A Highly Potent Long-acting Small-molecule HIV-1 Capsid Inhibitor with Efficacy in a Humanized Mouse Model

Overview

Journal Nat Med

Specialties General Medicine
Molecular Biology

Date 2019 Sep 11

PMID 31501601

Citations 82

Authors

Stephen R Yant

Andrew Mulato

Derek Hansen

Winston C Tse

Anita Niedziela-Majka

Jennifer R Zhang

George J Stepan

Debi Jin

Melanie H Wong

Jill M Perreira

Eric Singer

Giuseppe A Papalia

Eric Y Hu

Jim Zheng

Bing Lu

Scott D Schroeder

Kevin Chou

Shekeba Ahmadyar

Albert Liclican

Helen Yu

Nikolai Novikov

Eric Paoli

Daniel Gonik

Renee R Ram

Magdeleine Hung

William M McDougall

Abraham L Brass

Wesley I Sundquist

Tomas Cihlar

John O Link

Affiliations

Soon will be listed here.

Abstract

People living with HIV (PLWH) have expressed concern about the life-long burden and stigma associated with taking pills daily and can experience medication fatigue that might lead to suboptimal treatment adherence and the emergence of drug-resistant viral variants, thereby limiting future treatment options. As such, there is strong interest in long-acting antiretroviral (ARV) agents that can be administered less frequently. Herein, we report GS-CA1, a new archetypal small-molecule HIV capsid inhibitor with exceptional potency against HIV-2 and all major HIV-1 types, including viral variants resistant to the ARVs currently in clinical use. Mechanism-of-action studies indicate that GS-CA1 binds directly to the HIV-1 capsid and interferes with capsid-mediated nuclear import of viral DNA, HIV particle production and ordered capsid assembly. GS-CA1 selects in vitro for unfit GS-CA1-resistant capsid variants that remain fully susceptible to other classes of ARVs. Its high metabolic stability and low solubility enabled sustained drug release in mice following a single subcutaneous dosing. GS-CA1 showed high antiviral efficacy as a long-acting injectable monotherapy in a humanized mouse model of HIV-1 infection, outperforming long-acting rilpivirine. Collectively, these results demonstrate the potential of ultrapotent capsid inhibitors as new long-acting agents for the treatment of HIV-1 infection.

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