Fundamental aspects of long-acting tenofovir alafenamide delivery from subdermal implants for HIV prophylaxis

Manjula Gunawardana; Mariana Remedios-Chan; Debbie Sanchez; Simon Webster; Amalia E. Castonguay; Paul Webster; Christopher Buser; John A. Moss; MyMy Trinh; Martin Beliveau; Craig W. Hendrix; Mark A. Marzinke; Michael Tuck; Richard M. Caprioli; Michelle L. Reyzer; Joseph Kuo; Philippe A. Gallay; Marc M. Baum

doi:10.1038/s41598-022-11020-2

Scientific Reports (May 2022)

Fundamental aspects of long-acting tenofovir alafenamide delivery from subdermal implants for HIV prophylaxis

Manjula Gunawardana,
Mariana Remedios-Chan,
Debbie Sanchez,
Simon Webster,
Amalia E. Castonguay,
Paul Webster,
Christopher Buser,
John A. Moss,
MyMy Trinh,
Martin Beliveau,
Craig W. Hendrix,
Mark A. Marzinke,
Michael Tuck,
Richard M. Caprioli,
Michelle L. Reyzer,
Joseph Kuo,
Philippe A. Gallay,
Marc M. Baum

Affiliations

Manjula Gunawardana: Department of Chemistry, Oak Crest Institute of Science
Mariana Remedios-Chan: Department of Chemistry, Oak Crest Institute of Science
Debbie Sanchez: Department of Chemistry, Oak Crest Institute of Science
Simon Webster: Department of Chemistry, Oak Crest Institute of Science
Amalia E. Castonguay: Department of Chemistry, Oak Crest Institute of Science
Paul Webster: Department of Chemistry, Oak Crest Institute of Science
Christopher Buser: Department of Chemistry, Oak Crest Institute of Science
John A. Moss: Department of Chemistry, Oak Crest Institute of Science
MyMy Trinh: Certara Integrated Drug Development
Martin Beliveau: Certara Integrated Drug Development
Craig W. Hendrix: Department of Medicine, Johns Hopkins University
Mark A. Marzinke: Department of Medicine, Johns Hopkins University
Michael Tuck: Department of Biochemistry, Vanderbilt University
Richard M. Caprioli: Department of Biochemistry, Vanderbilt University
Michelle L. Reyzer: Department of Biochemistry, Vanderbilt University
Joseph Kuo: Department of Immunology & Microbiology, The Scripps Research Institute
Philippe A. Gallay: Department of Immunology & Microbiology, The Scripps Research Institute
Marc M. Baum: Department of Chemistry, Oak Crest Institute of Science

DOI: https://doi.org/10.1038/s41598-022-11020-2
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 25

Abstract

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Abstract Global efforts aimed at preventing human immunodeficiency virus type one (HIV-1) infection in vulnerable populations appear to be stalling, limiting our ability to control the epidemic. Long-acting, controlled drug administration from subdermal implants holds significant potential by reducing the compliance burden associated with frequent dosing. We, and others, are exploring the development of complementary subdermal implant technologies delivering the potent prodrug, tenofovir alafenamide (TAF). The current report addresses knowledge gaps in the preclinical pharmacology of long-acting, subdermal TAF delivery using several mouse models. Systemic drug disposition during TAF implant dosing was explained by a multi-compartment pharmacokinetic (PK) model. Imaging mass spectrometry was employed to characterize the spatial distribution of TAF and its principal five metabolites in local tissues surrounding the implant. Humanized mouse studies determined the effective TAF dose for preventing vaginal and rectal HIV-1 acquisition. Our results represent an important step in the development of a safe and effective TAF implant for HIV-1 prevention.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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