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In Vivo Half-Life Extension of BMP1/TLL Metalloproteinase Inhibitors Using Small-Molecule Human Serum Albumin Binders.

Julien C VantouroutAndrew M MasonJosephine YuenGraham L SimpsonGhotas EvindarLetian KuaiMichael HobbsEmma EdgarSaul NeedleXiaopeng BaiSteve WilsonPaul Scott-StevensWilliam TraylenKim LambertNeil YoungShenaz BunallyScott G SummerfieldRichard SnellRakesh LadEric ShiSteven SkinnerLisa ShewchukAllan J B WatsonChun-Wa ChungSandeep PalDennis A HoltLara S KallanderJoanne PrendergastKatrina RiveraDavid G WashburnMark R HarpelChristopher Arico-MuendelAlbert Isidro-Llobet
Published in: Bioconjugate chemistry (2021)
Reducing the required frequence of drug dosing can improve the adherence of patients to chronic treatments. Hence, drugs with longer in vivo half-lives are highly desirable. One of the most promising approaches to extend the in vivo half-life of drugs is conjugation to human serum albumin (HSA). In this work, we describe the use of AlbuBinder 1, a small-molecule noncovalent HSA binder, to extend the in vivo half-life and pharmacology of small-molecule BMP1/TLL inhibitors in humanized mice (HSA KI/KI). A series of conjugates of AlbuBinder 1 with BMP1/TLL inhibitors were prepared. In particular, conjugate c showed good solubility and a half-life extension of >20-fold versus the parent molecule in the HSA KI/KI mice, reaching half-lives of >48 h with maintained maximal inhibition of plasma BMP1/TLL. The same conjugate showed a half-life of only 3 h in the wild-type mice, suggesting that the half-life extension was principally due to specific interactions with HSA. It is envisioned that conjugation to AlbuBinder 1 should be applicable to a wide range of small molecule or peptide drugs with short half-lives. In this context, AlbuBinders represent a viable alternative to existing half-life extension technologies.
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