846-93-5Relevant academic research and scientific papers
SYNERGISTIC MODULATION OF FLT3 KINASE USING AMINOPYRIMIDINES KINASE MODULATORS
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Page/Page column 36, (2010/11/25)
The invention is directed to a method of inhibiting FLT3 tyrosine kinase activity or expression or reducing FLT3 kinase activity or expression in a cell or a subject comprising the administration of a farnesyl transferase inhibitor and a FLT3 kinase inhibitor selected from aminopyrimidine compounds of Formula I′: where R3, B, Z, Q, p, q and R1 are as defined herein. Included within the present invention is both prophylactic and therapeutic methods for treating a subject at risk of (or susceptible to) developing a cell proliferative disorder or a disorder related to FLT3.
AMINOPYRIMIDINES AS KINASE MODULATORS
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Page/Page column 28, (2010/11/25)
The invention is directed to aminopyrimidine compounds of Formula I: where R3, B, Z, Q, p, q and R1 are as defined herein, the use of such compounds as protein tyrosine kinase modulators, particularly inhibitors of FLT3 and/or c-kit and/or TrkB, the use of such compounds to reduce or inhibit kinase activity of FLT3 and/or c-kit and/or TrkB in a cell or a subject, and the use of such compounds for preventing or treating in a subject a cell proliferative disorder and/or disorders related to FLT3 and/or c-kit and/or TrkB. The present invention is further directed to pharmaceutical compositions comprising the compounds of the present invention and to methods for treating conditions such as cancers and other cell proliferative disorders.
17β-O-aminoalkyloximes of 5β-androstane-3β, 14β-diol with digitalis- like activity: Synthesis, cardiotonic activity, structure-activity relationships, and molecular modeling of the Na+,K+-ATPase receptor
Cerri, Alberto,Almirante, Nicoletta,Barassi, Paolo,Benicchio, Alessandra,Fedrizzi, Giorgio,Ferrari, Patrizia,Micheletti, Rosella,Quadri, Luisa,Ragg, Enzio,Rossi, Roberto,Santagostino, Marco,Schiavone, Antonio,Serra, Fulvio,Zappavigna, Maria Pia,Melloni, Piero
, p. 2332 - 2349 (2007/10/03)
A series of digitalis-like compounds with a 17-aminoalkoxyiminoalkyl or -alkenyl substituent was synthesized and evaluated for inhibition of Na+,K+-ATPase and for inotropic activity. The highest inhibition was found with compounds having the substituent in configuration 17β and the amino group at a distance of 6 or 7 bonds from C(17) of the digitoxigenin skeleton. The presence of the oxime function strengthens the interaction with the receptor, more if α,β-unsaturated, thus mimicking the electronic situation of the unsaturated lactone in natural digitalis compounds. The most active compounds showed Na+,K+-ATPase inhibitory potencies (IC50) 17-25 times higher than the standards digitoxigenin and digoxin and 3-11 times higher inotropic potencies (EC50) in isolated guinea pig left atria. These features are supported by a molecular model suggesting the possible interactions of the groups described above with particular amino acid residues in the H1-H2 domains of Na+,K+-ATPase. Some interactions are the classical ones already described in the literature; a new, very strong interaction of the basic group with the Cys138 was found and adds new possibilities to design compounds interacting with this region of the receptor. The most interesting compounds were also studied in vivo in the anesthetized guinea pig for evaluating their inotropic effect versus the lethal dose. Compounds 9 and 12 showed a slightly higher safety ratio than digoxin and deserve further evaluation.
