1 The pharmacological properties of the novel diarylacetamide .c-opioid receptor agonist, EMD 61753, have been compared with those of ICI 197067 (a centrally-acting K agonist) and ICI 204448 (a peripherally-selective Kc agonist).2 EMD 61753 binds with high affinity (IC50 5.6 nM) and selectivity (K:ft:6:a binding ratio 1:536:125:> 1,786) to ic-opioid receptors and is a full and potent (IC50 54.5 nM) agonist in an in vitro assay for K-opioid receptors (rabbit vas deferens preparation). 3 Systemically-applied ['4C]-EMD 61753 is found in high concentrations in the lungs, liver, adrenal glands and kidneys. Considerably less radioactivity is detected in the whole brain, and this radioactivity is concentrated in the region of the cerebral ventricles in the choroid plexuses. EMD 61753 penetrates only poorly into the CNS. 4 EMD 61753 was weakly effective in pharmacological tests of central activity. This compound reversed haloperidolol-induced DOPA accumulation in the nucleus accumbens of the rat only at a dose of 30mgkg-', s.c., (doses of 0.1, 1.0 and 10mgkg-', s.c., and 1.0, 10 and 100mgkg-', p.o., were inactive). Hexobarbitone-induced sleeping in mice was prolonged by EMD 61753 at threshold doses of 10 mg kg-', s.c., and 100 mg kg-', p.o., whereas the motor performance of rats in the rotarod test was impaired by EMD 61753 with an IDm, value of 453 mg kg-', s.c.5 EMD 61753 produced dose-dependent, naloxone-reversible antinociception in the mouse formalin test (1st phase ID50 1.9 mg kg-', s.c., and 10.4mg kg-', p.o.; 2nd phase IDm 0.26mg kg', s.c., and 3.5 mg kg-', p.o.) and rodent abdominal constriction test (ID50 mouse 1.75 mg kg-', s.c., and 8.4mg kg-', p.o.; IDs rat 3.2mg kg', s.c., and 250mg kg', p.o.). EMD 61753 was inactive, or only weakly effective, in the rat pressure test under normalgesic conditions. After the induction of hyperalgesia with carrageenin, however, this compound elicited potent, dose-dependent (IDs 0.08 mg kg-', s.c., and 6.9 mg kg-', p.o., after remedial application, and 0.2 mg kg-', s.c., and 3.1 mg kg-', p.o., after prophylactic application) and naloxone-reversible antinociception. The antinociceptive action of systemically-applied (50 mg kg-', p.o.) EMD 61753 in the hyperalgesic pressure test was completely inhibited by injection of the K-opioid antagonist norbinaltorphimine (100 Lg) into the inflamed tissue, a result which indicates that this opioid effect is mediated peripherally. 6 Cutaneous plasma protein extravasation produced by antidromic electrical stimulation of the rat saphenous nerve was dose-dependently inhibited by systemically-applied EMD 61753 (ID13 values 3.7 mg kg', s.c., and 35.8 mg kg', p.o.), and this effect was completely antagonized by intraplantar application of norbinaltorphimine (50 pg). Extravasation elicited by the intraplantar application of substance P (10 pg) was not influenced by the administration of EMD 61753.7 EMD 61753 produced dose-dependent diuresis in non-hydrated rats at doses of and above 1.0 mg kg-', s.c., and 10 mg kg-', p.o., and in saline-loaded ra...
Systematic structural modifications of indolealkylphenylpiperazines led to improved selectivity and affinity within this class of 5-HT(1A) receptor agonists. Introduction of electron-withdrawing groups in position 5 on the indole raises serotonin transporter affinity, and the cyano group proved to be the best substituent here. 5-Fluoro and 5-cyano substituted indoles show comparable results in in vitro and in vivo tests, and bioisosterism between these substituents was supported by calculation of the molecular electrostatic potentials and dipole moments. Compounds showing promising in vitro data were further examined in ex vivo (p-chloroamphetamine assay) and in vivo (ultrasonic vocalization) tests. Optimization of the arylpiperazine moiety indicated that the 5-benzofuranyl-2-carboxamide was best suited to increase 5-HT transporter and 5-HT(1A) receptor affinity and to suppress D(2) receptor binding. 5-[4-[4-(5-Cyano-3-indolyl)butyl]-1-piperazinyl]benzofuran-2-carboxamide 29 (vilazodone, EMD 68843) was identified as a highly selective 5-HT(1A) receptor agonist [GTPgammaS, ED(50) = 1.1 nM] with subnanomolar 5-HT(1A) affinity [IC(50) = 0.2 nM] and as a subnanomolar 5-HT reuptake inhibitor [RUI = 0.5 nM] showing a great selectivity to other GPCRs (e.g., D(2), IC(50) = 666 nM).
Focal adhesion kinase (FAK) is considered as an attractive target for oncology, and small-molecule inhibitors are reported to be in clinical testing. In a surface plasmon resonance (SPR)-mediated fragment screening campaign, we discovered bicyclic scaffolds like 1H-pyrazolo[3,4-d]pyrimidines binding to the hinge region of FAK. By an accelerated knowledge-based fragment growing approach, essential pharmacophores were added. The establishment of highly substituted unprecedented 1H-pyrrolo[2,3-b]pyridine derivatizations provided compounds with submicromolar cellular FAK inhibition potential. The combination of substituents on the bicyclic templates and the nature of the core structure itself have a significant impact on the compounds FAK selectivity. Structural analysis revealed that the appropriately substituted pyrrolo[2,3-b]pyridine induced a rare helical DFG-loop conformation. The discovered synthetic route to introduce three different substituents independently paves the way for versatile applications of the 7-azaindole core.
Sarizotan exhibited high affinities only to serotonin 5-HT1A receptors and dopamine DA D4>D3>D2 receptors with the profile of a 5-HT1A agonist and DA antagonist demonstrated by the inhibition of cAMP-stimulation and guinea pig ileum contraction, decreased accumulation of the 5-HT precursor 5-hydroxytryptophan and increased levels of 5-HT metabolites, increased accumulation of DA precursor dihydroxyphenylalanine (DOPA) and the reduced levels of DA metabolites in intact rats. However, sarizotan at higher doses decreased DA precursor accumulation in reserpinized rats and induced contralateral rotational behavior in unilaterally substantia nigra lesioned rats, indicating some intrinsic dopaminergic activity; at D2 receptors sarizotan may act as a partial agonist, depending on the dopaminergic impulse flow. Sarizotan represents a new approach for the treatment of extrapyramidal motor complications such as l-DOPA-induced dyskinesia in Parkinson's disease.
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