Synthesis and Cytotoxicity Evaluation of Panaxadiol Derivatives

In this study, 13 panaxadiol (PD) derivatives were synthesized via reactions with aromatic compounds and amino acids. Following this, the cytotoxicity of these compounds was evaluated against four cancer cell lines (human hepatoma cells HepG‐2, human lung cancer cells A549, human breast cancer cells MCF‐7, and human colon cancer cells HCT‐116) and one normal cell lines (human gastric epithelial cells GES‐1). The results showed that the panaxadiol derivatives 3 , 12 , and 13 showed significant inhibition of cellular proliferation against cancer cells compared with PD, and the panaxadiol derivative 12 had the lowest IC₅₀ value for A549 (IC₅₀=18.91±1.03 μm ). For MCF‐7 cells, most compounds exhibited good inhibition of cellular proliferation, and the panaxadiol derivative 13 showed the strongest inhibitory effect (IC₅₀=8.62±0.23 μm ), which significantly increased the cytotoxicity of PD and was stronger than the positive control (mitomycin). For normal cells, all compounds exhibited low or no toxic effects; thus, these derivatives can be used to develop novel antiproliferative agents.     

Functional relevance of the cannabinoid receptor 2 — heme oxygenase pathway: A novel target for the attenuation of portal hypertension

Aims

In liver cirrhosis, inflammation triggers portal hypertension. Kupffer cells (KC) produce vasoconstrictors upon activation by bacterial constituents. Here, we hypothesize that the anti-inflammatory action of the cannabinoid receptor 2 (CB₂) agonists JWH-133 and GP 1a attenuate portal hypertension.

Main methods

In vivo measurements of portal pressures and non-recirculating liver perfusions were performed in rats 4 weeks after bile duct ligation (BDL). Zymosan (150 μg/ml, isolated liver perfusion) or LPS (4 mg/kg b.w., in vivo) was infused to activate the KC in the absence or presence of JWH-133 (10 mg/kg b.w.), GP 1a (2.5 mg/kg b.w.) or ZnPP IX (1 μM). Isolated KC were treated with Zymosan (0.5 mg/ml) in addition to JWH-133 (5 μM). The thromboxane (TX) B₂ levels in the perfusate and KC media were determined by ELISA. Heme oxygenase-1 (HO-1) and CB₂ were analyzed by Western blot or confocal microscopy.

Key findings

JWH-133 or GP 1a pre-treatment attenuated portal pressures following KC activation in all experimental settings. In parallel, HO-1 expression increased with JWH-133 pre-treatment. However, the inhibition of HO-1 enhanced portal hypertension, indicating the functional role of this novel pathway. In isolated KC, the expression of CB₂ and HO-1 increased with Zymosan, LPS and JWH-133 treatment while TXB₂ production following KC activation was attenuated by JWH-133 pre-treatment.

Significance

JWH-133 or GP 1a treatment attenuates portal hypertension. HO-1 induction by JWH-133 plays a functional role. Therefore, the administration of JWH-133 or GP 1a represents a promising new treatment option for portal hypertension triggered by microbiological products.     

Caseoperoxidase,mixed β-casein–SDS–hemin–imidazole complex: a nano artificial enzyme

A novel peroxidase-like artificial enzyme, named “caseoperoxidase”, was biomimetically designed using a nano artificial amino acid apo-protein hydrophobic pocket. This four-component nano artificial enzyme containing heme–imidazole–β-casein–SDS exhibited high activity growth and k_cat performance toward the native horseradish peroxidase demonstrated by the steady state kinetics using UV–vis spectrophotometry. The hydrophobicity and secondary structure of the caseoperoxidase were studied by ANS fluorescence and circular dichroism spectroscopy. Camel β-casein (Cβ-casein) was selected as an appropriate apo-protein for the heme active site because of its innate flexibility and exalted hydrophobicity. This selection was confirmed by homology modeling method. Heme docking into the newly obtained Cβ-casein structure indicated one heme was mainly incorporated with Cβ-casein. The presence of a main electrostatic site for the active site in the Cβ-casein was also confirmed by experimental methods through Wyman binding potential and isothermal titration calorimetry. The existence of Cβ-casein protein in this biocatalyst lowered the suicide inactivation and provided a suitable protective role for the heme active-site. Additional experiments confirmed the retention of caseoperoxidase structure and function as an artificial enzyme.     

Aerobic respiration: proof of concept for the oxygen-centric murburn perspective

Abstract

The inner mitochondrial membrane protein complexes (I–V) and prokaryotic respiratory machinery are examined for a deeper understanding of their structure–function correlations and dynamics. In silico analysis of the structure of complexes I–IV, docking studies and erstwhile literature confirm that they carry sites which are in close proximity to DROS (diffusible reactive oxygen species) generating redox centers. These findings provide supportive evidence for the newly proposed oxygen-centric chemical-coupling mechanism (murburn concept), wherein DROS catalyzes the esterification of inorganic phosphate to ADP. Further, in a reductionist system, we demonstrate that a DROS (like superoxide) can effectively esterify inorganic phosphate to ADP. The impact of these findings and the interactive dynamics of classical inhibitors (rotenone and cyanide), uncouplers (dinitrophenol and uncoupling protein) and other toxins (atractyloside and oligomycin) are briefly discussed.

Highlights

? Earlier perception: Complexes (I–IV) pump protons and Complex V make ATP (aided by protons)

? Herein: Respiratory molecular machinery is probed for new structure–function correlations

? Analyses: Quantitative arguments discount proton-centric ATP synthesis in mitochondria and bacteria

? In silico data: ADP-binding sites and O₂/ diffusible reactive oxygen species (DROS)-accessible channels are unveiled in respiratory proteins

? In vitro data: Using luminometry, ATP synthesis is demonstrated from ADP, Pi and superoxide

? Inference: Findings agree with decentralized ADP–Pi activation via oxygen-centric murburn scheme

Communicated by Ramaswamy H. Sarma     

A circular dichroism study of modified nucleosides

The conformation of 5-methoxycarbonylmethyluridine and 5-methoxycarbonylmethyl-2-thiouridine was studied by means of circular dichroism in various solvents. In order to calculate the accurate spectral parameters of the Cotton effects, the circular dichroism spectra were resolved into component Gaussian functions which simultaneously fit the adsorption spectra. On the basis of circular dichroism and proton magnetic resonance spectra, these nucleosides were found to occur in the β-configuration with the ³E-gg-anti conformation preferred. Due to the fact that the long-wavelength Cotton effect of mcm⁵s²U is not masked by the Cotton effects of the other nucleic acid monomers, the molecular parameters of this band may be useful for the conformational analysis of tRNA segments.     

p8 Upregulation sensitizes astrocytes to oxidative stress

Here we studied the mechanism of cell sensitization to oxidative stress by analyzing the gene expression profile of serum-deprived astrocytes. Exposure to serum-free medium (i) sensitized astrocytes to oxidative stress, (ii) reduced the expression of several genes involved in protection against oxidative stress, including heme oxygenase 1, and (iii) changed the expression of several genes involved in the control of cell survival, including the stress-regulated protein p8. Our results support that serum deprivation sensitizes astrocytes to oxidative stress via a p38 mitogen-activated protein kinase-dependent p8 upregulation that leads in turn to decreased heme oxygenase 1 expression.     

Effect of the mobile phase on the retention behavior of optical isomers of the mandelic acid derivative methyl 2-phenyl-2-(tetrahydropyranyloxy) acetate by chiral HPLC

Conditions for separation of enantiomers of a mandelic acid derivative, methyl 2-phenyl-2-(tetrahydropyranyloxy) acetate (the analyte) were studied. Because of the presence of two chiral carbons, the analyte consists of four stereoisomers stable at ambient temperature. Chiral HPLC of the analyte resulted in four peaks, using an (S,S)-Whelk-O1 column with the mobile phase consisting of hexane and the t-butyl methyl ether (TBME). It was found that TBME dramatically changed the retention of the isomers, though it produced the best enantioseparation on (S,S)-Whelk-O1. The amount of TBME in the mobile phase influenced the degree of retention shift; 5% (v/v) TBME gave a bigger shift than 8% (v/v) and 10% (v/v). 2-Propanol did not produce the same results. The chiral separation was also tried on cellulose tris (3, 5-dimethyl phenylcarbamate) (CDMPC), but only three peaks were seen, indicating some but not full enantiomer resolution.     

Differential utilization by Haemophilus influenzae of haemoglobin complexed to the three human haptoglobin phenotypes

Haemophilus influenzae has an absolute requirement for heme, which may be supplied as the haemoglobin-haptoglobin complex. Utilization of haemoglobin-haptoglobin by H. influenzae is mediated by a family of proteins termed the haemoglobin-haptoglobin binding proteins (Hgps), of which a given strain may contain up to four genes. Human haptoglobin occurs in three phenotypes (1-1, 2-1 and 2-2). Using mutant derivatives of an H. influenzae type b strain that expressed single Hgps we analysed the ability of each Hgp to utilize haemoglobin complexed to the various haptoglobin phenotypes. A strain expressing only HgpB was able to utilize haemoglobin bound to all haptoglobin phenotypes significantly better than strains expressing either HgpA or HgpC.