Drug–Fc conjugate CD388 targets influenza virus neuraminidase and is broadly protective in mice

IF 20.5 1区生物学 Q1 MICROBIOLOGY

Nature Microbiology Pub Date : 2025-03-17 DOI:10.1038/s41564-025-01955-3

Simon Döhrmann, James Levin, Jason N. Cole, Allen Borchardt, Karin Amundson, Amanda Almaguer, Elizabeth Abelovski, Rajvir Grewal, Douglas Zuill, Nicholas Dedeic, Grayson Hough, Joanne Fortier, Joanna Donatelli, Thanh Lam, Zhi-Yong Chen, Wanlong Jiang, Travis Haussener, Alain Noncovich, James M. Balkovec, Daniel C. Bensen, Voon Ong, Thomas P. Brady, Jeffrey B. Locke, Shawn Flanagan, Robert M. Hughes, Jeffrey L. Stein, Leslie W. Tari

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Abstract

The ability of influenza virus to undergo rapid antigenic shift to elude humoral immunity highlights the need for effective broad-spectrum influenza antivirals for treatment, prophylaxis and pandemic preparedness. Strategies providing durable, universal influenza protection in healthy and high-risk populations are urgently needed. Here we describe the design and preclinical characterization of CD388, a first-in-class antiviral drug–Fc conjugate (DFC), in mice and cynomolgus macaques. CD388 comprises a multivalent conjugate of the influenza virus neuraminidase inhibitor zanamivir, linked to a CH1–Fc hybrid domain of human IgG1 engineered for extended half-life. CD388 improves the antiviral activity of zanamivir, demonstrating potent, universal activity across influenza A and B viruses, including high pathogenicity and neuraminidase inhibitor resistant strains, a low potential for resistance development and potent efficacy in lethal mouse infection models. These results suggest that CD388 has the potential for universal prevention of influenza A and B in healthy and high-risk populations.

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来源期刊

Nature Microbiology Immunology and Microbiology-Microbiology

CiteScore

44.40

自引率

1.10%

发文量

226

期刊介绍： Nature Microbiology aims to cover a comprehensive range of topics related to microorganisms. This includes: Evolution: The journal is interested in exploring the evolutionary aspects of microorganisms. This may include research on their genetic diversity, adaptation, and speciation over time. Physiology and cell biology: Nature Microbiology seeks to understand the functions and characteristics of microorganisms at the cellular and physiological levels. This may involve studying their metabolism, growth patterns, and cellular processes. Interactions: The journal focuses on the interactions microorganisms have with each other, as well as their interactions with hosts or the environment. This encompasses investigations into microbial communities, symbiotic relationships, and microbial responses to different environments. Societal significance: Nature Microbiology recognizes the societal impact of microorganisms and welcomes studies that explore their practical applications. This may include research on microbial diseases, biotechnology, or environmental remediation. In summary, Nature Microbiology is interested in research related to the evolution, physiology and cell biology of microorganisms, their interactions, and their societal relevance.