Synthesis of 7β-hydroxy-epiandrosterone

The synthesis of 7β-hydroxy-epiandrosterone (6) possessing strong anti-inflammatory properties was achieved starting from 3β-acetoxy-17,17-(ethylenedioxy)-5-androsten (1). This approach involved as a main step an allylic oxidation of the C-7 followed by two reduction reactions of the double bond and of the carbonyl group. This stereoselective synthesis in 5 steps gave 7β-hydroxy-epiandrosterone in 63% overall yield.     

The 7th Editoral Board of Journal of Genetics and Genomics

Name Field of Research Interest Contact Address E-mail Address Advisor Shouyi Chen Plant molecular genetics Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China sychen@genetics.ac.cn Zhu Chen Medical genetics , Genomics Institute of Blood, Ruijin Hospital, Shanghai 200025 zchen@stn.sh.cn Jiayang Li Plant molecular genetics Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China jyli@geneti…     

Resonance assignment of nsp7α from arterivirus

The ¹H, ¹⁵N and ¹³C resonance assignment of nsp7α, a non-structural protein of unknown function from the equine arteritis virus, is reported.     

Structural characterization of human cholesterol 7α-hydroxylase

Hepatic conversion to bile acids is a major elimination route for cholesterol in mammals. CYP7A1 catalyzes the first and rate-limiting step in classic bile acid biosynthesis, converting cholesterol to 7α-hydroxycholesterol. To identify the structural determinants that govern the stereospecific hydroxylation of cholesterol, we solved the crystal structure of CYP7A1 in the ligand-free state. The structure-based mutation T104L in the B′ helix, corresponding to the nonpolar residue of CYP7B1, was used to obtain crystals of complexes with cholest-4-en-3-one and with cholesterol oxidation product 7-ketocholesterol (7KCh). The structures reveal a motif of residues that promote cholest-4-en-3-one binding parallel to the heme, thus positioning the C7 atom for hydroxylation. Additional regions of the binding cavity (most distant from the access channel) are involved to accommodate the elongated conformation of the aliphatic side chain. Structural complex with 7KCh shows an active site rigidity and provides an explanation for its inhibitory effect. Based on our previously published data, we proposed a model of cholesterol abstraction from the membrane by CYP7A1 for metabolism. CYP7A1 structural data provide a molecular basis for understanding of the diversity of 7α-hydroxylases, on the one hand, and cholesterol-metabolizing enzymes adapted for their specific activity, on the other hand.     

Discovery of novel α7 nicotinic receptor antagonists

Two distinct families of small molecules were discovered as novel α7 nicotinic acetylcholine receptor (nAChR) antagonists by pharmacophore-based virtual screening. These novel antagonists exhibited selectivity for the neuronal α7 subtype over other nAChRs and good brain penetration. Neuroprotection was demonstrated by representative compounds 7i and 8 in a mouse seizure-like behavior model induced by the nerve agent diisopropylfluorophosphate (DFP). These novel nAChR antagonists have potential use as antidote for organophosphorus nerve agent intoxication.     

Theoretical study of hydrogenation of the doubly aromatic B 7 − cluster

We have studied the influence of hydrogenation on the relative stability of the low-lying isomers of the anionic B₇⁻ cluster, computationally. It is known that the pure-boron B₇⁻ cluster has a doubly (σ- and π-) aromatic C_6v (³A₁) quasi-planar wheel-type triplet global minimum (structure 1), a low-lying σ-aromatic and π-antiaromatic quasi-planar singlet C_2v (¹A₁) isomer 2 (0.7 kcal mol⁻¹ above the global minimum), and a planar doubly (σ- and π-) antiaromatic C_2v (¹A₁) isomer 3 (7.8 kcal mol⁻¹ above the global minimum). However, upon hydrogenation, an inversion in the stability of the species occurs. The planar B₇H₂⁻ (C_2v, ¹A₁) isomer 4, originated from the addition of two hydrogen atoms to the doubly antiaromatic B₇⁻ isomer 3, becomes the global minimum structure. The second most stable B₇H₂⁻ isomer 5, originated from the quasi-planar triplet wheel isomer 1 of B₇⁻, was found to be 27 kcal mol⁻¹ higher in energy. The inversion in stability occurs due to the loss of the doubly aromatic character in the wheel-type global minimum isomer (C_6v, ³A₁) of B₇⁻ upon H₂−addition. In contrast, the planar isomer of B₇⁻ (C_2v, ¹A₁) gains aromatic character upon addition of two hydrogen atoms, which makes it more stable. Figure The B₇H₂-global minimum structure and its σ-aromatic and π-antiaromatic MOs Dedicated to Professor Dr. Paul von Ragué Schleyer on the occasion of his 75th birthday.     

Roles of TLR7 in Activation of NF-κB Signaling of Keratinocytes by Imiquimod

Imiquimod is known to exert its effects through Toll-like receptor 7 (TLR7) and/or TLR8, resulting in expression of proinflammatory cytokines and chemokines. Keratinocytes have not been reported to constitutively express TLR7 and TLR8, and the action of imiquimod is thought to be mediated by the adenine receptor, not TLR7 or TLR8. In this study, we revealed the expression of TLR7 in keratinocytes after calcium-induced differentiation. After addition of calcium to cultured keratinocytes, the immunological responses induced by imiquimod, such as activation of NF-κB and induction of TNF-α and IL-8, were more rapid and stronger. In addition, imiquimod induced the expression TLR7, and acted synergistically with calcium to induce proinflammatory cytokines. We confirmed that the responses induced by imiquimod were significantly inhibited by microRNAs suppressing TLR7 expression. These results suggest that TLR7 expressed in keratinocytes play key roles in the activation of NF-κB signaling by imiquimod, and that their modulation in keratinocytes could provide therapeutic potential for many inflammatory skin diseases.     

Bacteriocins of Lactobacillus gasseri K7 – Monitoring of gassericin K7 A and B genes’ expression and isolation of an active component

The genome of Lactobacillus gasseri K7, isolated from baby's faeces, contains gene regions encoding two-component bacteriocins named gassericin K7 A (GenBank EF392861) and gassericin K7 B (GenBank AY307382). The strain has been known to exhibit bacteriocin activity in vitro, however, no data exist on the expression of particular genes of bacteriocins’ operons or on the activity of individual components of this bacteriocin complex, which has not been isolated so far. The objectives of this study were to examine bacteriocin genes’ expression during the growth of L. gasseri K7 and to isolate individual components in order to reveal the contribution of individual peptides to the overall bacteriocin activity. All eight target genes were expressed during exponential phase of growth in MRS broth. Mass spectrometry analysis revealed that the amino acid sequence of isolated peptide matched the deduced amino acid sequence of putative active peptide of gassericin K7 B (Gas K7 B_AcP) and GatX, a complementary peptide of gassericin T, previously supposed to have no antimicrobial activity. The isolated peptide showed a broad spectrum of antimicrobial activity. Furthermore, the isolation protocol developed in this study will enable to obtain a considerable amount of purified bacteriocins needed for further investigation of their functionality.     

Synthesis and stereochemistry of 7β- and 7α-amino-, acetamido-, hemisuccinamido- and terephthalamido derivatives of testosterone

The reduction of 3-ethylenedioxy-7-oximino-5-androsten-17β-yl acetate and of its 17β-tetrahydropyranyl ether analog with sodium in ethanol, followed by thin-layer chromatography, allowed the isolation of the corresponding 17β-hydroxy- and 17β-tetrahydropyranyioxy-5-en-7β- and 7α-amines which were also characte-rized as 7-acetamides. The acylation of the two epimeric 17β-hydroxy-5-en-7-amines with succinic anhydride followed by selective saponification of the 17β-hemisuccinate group and diazomethane esterification, gave the corresponding 17β-hydroxy-5-en-7β- and 7α-hemisuccinamido methyl esters characterized also as 17β-acetates. On the other hand, the acylation of the two 17β-tetrahydropyranyl-oxy-5-en-7-amines with the acid chloride of terephthalic acid monomethyi ester led to the more rigid 7β- and 7α-terephthalamido methyl ester side-chains. The acidolysis of the 3-ethyleneketal protecting group of the preceding 5-en-7-N-acyl derivatives regenerated the 4-en-3-oxo function while the 17β-tetrahydropyranyl ether group was cleaved simultaneously into the 17β-alcohol. The four desired 7β- and 7α-hemisuccinamido- and terephthalamido carboxylic side-chain derivatives of 17β-hydroxy-4-androsten-3-one (testosterone) were finally obtained by saponification of the corresponding methyl esters.     

Glucocorticoids inhibit interconversion of 7-hydroxy and 7-oxo metabolites of dehydroepiandrosterone: a role for 11beta-hydroxysteroid dehydrogenases?

The cytochrome p450-dependent formation and subsequent interconversion of dehydroepiandrosterone (DHEA) metabolites 7 alpha-hydroxy-DHEA (7 alpha-OH-DHEA), 7 beta-hydroxy-DHEA (7 beta-OH-DHEA), and 7-oxo-DHEA was observed in human, pig, and rat liver microsomal fractions. Rat liver mitochondria and nuclei also converted DHEA to 7 alpha-OH-DHEA and 7-oxo-DHEA, but at a lower rate. With NADP(+), and less so with NAD(+), rat, pig, and human liver microsomes and rat liver mitochondria and nuclei converted 7 alpha-OH-DHEA to 7-oxo-DHEA. This reaction was inhibited by corticosterone and the 11 beta-hydroxysteroid dehydrogenase (11 betaHSD) inhibitor carbenoxolone (CBX). The conversion of 7 alpha-OH-DHEA to 7-oxo-DHEA by rat kidney occurred at higher rates with NAD(+) than with NADP(+) and was inhibited by corticosterone. With NADPH, 7-oxo-DHEA was converted to unidentified hydroxylated metabolites and low levels of 7 alpha-OH-DHEA by rat liver microsomes. In contrast, pig liver microsomal fractions reduced 7-oxo-DHEA to nearly equal amounts of 7 alpha- and 7 beta-OH-DHEA, while human fractions produced mainly 7 beta-OH-DHEA. Dehydrocorticosterone inhibited the reduction to both isomers by pig liver microsomes, but only to 7 alpha-OH-DHEA by human microsomes; CBX inhibited both reactions. Rat kidney did not reduce 7-oxo-DHEA with either NADPH or NADH. These results demonstrate that DHEA is first converted in liver to 7 alpha-OH-DHEA, which is subsequently oxidized to 7-oxo-DHEA in both liver and kidney. In liver, interconversion of 7-oxo-DHEA and 7-OH-DHEA isomers is largely catalyzed by 11 betaHSD1, while in kidney 11 betaHSD2 (NAD(+)-dependent) and 11 betaHSD3 (NADP(+)-dependent) likely catalyze the unidirectional oxidation of 7 alpha-hydroxy-DHEA to 7-oxo-DHEA. Distinct species-specific routes of metabolism of DHEA and the interconversion of its metabolites obviate extrapolation of animal studies to humans.     

The synthesis of β-galactosidase inEscherichia coli in the presence of 7-azatryptophan

The presence of 7-azatryptophan an analogue of tryptophan in the growth medium ofEscherichia coli resulted in a considerable inhibition of the synthesis of active β-galactosidase. No synthesis of an immunologically cross-reacting protein was detected. In addition, the replacement of tryptophan by the analogue rendered the enzyme more susceptible to heat, urea and trypsin as compared with the normal enzyme. The inhibition of growth and enzyme synthesis by 7-azatryptophan was reversed by tryptophan. The analogue did not exhibit any effect on the synthesis and activity of β-galactoside permease.     

The Role of Dosage of the Region 7d1–7d5-6 of the X Chromosome in the Production of Homeotic Transformations in DROSOPHILA MELANOGASTER

A high frequency of homeotic transformations appears in Df(3)red/+ progeny of Df(1)sn^C128 /+ females. Generally, the metathoracic appendages are partially transformed into mesothoracic ones. Df(1)sn^C128 includes a small region of the X chromosome: 7D1 to 7D5-6. Hypodosage of this region is mainly effective at the level of the maternal genotype, and the effect is probably due to hypodosage of the wild-type allele of the gene fs(1)h. Df(3)red has an effect that is mainly, if not exclusively, zygotic, probably due to hypodosage of the wild-type allele of Rg-bx. The frequencies of transformed flies resulting from the interaction between Df(1)sn^C128 and Df(3)red are not very sensitive to external conditions and genetic background. Studies of the interactions between Df(1)sn^C128 and other mutations or deficiencies of chromosome 3 [Rg-pbx, bx, pbx, Ubx¹, Ubx¹³⁰, Ubx⁸⁰, Df(3)P9] reveal an analogy between the hypodosage effect of region 7D1–7D5-6 and the effects of ether treatment of blastoderm stage eggs. The role of the gene fs(1)h in the process of segment determination is discussed in the light of these results.     

Discovery of a novel series of quinolone α7 nicotinic acetylcholine receptor agonists

High throughput screening led to the identification of a novel series of quinolone α7 nicotinic acetylcholine receptor (nAChR) agonists. Optimization of an HTS hit (1) led to 4-phenyl-1-(quinuclidin-3-ylmethyl)quinolin-2(1H)-one, which was found to be potent and selective. Poor brain penetrance in this series was attributed to transporter-mediated efflux, which was in turn due to high pK_a. A novel 4-fluoroquinuclidine significantly lowered the pK_a of the quinuclidine moiety, reducing efflux as measured by a Caco-2 assay.     

7 α-Dehydroxylation of cholic acid by Clostridium bifermentans

Summary Statistically designed experiments were used to identify variables important in the 7-dehydroxylation of cholic acid to deoxycholic acid by strains of Clostridium bifermentans in pH-controlled anaerobic fermentation. Deoxycholic acid yields were highest in the presence of 10% CO₂ and near pH 7 but were largely unaffected by the strain of organism used, time of bile acid substrate addition, mode of gas delivery, presence of thioglycollate, or the use of OH^– ion or HCO ₃ ^– ion for pH control. However, dehydroxylation was enhanced, and the redox potential remained relatively high, when temperatures were low, inoculum size small, and growth inhibitors were present.Deoxycholic acid yields of up to 40% were observed but the formation of 7-ketodeoxycholic acid side product could not be entirely prevented.