Optimization of a dicarboxylic series for in vivo inhibition of citrate transport by the solute carrier 13 (SLC13) family
K Huard, JR Gosset, JI Montgomery… - Journal of medicinal …, 2016 - ACS Publications
Journal of medicinal chemistry, 2016•ACS Publications
Inhibition of the sodium-coupled citrate transporter (NaCT or SLC13A5) has been proposed
as a new therapeutic approach for prevention and treatment of metabolic diseases. In a
previous report, we discovered dicarboxylate 1a (PF-06649298) which inhibits the transport
of citrate in in vitro and in vivo settings via a specific interaction with NaCT. Herein, we report
the optimization of this series leading to 4a (PF-06761281), a more potent inhibitor with
suitable in vivo pharmacokinetic profile for assessment of in vivo pharmacodynamics …
as a new therapeutic approach for prevention and treatment of metabolic diseases. In a
previous report, we discovered dicarboxylate 1a (PF-06649298) which inhibits the transport
of citrate in in vitro and in vivo settings via a specific interaction with NaCT. Herein, we report
the optimization of this series leading to 4a (PF-06761281), a more potent inhibitor with
suitable in vivo pharmacokinetic profile for assessment of in vivo pharmacodynamics …
Inhibition of the sodium-coupled citrate transporter (NaCT or SLC13A5) has been proposed as a new therapeutic approach for prevention and treatment of metabolic diseases. In a previous report, we discovered dicarboxylate 1a (PF-06649298) which inhibits the transport of citrate in in vitro and in vivo settings via a specific interaction with NaCT. Herein, we report the optimization of this series leading to 4a (PF-06761281), a more potent inhibitor with suitable in vivo pharmacokinetic profile for assessment of in vivo pharmacodynamics. Compound 4a was used to demonstrate dose-dependent inhibition of radioactive [14C]citrate uptake in liver and kidney in vivo, resulting in modest reductions in plasma glucose concentrations.
ACS Publications