Characterization of Protein Tyrosine Phosphatase 1B Inhibition by Chlorogenic Acid and Cichoric Acid.
James M LipchockHeidi P HendricksonBonnie B DouglasKelly E BirdPatrick S GintherIvan RivaltaNicholas S TenVictor S BatistaJ Patrick LoriaPublished in: Biochemistry (2016)
Protein tyrosine phosphatase 1B (PTP1B) is a known regulator of the insulin and leptin signaling pathways and is an active target for the design of inhibitors for the treatment of type II diabetes and obesity. Recently, cichoric acid (CHA) and chlorogenic acid (CGA) were predicted by docking methods to be allosteric inhibitors that bind distal to the active site. However, using a combination of steady-state inhibition kinetics, solution nuclear magnetic resonance experiments, and molecular dynamics simulations, we show that CHA is a competitive inhibitor that binds in the active site of PTP1B. CGA, while a noncompetitive inhibitor, binds in the second aryl phosphate binding site, rather than the predicted benzfuran binding pocket. The molecular dynamics simulations of the apo enzyme and cysteine-phosphoryl intermediate states with and without bound CGA suggest CGA binding inhibits PTP1B by altering hydrogen bonding patterns at the active site. This study provides a mechanistic understanding of the allosteric inhibition of PTP1B.
Keyphrases
- molecular dynamics simulations
- type diabetes
- magnetic resonance
- molecular docking
- small molecule
- protein protein
- binding protein
- signaling pathway
- cardiovascular disease
- metabolic syndrome
- weight loss
- transcription factor
- glycemic control
- magnetic resonance imaging
- weight gain
- oxidative stress
- molecular dynamics
- skeletal muscle
- cell proliferation
- protein kinase
- combination therapy
- smoking cessation