RÉSUMÉ
The SAR and improvement in potency against Tie2 of novel thienopyrimidine and thiazolopyrimidine kinase inhibitors are reported. The crystal structure of one of these compounds bound to the Tie-2 kinase domain is consistent with the SAR. These compounds have moderate potency in cellular assays of Tie-2 inhibition, good physical properties, DMPK, and show evidence of in vivo inhibition of Tie-2.
Sujet(s)
Inhibiteurs de protéines kinases/pharmacologie , Pyrimidines/pharmacologie , Récepteur TIE-2/antagonistes et inhibiteurs , Thiazoles/pharmacologie , Cristallographie aux rayons X , Conception de médicament , Humains , Modèles moléculaires , Structure moléculaire , Inhibiteurs de protéines kinases/synthèse chimique , Inhibiteurs de protéines kinases/composition chimique , Pyrimidines/synthèse chimique , Pyrimidines/composition chimique , Stéréoisomérie , Relation structure-activité , Thiazoles/synthèse chimique , Thiazoles/composition chimiqueRÉSUMÉ
Fusarium graminearum was grown in batch and continuous (chemostat) culture on a glucose-mineral salts medium in the presence and absence of casein. In the absence of casein no protease activity was detected in the culture filtrate from either batch or chemostat culture. For batch cultures grown on medium containing casein, most of the proteolytic activity detected in the supernatant during exponential growth had an optimum at ca pH 5.0. However, as the cultures passed from late exponential into stationary phase, the pH profile of the protease activity broadened until most of it was in the alkaline pH region. For glucose-limited chemostat cultures grown on media containing casein, protease activity had a narrow pH optimum with maximum activity at pH 5.0. For all concentrations of casein examined, protease activity was greater in chemostat culture than in batch culture. Extracellular proteases from batch and chemostat cultures were purified by bacitracin-Sepharose affinity chromatography. At least seven proteins were purified from batch cultures but chemostat cultures contained only a single aspartic protease with a molecular mass of 40 kDa.