66548-52-5Relevant articles and documents
Novel Triazolo Pyridazine Derivatives and Use Thereof
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Paragraph 0214-0216, (2018/07/31)
The present invention relates to a novel triazolo pyridazine derivative or a pharmaceutically acceptable salt thereof, to a pharmaceutical composition for inhibiting c-Met tyrosine kinase activity and a pharmaceutical composition for preventing or treating an abnormal proliferation disorder (hyperproliferative disorder) comprising same as an active ingredient, and to a method for preventing or treating an abnormal proliferation disorder (hyperproliferative disorder) comprising a step of administering a pharmaceutically effective amount of the pharmaceutical composition to a subject in need thereof. The present invention can advantageously be used as a therapeutic agent for various abnormal proliferation disorders such as cancer, psoriasis, rheumatoid arthritis and diabetic retinopathy which are associated with excessive cell proliferation and growth due to irregular kinase activity by effectively suppressing the activity of c-Met tyrosine kinase.
Pd-catalyzed chemoselective cross-coupling reaction of triaryl- or triheteroarylbismuth compounds with 3,6-dihalopyridazines
Urgin, Karene,Aube, Christophe,Pipelier, Muriel,Blot, Virginie,Thobie-Gautier, Christine,Sengmany, Stephane,Lebreton, Jacques,Leonel, Eric,Dubreuil, Didier,Condon, Sylvie
supporting information, p. 117 - 124 (2013/02/22)
The cross-coupling reactions of 3,6-dihalopyridazines with triaryl- or triheteroarylbismuth compounds were performed under palladium catalysis. The reaction was highly chemoselective, affording functionalized aryl- or heteroarylpyridazinyl chlorides in moderate to good yields. The cross-coupling reactions of 3,6-dihalopyridazines with triaryl- or triheteroarylbismuth compounds were performed under palladium catalysis. The reaction was highly chemoselective, affording functionalized aryl- or heteroarylpyridazinyl chlorides in moderate to good yields. Copyright
Synthesis and Structure-Activity Relationships of Series of Aminopyridazine Derivatives of γ-Aminobutyric Acid Acting as Selective GABA-A Antagonists
Wermuth, Camille-Georges,Bourguignon, Jean-Jacques,Schlewer, Gilbert,Gies, Jean-Pierre,Schoenfelder, Angele,et al.
, p. 239 - 249 (2007/10/02)
We have recently shown that an aryloaminopyridazine derivarive of GABA, SR 95103 , is a selective and competitive GABA-A receptor antagonist.In order to further explore the structural requirements for GABA receptor affinity, we synthesized a series of 38 compounds by attaching various pyridazinic structures to GABA or GABA-like side chains.Most of the compounds displaced GABA from rat brain membranes.All the active compounds antagonized the GABA-elicited enhancement of diazepam binding, strongly suggesting that all these compounds are GABA-A receptor antagonists.None of the compounds that displaced GABA from rat brain membranes interacted with other GABA recognition sites (GABA-B receptor, GABA uptake binding site, glutamate decarboxylase, GABA-transaminase).They did not interact with the Cl- ionophore associated with the GABA-A receptor and did not interact with the benzodiazepine, strychnine, and glutamate binding sites.Thus these compounds appear to be specific GABA-A receptor antagonists.In terms of structure-activity, it can be concluded that a GABA moiety bearing a positive charge is necessary for optimal GABA-A receptor recognition.Additional binding sites are tolerated only if they are part of a charge-delocalized amidinic or guanidinic system.If this delocalization is achieved by linking a butyric acid moiety to the N(2) nitrogen of a 3-aminopyridazine, GABA-antagonistic character is produced.The highest potency (ca.250 times bicuculline) was observed when an aromatic ? system, bearing electron-donating substituents, was present on the 6-position of the pyridazine ring.