posted on 2016-10-19, 00:00authored byKyle E. Giesler, Dennis C. Liotta
The
pharmacokinetic properties of tenofovir (TFV) and other charged
nucleoside analogues are dramatically improved upon conjugation to
a lipid prodrug. We previously prepared reduction-sensitive lipid
conjugates of TFV that demonstrate superior antiviral activity compared
to other lipid conjugates including the clinically approved formulation,
tenofovir disoproxil fumarate (TDF). In continuation of that work,
we have synthesized next-generation conjugates with reduced cytotoxicity
that retain potent antiviral activity against HIV-1 and HBV with a
therapeutic index >100000 for our most potent conjugate. We also
show
that disulfide reduction is not responsible for prodrug cleavage unless
3-exo-tet intramolecular cyclization
can occur, suggesting that enzymatic hydrolysis is predominantly responsible
for activity of our prodrugs in vitro.