TY - JOUR
T1 - A strategy for dual inhibition of the proteasome and fatty acid synthase with belactosin C-orlistat hybrids
AU - Zhu, Mingzhao
AU - Harshbarger, Wayne D.
AU - Robles, Omar
AU - Krysiak, Joanna
AU - Hull, Kenneth G.
AU - Cho, Sung Wook
AU - Richardson, Robyn D.
AU - Yang, Yanyan
AU - Garcia, Andres
AU - Spiegelman, Lindsey
AU - Ramirez, Bianca
AU - Wilson, Christopher T.
AU - Yau, Ju Anne
AU - Moore, James T.
AU - Walker, Caitlen B.
AU - Sacchettini, James C.
AU - Liu, Wenshe R.
AU - Sieber, Stephan A.
AU - Smith, Jeffrey W.
AU - Romo, Daniel
N1 - Publisher Copyright:
© 2017 Elsevier Ltd
PY - 2017
Y1 - 2017
N2 - The proteasome, a validated cellular target for cancer, is central for maintaining cellular homeostasis, while fatty acid synthase (FAS), a novel target for numerous cancers, is responsible for palmitic acid biosynthesis. Perturbation of either enzymatic machine results in decreased proliferation and ultimately cellular apoptosis. Based on structural similarities, we hypothesized that hybrid molecules of belactosin C, a known proteasome inhibitor, and orlistat, a known inhibitor of the thioesterase domain of FAS, could inhibit both enzymes. Herein, we describe proof-of-principle studies leading to the design, synthesis and enzymatic activity of several novel, β-lactone-based, dual inhibitors of these two enzymes. Validation of dual enzyme targeting through activity-based proteome profiling with an alkyne probe modeled after the most potent inhibitor, and preliminary serum stability studies of selected derivatives are also described. These results provide proof of concept for dual targeting of the proteasome and fatty acid synthase-thioesterase (FAS-TE) enabling a new approach for the development of drug-candidates with potential to overcome resistance.
AB - The proteasome, a validated cellular target for cancer, is central for maintaining cellular homeostasis, while fatty acid synthase (FAS), a novel target for numerous cancers, is responsible for palmitic acid biosynthesis. Perturbation of either enzymatic machine results in decreased proliferation and ultimately cellular apoptosis. Based on structural similarities, we hypothesized that hybrid molecules of belactosin C, a known proteasome inhibitor, and orlistat, a known inhibitor of the thioesterase domain of FAS, could inhibit both enzymes. Herein, we describe proof-of-principle studies leading to the design, synthesis and enzymatic activity of several novel, β-lactone-based, dual inhibitors of these two enzymes. Validation of dual enzyme targeting through activity-based proteome profiling with an alkyne probe modeled after the most potent inhibitor, and preliminary serum stability studies of selected derivatives are also described. These results provide proof of concept for dual targeting of the proteasome and fatty acid synthase-thioesterase (FAS-TE) enabling a new approach for the development of drug-candidates with potential to overcome resistance.
KW - Activity-based protein profiling
KW - Beta-lactones
KW - Inhibitor
KW - Serum stability
KW - Structure-activity relationship studies
UR - http://www.scopus.com/inward/record.url?scp=85013499930&partnerID=8YFLogxK
U2 - 10.1016/j.bmc.2017.01.020
DO - 10.1016/j.bmc.2017.01.020
M3 - Article
C2 - 28236510
AN - SCOPUS:85013499930
SN - 0968-0896
VL - 25
SP - 2901
EP - 2916
JO - Bioorganic and Medicinal Chemistry
JF - Bioorganic and Medicinal Chemistry
IS - 11
ER -