RÉSUMÉ
Bromodomain-containing proteins (BCPs) can specifically recognize acetylated lysine (KAc) in histones and other substrate proteins. Recently, several kinase inhibitors were found to inhibit bromodomains, such as the PLK1 inhibitor BI-2536 and the JAK2 inhibitor TG101209, which bind to BRD4 with IC50 values of 25 nmol·L-1 and 130 nmol·L-1, respectively. To obtain potent BRD4 inhibitors from inhibitor BI-2536, we used dihydroquinoxalin-2(1H)-one to replace the 7,8-dihydropteridin-6(5H)-one in BI2536. By exploring the structure-activity relationships of the new dihydroquinoxalin-2(1H)-one structures, we obtained a novel phenyl side chain series of BRD4 inhibitors. We identified several potent BRD4 inhibitors, especially compounds 16, 22, 28 and 29, which had IC50 values below 100 nmol·L-1 in fluorescence anisotropy (FA) assays, indicating this series of compounds are worth to fruther investigation.
RÉSUMÉ
HSP90, which is the biomarker of cell stress and endogenous protective protein, functions as a molecular chaperone. Many client proteins of HSP90, including EGFR, Met, Raf-1, IKK and p53, play important roles in the occurrence and development of tumor. Binding of HSP90 inhibitors triggers the deactivation of HSP90, resulting in client protein degradation, and hence inhibits the tumor growth by blocking multiple targets involved in signaling of tumor proliferation. This review summarizes recent development of small molecule inhibitors bound to N-terminal of HSP90.
Sujet(s)
Humains , Antinéoplasiques , Chimie , Protéines du choc thermique HSP90 , Tumeurs , Transduction du signalRÉSUMÉ
As an extension of the structure-based drug discovery, fragment-based drug discovery is matured increasingly, and plays an important role in drug development. Fragments in a small library, with lower molecular mass and high "ligand efficiency", are detected by SPR, MS, NMR, X-ray crystallography technologies and other biophysical methods. Then they are considered as starting points for chemical optimization with the guidance of structural biology methods to get good "drug-like" lead and candidate compounds. In this article, we reviewed the current progress of fragment-based drug discovery and detailed a number of examples to illustrate the novel strategies.
Sujet(s)
Conception assistée par ordinateur , Cristallographie aux rayons X , Découverte de médicament , Méthodes , Ligands , Spectroscopie par résonance magnétique , Fragments peptidiques , Chimie , Conformation des protéines , Bibliothèques de petites molécules , Résonance plasmonique de surfaceRÉSUMÉ
Sodium-glucose co-transporters are a family of glucose transporter found in the intestinal mucosa of the small intestine (SGLT-2) and the proximal tubule of the nephron (SGLT-1 and SGLT-2). They contribute to renal glucose reabsorption and most of renal glucose (about 90%) is reabsorbed by SGLT-2 located in the proximal renal tubule. Selectively inhibiting activity of SGLT-2 is an innovative therapeutic strategy for treatment of type 2 diabetes by enhancing urinary glucose excretion from the body. Therefore SGLT-2 inhibitors are considered to be potential antidiabetic drugs with an unique mechanism. This review will highlight some recent advances and structure-activity relationships in the discovery and development of SGLT-2 inhibitors including O-glycoside, C-glycoside, C, O-spiro glycoside and non glycosides.
Sujet(s)
Animaux , Humains , Composés benzhydryliques , Chimie , Pharmacologie , Diabète de type 2 , Traitement médicamenteux , Glucosides , Chimie , Pharmacologie , Hypoglycémiants , Chimie , Pharmacologie , Structure moléculaire , Oses , Chimie , Pharmacologie , Transporteur-1 sodium-glucose , Métabolisme , Transporteur-2 sodium-glucose , Métabolisme , Relation structure-activitéRÉSUMÉ
To obtain higher potency and specificity, a series of 7-alkoxy analogues of illudalic acid was synthesized on the base of structure-activity relationship (SAR). All of these compounds exhibited submicromolar inhibition of the enzyme when tested against human leukocyte common antigen-related phosphatase (LAR) (for example, for 15e, IC50 = 180 nmol x L(-1)). They represent the most potent small-molecule inhibitors of LAR so far. These analogues also display excellent selectivity for LAR over other protein tyrosine phosphatases (PTPs) except for the highly homologous PTPsigma. The compound 15f is of 120-fold selectivity for LAR versus PTP-1B inhibition. The development of potent enzyme-specific inhibitors is so important that they may serve both as tools to study the role of LAR and as therapeutic agents for treatment of type II diabetes.