2,2-Bis(ethoxycarbonyl)- and 2-(alkylaminocarbonyl)-2-cyano-substituted 3-(pivaloyloxy)propyl groups as biodegradable phosphate protections of oligonucleotides

Oligonucleotides bearing biodegradable phosphate protecting groups have been synthesized on a solid support. For this purpose, two dimeric building blocks, viz. 5'-O-(4,4'-dimethoxytrityl)-(R(P),S(P))-O(P)-[2,2-bis(ethoxycarbonyl)-3-(pivaloyloxy)propyl]-P-thiothymidylyl-(3',5')-thymidine 3'-[O-(2-cyanoethyl)-N,N-diisopropylphosphoramidite] (1) and 5'-O-(4,4'-dimethoxytrityl)-(R(P),S(P))-O(P)-[2-cyano-2-(2-phenylethylaminocarbonyl)-3-(pivaloyloxy)propyl]thymidylyl-(3',5')-thymidine 3'-(H-phosphonate) (2), were prepared. Phosphoramidite 1 was incorporated into an phosphorothioate oligothymidylate sequence on a base-labile hydroquinone-O,O'-diacetic acid linker (Q-linker) and on a photolabile 4-alkoxy-5-methoxy-2-nitrobenzyl carbonate linker (11). H-Phosphonate 2 was, in turn, incorporated into an oligothymidylate sequence only on the photolabile linker. Kinetics of the removal of the protecting groups by porcine liver esterase and subsequent retro aldol condensation/phosphate elimination were then studied. While the pro-oligonucleotide that contained only one phosphate protection gave the deprotected phosphorothioate oligonucleotide in a quantitative yield, the enzymatic step was markedly decelerated upon increasing the number of protection groups, and hence chain cleavage started to compete.     

Gastric antisecretory effect of 15(R)-15-menthyl PGE2, methyl ester and of 15(S)-15-methyl ester.

Gastric juice was collected from gastric pouches in dogs stimulated with histamine. 15(R)-15-methyl PGE2, methyl ester inhibited gastric secretion in dogs when given orally, but was almost inactive when given intravenously, whereas 15(S)-15-methyl PGE2 methyl ester was active by both routes. When given directly into the small intestine (intrajejunally), the 15(S) was active and the 15(R) was inactive. The 15(R), diluted in acid and administered intrajejunally, became active in inhibiting gastric secretion. When the 15(S) was diluted in acid and administered intrajejunally, it lost half of its activity. When each analog was incubated in an acid medium, each was epimerized to give approximately a 1:1 mixture of both 15(R) and 15(S). Incubation of the 15(R) in pH 3 buffer resulted in only a trace of formation of 15(S). These results explain why the 15(R) is active orally but not intrajejunally. When given orally, the low pH of gastric secretion epimerizes much of the 15(R) into the 15(S),which is active by any route. The degree of acidity of gastric contents may determine whether the 15(R) will exert an antisecretory effect.     

Tobacco carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone initiates and enhances pancreatitis responses

Clinical studies indicate that cigarette smoking increases the risk for developing acute pancreatitis. The nicotine metabolite 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is a major cigarette smoke toxin. We hypothesized that NNK could sensitize to pancreatitis and examined its effects in isolated rat pancreatic acini and in vivo. In acini, 100 nM NNK caused three- and fivefold activation of trypsinogen and chymotrypsinogen, respectively, above control. Furthermore, NNK pretreatment in acini enhanced zymogen activation in a cerulein pancreatitis model. The long-term effects of NNK were examined in vivo after intraperitoneal injection of NNK (100 mg/kg body wt) three times weekly for 2 wk. NNK alone caused zymogen activation (6-fold for trypsinogen and 2-fold for chymotrypsinogen vs. control), vacuolization, pyknotic nuclei, and edema. This NNK pretreatment followed by treatment with cerulein (40 μg/kg) for 1 h to induce early pancreatitis responses enhanced trypsinogen and chymotrypsinogen activation, as well as other parameters of pancreatitis, compared with cerulein alone. Potential targets of NNK include nicotinic acetylcholine receptors and β-adrenergic receptors; mRNA for both receptor types was detected in acinar cell preparations. Studies with pharmacological inhibitors of these receptors indicate that NNK can mediate acinar cell responses through an nonneuronal α(7)-nicotinic acetylcholine receptor (α(7)-nAChR). These studies suggest that prolonged exposure to this tobacco toxin can cause pancreatitis and sensitize to disease. Therapies targeting NNK-mediated pathways may prove useful in treatment of smoking-related pancreatitis.     

（S）-（-）-β-羟基苯丙酸乙酯的微生物法合成

采用酿酒酵母CGMCC No．2266菌体,不对称还原β-羰基苯丙酸乙酯制备光学纯（S）-（-）-β-羟基苯丙酸乙酯。结果表明：采用初始pH为8．0的液体发酵培养基培养的CGMCCNo．2266菌体经过50℃预热处理30min后用于生物转化获得的（S）-（-）-G-羟基苯丙酸乙酯对映体过剩值可以达到100％ee。确定了合成（S）-（-）-β-羟基苯丙酸乙酯的较佳转化条件为pH7．0,温度30℃,转化时间24h,底物浓度为3．63mmol／L,菌体用量为86g/L（干重／反应体积）。以10％葡萄糖为辅助底物,产率比不加辅助底物时提高了75．4％。在最佳转化条件下反应转化率及（S）-（-）-β-羟基苯丙酸乙酯对映体过剩值可分别达到98．4％和100％ee。     

Induction of TK mutations in human lymphoblastoid TK6 cells by the rat carcinogen 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone (MX)

3-Chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone (MX), a chlorine disinfection by-product in drinking water, is carcinogenic in rats and genotoxic in mammalian cells in vitro. In the current study, the mechanism of genotoxicity of MX in human lymphoblastoid TK6 cells was investigated by use of the Comet assay, the micronucleus test, and the thymidine kinase (TK) gene-mutation assay. MX induced a concentration-dependent increase in micronuclei and TK mutations. The lowest effective concentrations in the MN test and the TK gene-mutation assay were 37.5μM and 25μM, respectively. In the Comet assay, a slight although not statistically significant increase was observed in the level of DNA damage induced by MX in the concentration range of 25-62.5μM. Molecular analysis of the TK mutants revealed that MX induced primarily point mutations or other small intragenic mutations (61%), while most of the remaining TK mutants (32%) were large deletions at the TK locus, leading to the hemizygous-type loss-of-heterozygosity (LOH) mutations. These findings show that aside from inducing point mutations, MX also generates LOH at the TK locus in human cells and may thus cause the inactivation of tumour-suppressor genes by LOH.     

Lipases and whole cell biotransformations of 2-hydroxy-2-(ethoxyphenylphosphinyl)acetic acid and its ester

A wide spectrum of commercially available lipases and microbial whole cells catalysts were tested for biotransformations of 2-hydroxy-2-(ethoxyphenylphosphinyl)acetic acid 1 and its butyryl ester. The best results were achieved for biocatalytic hydrolysis of ester: 2-butyryloxy-2-(ethoxyphenylphosphinyl)acetic acid 2 performed by lipase from Candida cylindracea, what gave optically active products with 85% enantiomeric excess, 50% conversion degree and enantioselectivity 32.9 for one pair of enantiomers. Also enzymatic systems of Penicillium minioluteum and Fusarium oxysporum were able to hydrolyze tested compound with high enantiomeric excess (68–93% ee), enantioselectivity (44 for one pair of enantiomers) and conversion degree about 50–55%. Enzymatic acylation of hydroxyphosphinate was successful in case when porcine pancreas lipase was used. After 4 days of biotransformation the conversion reaches 45% but the enantiomeric enrichment of the isomers mixture do not exceed 43%. Obtained chiral compounds are valuable derivatizing agents for spectroscopic (NMR) evaluation of enantiomeric excess for particular compounds (e.g. amino acids).     

Significant enhancement of lipase enantioselectivity toward (S)- Ketoprofen ester at pH 2

The optimal activity of a Candida rugosa lipase (Lipase OF) for hydrolysis of 2-chloroethyl ester of Ketoprofen [2-(3- benzoyphenyl) propionic acid] was at pH 4.0, while the best enantioselectivity (E) was at pH 2.2 where the enzyme was still 60% active and stable.     

Gene expression profiles in HPV-immortalized human cervical cells treated with the nicotine-derived carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone

Human papillomavirus (HPV) infection is an established etiological factor for cervical cancer. Epidemiological studies suggest that smoking in combination with HPV infection plays a significant role in the etiology of this disease. We have previously shown that the tobacco carcinogen, 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK), is present in human cervical mucus. Here, we hypothesized that treatment of HPV-16-immortalized human ectocervical cells (Ecto1/E6E7) with NNK would alter the expression of genes involved in cellular transformation. Ecto1/E6E7 cells were treated with water (vehicle control) alone or with 1 μM, 10 μM, and 100 μM of NNK in water for 12 weeks. The colony-forming efficiency increased following NNK treatment; the maximum effect was observed after 12 weeks with 100 μM NNK. Microarray analysis revealed that, independent of the dose of NNK, expression of 30 genes was significantly altered; 22 of these genes showed a dose-response pattern. Genes identified are categorized as immune response (LTB4R), RNA surveillance pathway (SMG1), metabolism (ALDH7A1), genes frequently expressed in later stages of neoplastic development (MT1F), DNA binding (HIST3H3 and CHD1L), and protein biosynthesis (UBA52). Selected genes were confirmed by qRT-PCR. Western blot analysis indicates that phosphorylation of histone 3 at serine 10, a marker of cellular transformation, was up-regulated in cells treated with NNK. This is the first study showing that NNK can alter gene expression that may, in part, account for transformation of HPV-immortalized human cervical cells. The results support previous epidemiological observations that, in addition to HPV, tobacco smoking also plays an important role in the development of cervical cancer.     

2-(4-Carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide potentiates nitrosation of a heterocyclic amine carcinogen by nitric oxide

Although nitrosation plays an important role in initiation of carcinogenesis, the reactive nitrogen oxygen species (RNOS) mediating this reaction by multiple pathways have not been determined. The heterocyclic amine carcinogen 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) was used as a target to investigate RNOS and pathways for potentiation of nitric oxide (NO)-mediated nitrosation. 2-(4-Carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (CPTIO) oxidizes NO to NO(2)(.) and was used as a tool to investigate NO(2)(.) potentiation of nitrosation. The IQ nitrosation product, 2-nitrosoamino-3-methylimidazo[4,5-f]quinoline ((14)C-N-NO-IQ), was monitored by HPLC. Autoxidation of NO, generated by spermine NONOate (2.4 microM NO/min) for 7.5 min, did not convert 10 microM (14)C-IQ to N-NO-IQ. However, the presence of 15 muM CPTIO resulted in 3 microM N-NO-IQ formation. Potentiation by CPTIO occurred at low and high fluxes of NO, 0.075 to 1.2 microM/min, and over a range of IQ to CPTIO ratios of 0.5 to 10. A significant portion of N-NO-IQ formation was insensitive to azide (10 mM) inhibition, suggesting oxidative nitrosylation. NADH (0.02 mM) did not alter nitrosation by autoxidation, but effectively inhibited potentiation by CPTIO. Ascorbic acid (0.2 mM) and 5,5-dimethyl-1-pyrroline N-oxide (30 mM) inhibited nitrosation with or without CPTIO, while superoxide dismutase was not inhibitory. The RNOS produced by CPTIO had a 27-fold greater affinity for IQ than those produced by autoxidation. Results are consistent with NO(2)(.) or a RNOS like NO(2)(.) potentiating IQ oxidative nitrosylation. Nitrosation occurring at both low and high fluxes of NO can contribute to carcinogenesis.     

Interaction of 10-(octyloxy) decyl-2-(trimethylammonium) ethyl phosphate with mimetic membranes and cytotoxic effect on leukemic cells

10-(Octyloxy) decyl-2-(trimethylammonium) ethyl phosphate (ODPC) is an alkylphospholipid that can interact with cell membranes because of its amphiphilic character. We describe here the interaction of ODPC with liposomes and its toxicity to leukemic cells with an ED-50 of 5.4, 5.6 and 2.9 μM for 72 h of treatment for inhibition of proliferation of NB4, U937 and K562 cell lines, respectively, and lack of toxicity to normal hematopoietic progenitor cells at concentrations up to 25 μM. The ED-50 for the non-malignant HEK-293 and primary human umbilical vein endothelial cells (HUVEC) was 63.4 and 60.7 μM, respectively. The critical micellar concentration (CMC) of ODPC was 200 μM. Dynamic light scattering indicated that dipalmitoylphosphatidylcholine (DPPC) liposome size was affected only above the CMC of ODPC. Differential calorimetric scanning (DCS) of liposomes indicated a critical transition temperature (T_c) of 41.5 °C and an enthalpy (?H) variation of 7.3 kcal mol⁻¹. The presence of 25 μM ODPC decreased T_c and ?H to 39.3 °C and 4.7 kcal mol⁻¹, respectively. ODPC at 250 μM destabilized the liposomes (36.3 °C, 0.46 kcal mol⁻¹). Kinetics of 5(6)-carboxyfluorescein (CF) leakage from different liposome systems indicated that the rate and extent of CF release depended on liposome composition and ODPC concentration and that above the CMC it was instantaneous. Overall, the data indicate that ODPC acts on in vitro membrane systems and leukemia cell lines at concentrations below its CMC, suggesting that it does not act as a detergent and that this effect is dependent on membrane composition.     

Reactive oxygen species regulate the levels of dual oxidase (Duox1-2) in human neuroblastoma cells

Dual Oxidases (DUOX) 1 and 2 are efficiently expressed in thyroid, gut, lung and immune system. The function and the regulation of these enzymes in mammals are still largely unknown. We report here that DUOX 1 and 2 are expressed in human neuroblastoma SK-N-BE cells as well as in a human oligodendrocyte cell line (MO3-13) and in rat brain and they are induced by platelet derived growth factor (PDGF). The levels of DUOX 1 and 2 proteins and mRNAs are induced by reactive oxygen species (ROS) produced by the membrane NADPH oxidase. As to the mechanism, we find that PDGF stimulates membrane NADPH oxidase to produce ROS, which stabilize DUOX1 and 2 mRNAs and increases the levels of the proteins. Silencing of gp91(phox) (NOX2), or of the other membrane subunit of NADPH oxidase, p22(phox), blocks PDGF induction of DUOX1 and 2. These data unravel a novel mechanism of regulation of DUOX enzymes by ROS and identify a circuitry linking NADPH oxidase activity to DUOX1 and 2 levels in neuroblastoma cells.     

Conformational changes of poly(dG-dC) . poly(dG-dC) modified by the carcinogen N-acetoxy-N-acetyl-2-aminofluorene.

Poly (dG-dC) . poly(dG-dC) was modified by the reaction with N-acetoxy-N-acetyl-2-aminofluorene. The conformations of poly(dG-dC) . poly(dG-dC) and of poly d(G-C)AAF were studied by circular dichroism under various experimental conditions. In 95% ethanol, the two polynucleotides adopt the A-form. In 3.9 M LiCl, the transition B-form-C-form is observed with poly(dG-dC) . poly (dG-dC) but not with poly d(G-C)AAF. In 1 mM phosphate buffer, poly d(G-C)AAF behaves as a mixture of B- and Z-form, the relative percentages depending upon the amounts of modified bases. The percentage of Z-form is decreased by addition of EDTA and is increased by addition of Mg++. Spermine favors the Z-form in modified and unmodified polynucleotides. No defect in the double helix of poly d(G-C)AAF is detected by SI endonuclease.     

Design and synthesis of novel bis(L-amino acid) ester prodrugs of 9-[2-(phosphonomethoxy)ethyl]adenine (PMEA) with improved anti-HBV activity

A series of novel bis(L-amino acid) ester prodrugs of 9-[2-(phosphonomethoxy)ethyl] adenine (PMEA) was synthesized and their anti-HBV activity was evaluated in HepG 2 2.2.15 cells. Compounds 11, 12, 21, 22, 26, and 27 demonstrated more potent anti-HBV activity and higher selective index (SI) than adefovir dipivoxil, which was used as a positive control. Compound 11, which was found to be the most potent one, was five times more potent than adefovir dipivoxil with EC50 value of 0.095 microM and CC50 value of 6636 microM. The SI value (>69,000) of compound 11 was 60 times and 24 times higher than those of adefovir dipivoxil and lamivudine, respectively. In vitro stability studies showed that compound 11 was relatively more stable than adefovir dipivoxil with t1/2 of 270 min. These findings suggested that compound 11 could be considered as a promising candidate for further in vivo studies.     

Phosphonomethyl analogues of phosphate ester glycolytic intermediates

Analogues of dihydroxyacetone phosphate and of 3-phosphoglycerate were made in which the phosphate group, –O–PO₃H₂, is replaced by the phosphonomethyl group, –CH₂–PO₃H₂. The analogue of dihydroxyacetone phosphate is a substrate for aldolase and glycerol 1-phosphate dehydrogenase (Stribling, 1974), but not for triose phosphate isomerase. The analogue of 3-phosphoglycerate oxidizes NADH under the combined action of 3-phosphoglycerate kinase and glyceraldehyde 3-phosphate dehydrogenase if ATP is added. Thus four out of the five glycolytic enzymes tested handle the phosphonomethyl compounds like the natural phosphates.