Identification of 1S,2R-milnacipran analogs as potent norepinephrine and serotonin transporter inhibitors

A series of milnacipran analogs were synthesized and studied as monoamine transporter inhibitors, and several potent compounds with moderate lipophilicity were identified from the 1S,2R-isomers. Thus, 15l exhibited IC(50) values of 1.7nM at NET and 25nM at SERT, which were, respectively, 20- and 13-fold more potent than 1S,2R-milnacipran 1-II.     

Studies on the SAR and pharmacophore of milnacipran derivatives as monoamine transporter inhibitors

Derivatives of milnacipran were synthesized and studied as monoamine transporter inhibitors. Potent analogs were discovered at NET (9k) and at both NET and SERT (9s and 9u). A pharmacophore model was established based on the conformational analysis of milnacipran in aqueous solution using NMR techniques and was consistent with the SAR results.     

Pyrrolidino-tetrahydroisoquinolines as potent dual H3 antagonist and serotonin transporter inhibitors

A series of novel and potent pyrrolidino-tetrahydroisoquinolines with dual histamine H(3) antagonist/serotonin transporter inhibitor activity is described. A highly regio- and diastereoselective synthesis of the pyrrolidino-tetrahydroisoquinoline core involving acid mediated ring-closure of an acetophenone intermediate followed by reduction with NaCNBH(3) was developed. In vitro and in vivo data are discussed.     

Novel series of pyrrolotriazine analogs as highly potent pan-Aurora kinase inhibitors

The synthesis and SAR for a novel series of pyrrolotriazines as pan-Aurora kinase inhibitors are described. Optimization of the cyclopropane carboxamide terminus of lead compound 1 resulted in analogs with high cellular activity and improved rat PK profiles. Notably, compound 17l demonstrated tumor growth inhibition in a mouse xenograft model.     

Synthesis of enantiomerically pure milnacipran analogs and inhibition of dopamine, serotonin, and norepinephrine transporters

A series of Milnacipran analogs with variation in the aromatic moiety were prepared in high enantiomeric excess. Structure-activity relationships for two parallel enantiomeric series are described. The (-)-(1R,2S)-naphthyl analog (8h) showed the highest potency in the two series and is a triple reuptake inhibitor of the SERT, NET, and DAT.     

Studies on the structure-activity relationship of bicifadine analogs as monoamine transporter inhibitors

Compounds with various activities and selectivities were discovered through structure-activity relationship studies of bicifadine analogs as monoamine transporter inhibitors. The norepinephrine-selective 2-thienyl compound S-6j was efficacious in a rodent pain model.     

Pyrrolidino-tetrahydroisoquinolines bearing pendant heterocycles as potent dual H3 antagonist and serotonin transporter inhibitors

A series of novel and potent 6-heteroaryl-pyrrolidino-tetrahydroisoquinolines with dual histamine H(3) antagonist/serotonin transporter inhibitor activity is described. In vitro and in vivo data are discussed.     

3-(Arylamino)-3-phenylpropan-2-olamines as a new series of dual norepinephrine and serotonin reuptake inhibitors

A series of 3-(arylamino)-3-phenylpropan-2-olamines was prepared and screened for their ability to inhibit monoamine reuptake. A number of analogues displayed significant dual norepinephrine and serotonin reuptake inhibition. Compounds in this class exhibited minimal affinity for the dopamine transporter.     

SAR and optimization of thiazole analogs as potent stearoyl-CoA desaturase inhibitors

Elevated stearoyl-CoA desaturase (SCD) activity has been linked to a number of metabolic disorders including obesity and type II diabetes. Compound 3j, a potent SCD inhibitor (human HepG2 IC₅₀ = 1 nM) was identified from the optimization of a lead thiazole compound MF-152 with over 100-fold improvement in potency. In a 4-week chronic oral dosing at 0.2 mg/kg, 3j gave a robust 24% prevention of body weight gain in mice fed on a high fat diet accompanied with an improved metabolic profile on insulin and glucose levels.     

The discovery of carboline analogs as potent MAPKAP-K2 inhibitors

The discovery of a series of potent, carboline-based MK2 inhibitors is described. These compounds inhibit MK2 with IC50s as low as 10 nM, as measured in a DELFIA assay. An X-ray crystal structure reveals that they bind in a region near the p-loop and the hinge region of MK2a.     

Discovery of a series of small molecules as potent histone deacetylase inhibitors

Abstract

A series of small molecules were designed and synthesized based on our previous virtual screening approach, which was performed to discover potent histone deacetylase inhibitors (HDACIs) with novel structures. The derived compounds were tested by Hela cell nucleus extract for enzyme inhibition assay. Tumor cell growth inhibition assays were performed using a series of tumor cell lines. Molecule 4h has the best performance among these compounds with enzyme inhibition IC₅₀ of 0.14?μM and tumor cell growth inhibition IC₅₀ of 1.85 (U937), 2.02 (HL60), 2.67 (K562). Docking studies showed that multiple H-bonds and hydrophobic interactions make 4h binding to the active site of HDAC. 4h has the advantage of low molecular weight, so a variety of structural modifications can be performed in our further studies.     

Homotryptamines as potent and selective serotonin reuptake inhibitors (SSRIs)

A series of N,N-dimethylhomotryptamines was prepared and their binding affinities at the serotonin transporter (SERT) were determined. Compounds possessing an electron withdrawing substituent at the C5-position of the indole nucleus were found to be potent SSRIs. Initial attempts at conformational restriction of the propylamine sidechain by incorporation of a quinuclidine bicyclic structure did not improve binding affinity at SERT.     

Arylaminoethyl carbamates as a novel series of potent and selective cathepsin S inhibitors

We report a novel series of noncovalent inhibitors of cathepsin S. The synthesis of the peptidomimetic scaffold is described and structure-activity relationships of P3, P1, and P1' subunits are discussed. Lead optimization to a non-peptidic scaffold has resulted in a new class of potent, highly selective, and orally bioavailable cathepsin S inhibitors.     

Design and synthesis of reboxetine analogs morpholine derivatives as selective norepinephrine reuptake inhibitors

As part of a discovery effort aimed at identifying novel norepinephrine reuptake inhibitors (NRIs), a number of substituted morpholines were designed and synthesized. The target compounds contain vicinal stereogenic centers, and the program was greatly facilitated by the adoption of efficient synthetic routes which allowed for the late stage incorporation of structural and physicochemical diversity into the targets. Structure-activity relationships were developed by optimizing individual ring components of the structure for NRI potency and for selectivity against other monoamine reuptake transporters. Several novel morpholine derivatives with a potent and selective NRI profile are described.     

SelSA,selenium analogs of SAHA as potent histone deacetylase inhibitors

Cancer treatment and therapy has moved from conventional chemotherapeutics to more mechanism-based targeted approach. Disturbances in the balance of histone acetyltransferase (HAT) and deacetylase (HDAC) leads to a change in cell morphology, cell cycle, differentiation, and carcinogenesis. In particular, HDAC plays an important role in carcinogenesis and therefore it has been a target for cancer therapy. Structurally diverse group of HDAC inhibitors are known. The broadest class of HDAC inhibitor belongs to hydroxamic acid derivatives that have been shown to inhibit both class I and II HDACs. Suberoylanilide hydroxamic acid (SAHA) and Trichostatin A (TSA), which chelate the zinc ions, fall into this group. In particular, SAHA, second generation HDAC inhibitor, is in several cancer clinical trials including solid tumors and hematological malignancy, advanced refractory leukemia, metastatic head and neck cancers, and advanced cancers. To our knowledge, selenium-containing HDAC inhibitors are not reported in the literature. In order to find novel HDAC inhibitors, two selenium based-compounds modeled after SAHA were synthesized. We have compared two selenium-containing compounds; namely, SelSA-1 and SelSA-2 for their inhibitory HDAC activities against SAHA. Both, SelSA-1 and SelSA-2 were potent HDAC inhibitors; SelSA-2 having IC50 values of 8.9 nM whereas SAHA showed HDAC IC₅₀ values of 196 nM. These results provided novel selenium-containing potent HDAC inhibitors.     

Discovery of a series of hydroximic acid derivatives as potent histone deacetylase inhibitors

Abstract

To develop potent histone deacetylase inhibitors as antitumor agents, structural modification was performed. The synthesized molecules were tested by enzymatic inhibition assay and anti-proliferation assay. Several molecules show improved activities in the enzymatic inhibition assay. However, in the MTT assays, all these derived molecules have limited performance compared with SAHA. The IC50 values of molecule ((S)-N-(6-(hydroxyamino)-6-oxohexyl)-4-(3-(2-oxo-1-phenyl-2-((3-(trifluoromethyl)phenyl)amino)ethyl)ureido)benzamide, L8) which has the best enzymatic inhibition activity (with an IC50 value of 11.7?nm and 967?nm against Hela nucleus extract and HDAC8, respectively) were calculated compared with SAHA. Molecular docking was performed to predict the binding mode of molecule L8 in the active site of HDAC2 and HDAC8. Hydrophobic interaction, chelate binding, electrostatic attraction and H-bond interaction in combination make contribution to the ligand–receptor interactions.     

A new series of 3-phenylcoumarins as potent and selective MAO-B inhibitors

6-Methyl-3-phenylcoumarins 3–6 were designed, synthesized and evaluated as monoamine oxidase A and B (MAO-A and MAO-B) inhibitors. The synthesis of these new compounds (resveratrol–coumarin hybrids) was carried out with good yield by a Perkin reaction, from the 5-methylsalicylaldehyde and the corresponding phenylacetic acid. They show high selectivity to the MAO-B isoenzyme, with IC₅₀ values in the nanomolar range. Compound 5 is the most active compound and is several times more potent and selective than the reference compound, R-(?)-deprenyl.     

Identification of a novel series of potent and selective CCR6 inhibitors as biological probes

CCR6 has been implicated in both autoimmune diseases and non-autoimmune diseases. Thus, inhibition of CCR6-dependent cell migration is an attractive strategy for their treatment. An orally available small molecule inhibitor of CCR6 could therefore be a useful biological probe for the pathophysiological studies. Initial SAR study of a hit compound provided potent N-benzenesulfonylpiperidine derivatives that suppressed CCL20-induced Gi signals. By subsequent scaffold morphing of the central ring and further optimization, we identified a novel series of 1,4-trans-1-benzenesulfonyl-4-aminocyclohexanes as potent and selective CCR6 inhibitors with good pharmacokinetic properties. Our compounds showed good correlation between Gi signal inhibitory activity and cell migration inhibitory activity in human CCR6-transfected CHO cells. In addition, representative compound 35 potently inhibited CCR6-dependent cell migration and the increase in ERK phosphorylation in human primary cells. Therefore, the compound could be used effectively as a biological probe against human CCR6.     

Synthesis and in vitro evaluation of fluorinated diphenyloxide derivatives and sulfur analogs as serotonin transporter ligands

As the serotonin transporter (SERT) is involved in several neurodegenerative and psychiatric disorders; radiopharmaceuticals to image the SERT by PET would be valuable in studying these diseases. To this end we synthesized diphenyloxide derivatives and sulfide analogs, as new tracers, incorporating a fluorine or oxyalkyl fluorinated group on 4′ or 5′-position on phenyl ring B. Three of these exhibited good to high in vitro affinity (7 < K_i < 8 nM) and selectivity for the SERT over the other monoamine transporters.     

A series of spirocyclic analogues as potent inhibitors of bacterial phenylalanyl-tRNA synthetases

We have identified a series of spirocyclic furan and pyrrolidine inhibitors of Enterococcus faecalis and Staphylococcus aureus phenylalanyl-tRNA synthetases. The most potent analogue 1b showed IC50=5 nM (E. faecalis PheRS) and IC50=2 nM (S. aureus PheRS) with high selectivity over the human enzyme. The crystal X-ray structure of analogue 1b was determined.