4-Bicyclic heteroaryl-piperidine derivatives as potent,orally bioavailable Stearoyl-CoA desaturase-1 (SCD1) inhibitors. Part 1: Urea-based analogs

A new series of urea-based, 4-bicyclic heteroaryl-piperidine derivatives as potent SCD1 inhibitors is described. The structure–activity relationships focused on bicyclic heteroarenes and aminothiazole–urea portions are discussed. A trend of dose-dependent decrease in body weight gain in diet-induced obese (DIO) mice is also demonstrated.     

Functional consequences of retro-inverso isomerization of a miniature protein inhibitor of the p53–MDM2 interaction

Peptide retro-inverso isomerization is thought to be functionally neutral and has been widely used as a tool for designing proteolytically stable d-isomers to recapitulate biological activities of their parent l-peptides. Despite success in a wide range of applications, exceptions amply exist that clearly defy this rule of thumb when parent l-peptides adopt an α-helical conformation in their bound state. The detrimental energetic effect of retro-inverso isomerization of an α-helical l-peptide on its target protein binding has been estimated to be 3.0–3.4 kcal/mol. To better understand how the retro-inverso isomer of a structured protein works at the molecular level, we chemically synthesized and functionally characterized the retro-inverso isomer of a rationally designed miniature protein termed stingin of 18 amino acid residues, which adopts an N-terminal loop and a C-terminal α-helix stabilized by two intra-molecular disulfide bridges. Stingin emulated the transactivation peptide of the p53 tumor suppressor protein and bound with high affinity and via its C-terminal α-helix to MDM2 and MDMX—the two negative regulators of p53. We also prepared the retro isomer and d-enantiomer of stingin for comparative functional studies using fluorescence polarization and surface plasmon resonance techniques. We found that retro-inverso isomerization of l-stingin weakened its MDM2 binding by 720 fold (3.9 kcal/mol); while enantiomerization of l-stingin drastically reduced its binding to MDM2 by three orders of magnitude, sequence reversal completely abolished it. Our findings demonstrate the limitation of peptide retro-inverso isomerization in molecular mimicry and reinforce the notion that the strategy works poorly with biologically active α-helical peptides due to inherent differences at the secondary and tertiary structural levels between an l-peptide and its retro-inverso isomer despite their similar side chain topologies at the primary structural level.¹     

Chlorogenic acid,a dietary polyphenol,protects acetaminophen-induced liver injury and its mechanism

Chlorogenic acid (CGA) is one of the most abundant dietary polyphenols, possessing well-known antioxidant capacity. The present study is designed to observe the protection provided by CGA against acetaminophen (AP)-induced liver injury in mice in vivo and the underlying mechanisms engaged in this process. Serum transaminases analysis and liver histological evaluation demonstrated the protection of CGA against AP-induced liver injury. CGA treatment decreased the increased number of liver apoptotic cells induced by AP in a dose-dependent manner. CGA also inhibited AP-induced cleaved activation of caspase-3, 7. Moreover, CGA reversed AP-decreased liver reduced glutathione (GSH) levels, glutamate-cysteine ligase (GCL) and glutathione reductase activity. Further results showed that CGA increased mRNA and protein expression of the catalytic subunit of GCL (GCLC), thioredoxin (Trx) 1/2 and thioredoxin reductase (TrxR) 1. Furthermore, CGA abrogated AP-induced phospholyated activation of ERK1/2, c-Jun N-terminal kinase (JNK), p38 kinases and molecular signals upstream. The results of this study demonstrate that CGA counteracts AP-induced liver injury at various levels by preventing apoptosis and oxidative stress damage, and more specifically, both the GSH and Trx antioxidant systems and the mitogen-activated protein kinase (MAPK) signaling cascade appear to be engaged in this protective mechanism.     

Retinoic acid alters the proliferation and survival of the epithelium and mesenchyme and suppresses Wnt/β-catenin signaling in developing cleft palate

Retinoic acid (RA) contributes to cleft palate; however, the cellular and molecular mechanisms responsible for the deleterious effects on the developing palate are unclear. Wnt signaling is a candidate pathway in the cleft palate and is associated with RA in organ development; thus, we aim to investigate whether RA-induced cleft palate also results from altered Wnt signaling. Administration of RA to mice altered cell proliferation and apoptosis in craniofacial tissues by regulating molecules controlling cell cycle and p38 MAPK signaling, respectively. This altered cell fate by RA is a crucial mechanism contributing to 100% incidence of cleft palate. Moreover, Wnt/β-catenin signaling was completely inhibited by RA in the early developing palate via its binding and activation with RA receptor (RAR) and is responsible for RA-induced cleft palate. Furthermore, PI3K/Akt signaling was also involved in actions of RA. Our findings help in elucidating the mechanisms of RA-induced cleft palate.     

Potential antitumor mechanisms of phenothiazine drugs

In this study, three kinds of phenothiazine drugs were analyzed to explore their potential antitumor mechanisms. First, target proteins that could interact with chlorpromazine, fluphenazine and trifluoperazine were predicted. Then, the target proteins of the three drugs were intersected. Cell signaling pathway enrichment and related disease enrichment were conducted for the intersected proteins to extract the enrichment categories associated with tumors. By regulation network analysis of the protein interactions, the mechanisms of action of these target proteins in tumor tissue were clarified, thus confirming the potential antitumor mechanisms of the phenothiazine drugs. The final results of cell signaling pathway enrichment and related disease enrichment showed that the categories with the highest score were all found in tumors. Target proteins belonging to the tumor category included signaling pathway members such as Wnt, MAPK and retinoic acid receptor. Moreover, another target protein, MAPK8, could indirectly act on target proteins CDK2, IGF1R, GSK3B, RARA, FGFR2 and MAPK10, thereby affecting tumor cell division and proliferation. Therefore, phenothiazine drugs may have potential antitumor effects, and tumor-associated target proteins play important roles in the process of cell signaling transduction cascades.     

Methionine Synthase A2756G Polymorphism and Risk of Colorectal Adenoma and Cancer: Evidence Based on 27 Studies

Methionine synthase (MTR), which plays a central role in maintaining adequate intracellular folate, methionine and normal homocysteine concentrations, was thought to be involved in the development of colorectal cancer (CRC) and colorectal adenoma (CRA) by affecting DNA methylation. However, studies on the association between MTR A2756G polymorphism and CRC/CRA remain conflicting. We conducted a meta-analysis of 27 studies, including 13465 cases and 20430 controls for CRC, and 4844 cases and 11743 controls for CRA. Potential sources of heterogeneity and publication bias were also systematically explored. Overall, the summary odds ratio of G variant for CRC was 1.03 (95% CI: 0.96–1.09) and 1.05 (95% CI: 0.99–1.12) for CRA. No significant results were observed in heterozygous and homozygous when compared with wild genotype for these polymorphisms. In the stratified analyses according to ethnicity, source of controls, sample size, sex, and tumor site, no evidence of any gene-disease association was obtained. Results from the meta-analysis of four studies on MTR stratified according to smoking and alcohol drinking status showed an increased CRC risk in heavy smokers (OR = 2.06, 95% CI: 1.32–3.20) and heavy drinkers (OR = 2.00, 95% CI: 1.28–3.09) for G allele carriers. This meta-analysis suggests that the MTR A2756G polymorphism is not associated with CRC/CRA susceptibility and that gene-environment interaction may exist.