mg three times daily. The drug interaction study included sequential design (day 1 for 120 mg GLS4 alone, day 5 for 100 mg ritonavir alone, followed by 9 days of both drugs) and a placebo control (9 days of both 240 mg GLS4 and 100 mg ritonavir). The results showed that the steady-state trough concentration of multiple dosing of GLS4 alone was significantly lower than the 90% effective concentration of 55.7 ng/ml, even with increasing dosing frequency and dosage. An initial dose of 100 mg ritonavir significantly boosted plasma concentration at 24 h of 120 mg GLS4 from 2.40 to 49.8 ng/ml (geometric mean ratio, 20.7; 90% confidence interval, 17.0 to 25.3), while a milder effect was observed on the area under the curve from 0 to 24 h, with a 7.42-fold increase, and on the maximum concentration, with a 4.82-fold increase. The pharmacokinetics change in GLS4 persisted after 9 days of chronic dosing, with a trough concentration of 182 ng/ml. Both single and multiple doses of GLS4 up to 240 mg with or without ritonavir were well tolerated. These results support the investigation of a novel HBV treatment regimen containing GLS4 with 100 mg ritonavir added solely to enhance GLS4 concentrations in plasma. (This study was registered at the China Platform for Registry and Publicity of Drug Clinical Trials [http://www.chinadrugtrials.org.cn] under numbers CTR20132137 and CTR20150230.).
Copyright © 2019 American Society for Microbiology.

Entities:  

Keywords:  CYP 3A4; GLS4; HBV; pharmacokinetics; ritonavir; safety

Year:  2019        PMID: 31636065      PMCID: PMC7187578          DOI: 10.1128/AAC.01686-19

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  28 in total

1.  In vitro inhibition of HBV replication by a novel compound, GLS4, and its efficacy against adefovir-dipivoxil-resistant HBV mutations.

Authors:  Xue-Yan Wang; Zhen-Man Wei; Guo-Yi Wu; Jiang-Hua Wang; Ying-Jun Zhang; Jing Li; Heng-Hui Zhang; Xing-Wang Xie; Xian Wang; Zhao-He Wang; Lai Wei; Yu Wang; Hong-Song Chen
Journal:  Antivir Ther       Date:  2012-06-06

2.  Discovery of hepatitis B virus capsid assembly inhibitors leading to a heteroaryldihydropyrimidine based clinical candidate (GLS4).

Authors:  Qingyun Ren; Xinchang Liu; Zhonghua Luo; Jing Li; Chaolei Wang; Siegfried Goldmann; Jiancun Zhang; Yingjun Zhang
Journal:  Bioorg Med Chem       Date:  2016-12-19       Impact factor: 3.641

3.  Impact of low-dose ritonavir on danoprevir pharmacokinetics: results of computer-based simulations and a clinical drug-drug interaction study.

Authors:  Micaela B Reddy; Yuan Chen; Joshua O Haznedar; Jennifer Fretland; Steven Blotner; Patrick Smith; Jonathan Q Tran
Journal:  Clin Pharmacokinet       Date:  2012-07-01       Impact factor: 6.447

4.  Trapping of hepatitis B virus capsid assembly intermediates by phenylpropenamide assembly accelerators.

Authors:  Sarah P Katen; Srinivas Reddy Chirapu; M G Finn; Adam Zlotnick
Journal:  ACS Chem Biol       Date:  2010-10-04       Impact factor: 5.100

5.  Inhibition of hepatitis B virus replication by drug-induced depletion of nucleocapsids.

Authors:  Karl Deres; Claus H Schröder; Arnold Paessens; Siegfried Goldmann; Hans Jörg Hacker; Olaf Weber; Thomas Krämer; Ulrich Niewöhner; Ulrich Pleiss; Jürgen Stoltefuss; Erwin Graef; Diana Koletzki; Ralf N A Masantschek; Anja Reimann; Rainer Jaeger; Rainer Gross; Bernhard Beckermann; Karl-Heinz Schlemmer; Dieter Haebich; Helga Rübsamen-Waigmann
Journal:  Science       Date:  2003-02-07       Impact factor: 47.728

Review 6.  Pharmacological and therapeutic properties of ritonavir-boosted protease inhibitor therapy in HIV-infected patients.

Authors:  Robert K Zeldin; Richard A Petruschke
Journal:  J Antimicrob Chemother       Date:  2003-12-04       Impact factor: 5.790

7.  Effect of low-dose ritonavir on the pharmacokinetics of the CXCR4 antagonist AMD070 in healthy volunteers.

Authors:  Ying Jun Cao; Charles W Flexner; Shelia Dunaway; Jeong-Gun Park; Karin Klingman; Ilene Wiggins; Jeanne Conley; Christine Radebaugh; Angela D Kashuba; Ron MacFarland; Stephen Becker; Craig W Hendrix
Journal:  Antimicrob Agents Chemother       Date:  2008-02-19       Impact factor: 5.191

8.  ABT-378, a highly potent inhibitor of the human immunodeficiency virus protease.

Authors:  H L Sham; D J Kempf; A Molla; K C Marsh; G N Kumar; C M Chen; W Kati; K Stewart; R Lal; A Hsu; D Betebenner; M Korneyeva; S Vasavanonda; E McDonald; A Saldivar; N Wideburg; X Chen; P Niu; C Park; V Jayanti; B Grabowski; G R Granneman; E Sun; A J Japour; J M Leonard; J J Plattner; D W Norbeck
Journal:  Antimicrob Agents Chemother       Date:  1998-12       Impact factor: 5.191

9.  Antiviral resistance and hepatitis B therapy.

Authors:  Marc G Ghany; Edward C Doo
Journal:  Hepatology       Date:  2009-05       Impact factor: 17.425

Review 10.  Ritonavir. Clinical pharmacokinetics and interactions with other anti-HIV agents.

Authors:  A Hsu; G R Granneman; R J Bertz
Journal:  Clin Pharmacokinet       Date:  1998-10       Impact factor: 6.447
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  7 in total

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Authors:  Sandra Phillips; Ravi Jagatia; Shilpa Chokshi
Journal:  Virulence       Date:  2022-12       Impact factor: 5.428

Review 2.  Targeting the multifunctional HBV core protein as a potential cure for chronic hepatitis B.

Authors:  Usha Viswanathan; Nagraj Mani; Zhanying Hu; Haiqun Ban; Yanming Du; Jin Hu; Jinhong Chang; Ju-Tao Guo
Journal:  Antiviral Res       Date:  2020-08-17       Impact factor: 5.970

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Journal:  Microorganisms       Date:  2020-09-15

4.  Amino acid residues at core protein dimer-dimer interface modulate multiple steps of hepatitis B virus replication and HBeAg biogenesis.

Authors:  Hui Liu; Junjun Cheng; Usha Viswanathan; Jinhong Chang; Fengmin Lu; Ju-Tao Guo
Journal:  PLoS Pathog       Date:  2021-11-09       Impact factor: 6.823

5.  Moving Fast Toward Hepatitis B Virus Elimination.

Authors:  Leda Bassit; Suzane Kioko Ono; Raymond F Schinazi
Journal:  Adv Exp Med Biol       Date:  2021       Impact factor: 2.622

Review 6.  Current Progress in the Development of Hepatitis B Virus Capsid Assembly Modulators: Chemical Structure, Mode-of-Action and Efficacy.

Authors:  Hyejin Kim; Chunkyu Ko; Joo-Youn Lee; Meehyein Kim
Journal:  Molecules       Date:  2021-12-07       Impact factor: 4.411

7.  Safety, antiviral activity and pharmacokinetics of JNJ-64530440, a novel capsid assembly modulator, as 4 week monotherapy in treatment-naive patients with chronic hepatitis B virus infection.

Authors:  Ed J Gane; Christian Schwabe; Elina Berliba; Pisit Tangkijvanich; Alina Jucov; Nelea Ghicavii; Thierry Verbinnen; Oliver Lenz; Willem Talloen; Thomas N Kakuda; Chris Westland; Megha Patel; Jeysen Z Yogaratnam; Leonard Dragone; Pieter Van Remoortere
Journal:  J Antimicrob Chemother       Date:  2022-03-31       Impact factor: 5.790
  7 in total

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