Fragment Addition-Based
Design of Heteroaromatic-Biphenyl-DAPYs
as Potent and Orally Available Non-nucleoside Reverse Transcriptase
Inhibitors Featuring Significantly Enhanced Safety
posted on 2024-10-01, 15:08authored byWen-Juan Huang, Christophe Pannecouque, Erik De Clercq, Shuai Wang, Fen-Er Chen
Our
previously disclosed biphenyl-DAPY 3 emerged as
a potent inhibitor against WT HIV-1 and various mutant strains. Yet,
its journey toward clinical application was thwarted by pronounced
cytotoxicity and low selectivity (CC50 = 6 μM, SI
= 3515). The safety improvement approach we employed in this work
entailed the incorporation of diverse heteroaromatic substituents
at the C5 position to exploit the tolerant regions of the NNRTIs’
binding pocket through fragment addition-based drug design strategy,
ultimately leading to the identification of a series of novel heteroaromatic-biphenyl-DAPYs.
The exemplary compound 10d revealed a striking reduction
in cytotoxicity (CC50 > 272.81 μM), nearly 45.5
times
lower than 3, while showcasing 15-fold increase in selectivity
(SI > 52632). This analog sustained exceptional anti-HIV-1 activity
against both WT HIV-1 (EC50 = 5 nM) and various mutant
strains. Compared to 3, a markedly slower rate of metabolism
in human liver microsomes of 10d was observed. Its pharmacokinetic
profile was equally captivating, featuring excellent oral bioavailability
(F = 57.4%). Moreover, 10d exhibited
a delicate sensitivity toward CYP, minimal inhibition of hERG, and
no detectable acute toxicity in vivo. These enchanting findings illuminated
the potential of 10d as a promising candidate for HIV-1
therapy.