Differential effect of Shenmai injection, a herbal preparation, on the cytochrome P450 3A-mediated 1′-hydroxylation and 4-hydroxylation of midazolam

Shenmai injection (SMI), one of the most popular herbal preparations, is widely used for the treatment of coronary atherosclerotic cardiopathy and viral myocarditis. The purpose of this study was to investigate the effect of Shenmai injection (SMI) on the CYP3A-mediated metabolism of midazolam (MDZ). The present study demonstrated that SMI could significantly inhibit MDZ 4-hydroxylation but activate its 1′-hydroxylation in human liver microsomes (HLMs), rat liver microsomes (RLM) and recombinant human CYP3A4 and CYP3A5. The opposing effect of SMI was characterized by the kinetic change of increasing V_max/K_m for MDZ 1′-hydroxylation and decreasing V_max/K_m for MDZ 4-hydroxylation in HLM and RLM. The presence ofSMI enhanced the inhibition of ketoconazole on MDZ 4-hydroxylation but weakened or reversed its inhibition on MDZ 1′-hydroxylation in HLM. After single or multiple pretreatment with SMI, the ratios of AUC_{4-OH MDZ}/AUC_MDZ in rats were significantly decreased, while the ratios of AUC_{1′-OH MDZ}/AUC_MDZ were increased. Among the major components in SMI, total ginsenoside (TG), ophiopogon total saponins (OTS), ophiopogon total flavone (OTF), ginsenoside Rd, ophiopogonin D and ophiopogonone A exhibited significant inhibition on both 4-hydroxylation and 1′-hydroxylation of MDZ in HLM and RLM, while no activation on MDZ metabolism was observed in the presence of these major constituents alone or together. To further explore the responsible components, 3 mL of SMI was loaded on a solid phase extraction (SPE) C₁₈ cartridge and then separated by different concentrations of methanol. The fractions eluted with 60% and 90% methanol both showed significant activation on MDZ 1′-hydroxylation in HLM, but the fraction eluted with 30% methanol had no such effect. The results indicated that the activation of SMI on MDZ 1′-hydroxylation might be mainly resulted from the lipid-soluble components in SMI.     

Sequence analysis of rice rubi3 promoter gene expression cassettes for improved transgene expression

In a construct containing a GUS reporter gene driven by the 5′ regulatory elements from rubi3, expression was enhanced 4-fold when a 20-nucleotide (nt) GUS 5′ untranslated sequence was replaced with 9 nt sequences derived from rubi3′s second exon. The roles of the sequences immediately upstream from the GUS translation initiation codon, and their significance in gene expression, were investigated. Sequence analysis suggests that complementarity between sequences immediately 5′ of a translation initiation codon and the rice 17S rRNA may be responsible for the reduction in protein levels from constructs containing the GUS leader sequence. The results demonstrate an affect sequences immediately upstream from transgenic coding sequences have on expression, and when using the rubi3 5′ regulatory sequence in particular.     

PAF-antagonistic bicyclo[3.2.1]octanoid neolignans from leaves of Ocotea macrophylla Kunth. (Lauraceae)

Di-nor-benzofuran neolignan aldehydes, Δ⁷-3,4-methylenedioxy-3′-methoxy-8′,9′-dinor-4′,7-epoxy-8,3′-neolignan-7′-aldehyde (ocophyllal A) 1, Δ⁷-3,4,5,3′-tetramethoxy-8′,9′-dinor-4′,7-epoxy-8,3′-neolignan-7′-aldehyde (ocophyllal B) 2, and macrophyllin-type bicyclo[3.2.1]octanoid neolignans (7R, 8R, 3′S, 4′S, 5′R)-Δ⁸′-4′-hydroxy-5′-methoxy-3,4-methylenedioxy-2′,3′,4′,5′-tetrahydro-2′-oxo-7.3′,8.5′-neolignan (ocophyllol A) 3, (7R, 8R, 3′S, 4′S, 5′R)-Δ⁸′-4′-hydroxy-3,4,5′-trimethoxy-2′,3′,4′,5′-tetrahydro-2′-oxo-7.3′,8.5′-neolignan (ocophyllol B) 4, (7R, 8R, 3′S, 4′S, 5′R)-Δ⁸′-4′-hydroxy-3,4,5,5′-tetramethoxy-2′,3′,4′,5′-tetrahydro-2′-oxo-7.3′,8.5′-neolignan (ocophyllol C) 5, as well as 2′-epi-guianin 6 and (+)-licarin B 7, were isolated and characterized from leaves of Ocotea macrophylla (Lauraceae). The structures and configuration of these compounds were determined by extensive spectroscopic analyses. Inhibition of platelet activating factor (PAF)-induced aggregation of rabbit platelets were tested with neolignans 1–7. Although compound 6 was the most potent PAF-antagonist, compounds 3–5 showed some activity.     

Modulation of ionizing radiation-induced apoptosis by bantam microRNA in Drosophila

In Drosophila, heterozygosity in the pro-apoptotic gene hid significantly reduces apoptosis that is induced by ionizing radiation (IR). Therefore, mechanisms that regulate Hid levels can potentially contribute to life-or-death decision of an irradiated cell. 3′UTR of hid mRNA contains 5 potential binding sites for bantam microRNA. Ectopic expression of ban attenuated apoptosis that results from ectopic expression of hid but the significance of this regulation under physiological conditions remained to be investigated. We report here that ban is needed to limit IR-induced apoptosis in larval imaginal discs. Using tubulin–EGFP ban sensors with ban consensus sequences in the 3′UTR, we find that EGFP decreases following IR, indicating that IR activates ban. Likewise, a tubulin–EGFP reporter with hid-3′UTR is repressed in irradiated discs and this repression requires ban consensus sites in the hid 3′UTR. ban mutant larvae show increased sensitivity to killing by IR, which is suppressed by a mutation in hid. These results can fit into a model in which IR activates ban and ban represses hid to limit IR-induced apoptosis. miRNAs have been shown previously to be induced by radiation but this is the first report that a miRNA is functionally important for radiation responses.     

Functional analysis of linker insertions and point mutations in the α-Amy2/54 GA-regulated promoter

Functional analysis of a gibberellin-regulated wheat -amylase promoter, -Amy2/54, has indicated that three regions were essential for expression. By studying the ability of mutant promoters, containing a randomly inserted 22 bp excision linker, to direct expression in oat aleurone protoplasts we have refined the positions and extents of these three cis elements and also demonstrated the presence of two additional elements. By converting the linker insertions to either single base point mutations or deletions using the class IIS restriction endonuclease Bsm I we have shown that nucleotides –119 and –109 within the GARE ^–121GTAACAGAGTCTGG^–108 and nucleotide –152 within the proposed element ^–156GATTGACTTGACC^–144 are essential for high level expression from this promoter.     

Translational control of development inC. elegans

Translational control by the 3′untranslated regions (3′UTRs) of mRNAs contributes to important events throughout the development of C. elegans. In oocytes and early embryos, maternal mRNAs are controlled by 3′UTR elements to restrict translation of their protein products to specific blastomeres. Localized translation is probably critical for specifying blastomere identity. In both germline and somatic cells, mRNAs from sex determining genes are translationally repressed by 3′UTR controls. These controls balance the activities that specify male and female cell fates. During larval development, the temporal sequence of cell lineages requires 3′UTR-mediated regulation of heterochronic genes by a small non-protein coding RNA. We review what is known about these translational control mechanisms in C. elegans. This overview illustrates that translational control by 3′UTR elements is a powerful mechanism for regulating the expression of multiple gene products in diverse cell types during development of a multi-cellular animal.     

Methylenedioxy- and methoxyflavones from Melicope coodeana syn. Euodia simplex

Three new natural products, 3,8-dimethoxy-5,7-dihydroxy-3′,4′-methylenedioxyflavone, 3,6,8-trimethoxy-5,7-dihydroxy-3′,4′-methylenedioxyflavone and 3,6,8,3′,4′-pentamethoxy-5,7-dihydroxyflavone were isolated from Melicope coodeana syn. Euodia simplex (Rutaceae) along with 3,6,3′-trimethoxy-5,7,4′-trihydroxyflavone and 3,3′-dimethoxy-5,7,4′-trihydroxyflavone. The structural assignments are based on ¹H and ¹³C NMR data, including discussion of the chemical shifts of C-2 in 3,5-dihydroxy- and 3-methoxy-5-hydroxyflavones. The presence of highly methoxylated and methylenedioxyflavones is characteristic of the genus Melicope, and the present findings support the recent transfer of Euodia simplex to Melicope.     

New Mos1 mariner transposons suitable for the recovery of gene fusions in vivo and in vitro

The Drosophila Mos1 element can be mobilized in species ranging from prokaryotes to protozoans and vertebrates, and the purified transposase can be used for in vitro transposition assays. In this report we developed a ‘mini-Mos1’ element and describe a number of useful derivatives suitable for transposon mutagenesis in vivo or in vitro. Several of these allow the creation and/or selection of tripartite protein fusions to a green fluorescent protein–phleomycin resistance (GFP-PHLEO) reporter/selectable marker. Such X-GFP-PHLEO-X fusions have the advantage of retaining 5′ and 3′ regulatory information and N- and C-terminal protein targeting domains. A Mos1 derivative suitable for use in transposon-insertion mediated linker insertion (TIMLI) mutagenesis is described, and transposons bearing selectable markers suitable for use in the protozoan parasite Leishmania were made and tested. A novel ‘negative selection’ approach was developed which permits in vitro assays of transposons lacking bacterial selectable markers. Application of this assay to several Mos1 elements developed for use in insects suggests that the large mariner pM[cn] element used previously in vivo is poorly active in vitro, while the Mos1-Act-EGFP transposon is highly active.     

DNA sequence dependence of guanine-O alkylation by the N-nitroso carcinogens N-methyl- and N-ethyl-N-nitrosourea

After intracellular in vitro exposure to the mutagenic and carcinogenic N-nitroso compounds N-methyl-N-nitrosourea (MeNU) or N-ethyl-N-nitrosourea (EtNU), respectively, the average relative amounts of the premutational lesion O⁶-alkylguanine represent about 6% and 8% of all alkylation products formed in genomic DNA. At the level of individual DNA molecules gunine-O⁶ alkylation does nor occur at random; rather, the probability of a substitution reaction at the nucleophilic O⁶ atom is influenced by nucleotide sequence, DNA conformation, and chromatin structure. In the present study, 5 different double-stranded polydeoxynucleotides and 15 double-stranded oligodeoxynucleotides (24-mers) were reacted with MeNU or EtNU in vitro under standardized conditions. Using a competitive radioimmunoassay in conjunction with an anti-(O⁶-2′-deoxyguanosine) monoclonal antibody, the frequency of guanine-O⁶ alkylation was found to be strongly dependent on the nature of the nucleotides flanking guanine on the 5t́ and 3′ sides. Thus, a 5′ neighboring guanine, followed by 5t́ adenine and 5′ cytosine, provided an up to 10-fold more ‘permissive’ condition for O⁶-alkylation of the central guanine than a 5′ thymine (with a 5-methylcytocine in the 5′ position being only slightly less inhibitory). Thymine and cytosine were more ‘permissive’ when placed 3′ in comparison with their affects in the 5′ flanking position.     

Isolation and characterisation of a Bam HI element in psam 3 a gene of Pisum sativum L. induced during early stages of arbuscular mycorrhiza development

An Alu-like element was identified in the 5′-UTR of psam 3, a Pisum sativum L. gene which shows enhanced expression during early events of AM formation. Two sets of primers specific for the 5′-UTR of the gene psam 3 and for the Alu-like element, respectively, were designed to study psam 3 gene organisation by targeted Alu PCR carried out on pea genomic DNA. PCR products free of Alu-like sequences were produced. A 1.0 kb DNA fragment showing up to 65 percnt; similarity to a Bam HI repeated sequence of Vicia faba was isolated in both wild-type and mycorrhiza-resistant pea. Southern blot analysis revealed the presence of other Bam HI related sequences in pea. The possibility that Bam HI repeated sequences might constitute complex repeating units together with an Alu-like element in the P. sativum genome is discussed.     

The cytoplasmic C2A domain of synaptotagmin shows sequence specific interaction with its own mRNA

Synaptotagmin-1 (Syt1) is essential in Ca²⁺-dependent neurotransmitter release, but its expression regulation is unknown. Here we report that the cytoplasmic Syt1 fragment forms ribonucleoprotein complex by interacting with the 3′ untranslated region (3^′UTR) of its own mRNA. Two protein-binding domains, GU₁₅ repeat and GUCAAUG, within the Syt 3′UTR and the C2 domains in Syt1, especially C2A, are essential in this ribonucleoprotein complex formation. Furthermore, in in vitro assay the translation efficiency of Syt1 mRNA was downregulated in presence of 3′UTR. These results demonstrate for the fist time that the soluble fraction of Syt1 can interact with its own mRNA in a highly sequence specific manner.     

An expression screen for RhoGEF genes involved in C. elegans gonadogenesis

The gonad in Caenorhabditis elegans is an important model system for understanding complex morphogenetic processes including cellular movement, cell fusion, cell invasion and cell polarity during development. One class of signaling proteins known to be critical for the cellular events underlying morphogenesis is the Rho family GTPases, particularly RhoA, Rac and Cdc42. In C. elegans orthologues of these genes have been shown to be important for gonad development. In our current study we have extended those findings by examining the patterns of 5′ cis-regulatory element (5′CRE) activity associated with nineteen putative guanine nucleotide exchange factors (GEFs) encoded by the C. elegans genome predicted to activate Rho family GTPases. Here we identify 13 RhoGEF genes that are expressed during gonadogenesis and characterize the cells in which their 5′CREs are active. These data provide the basis for designing experiments to examine Rho GTPase activation during morphogenetic processes central to normal gonad development.     

<Emphasis Type="Italic">cis</Emphasis>-Cinnamoyl Glucoside as a Major Plant Growth Inhibitor Contained in <Emphasis Type="Italic">Spiraea prunifolia</Emphasis>

Crude extracts of the leaves of Spiraea prunifolia Sieb. showed high plant-growth-inhibiting activity comparable to that of S. thunbergii extracts. To isolate the causal compound in S. prunifolia, we performed bioassay-directed purification by monitoring the biological activity per unit weight of the organism containing the bioactive compound (total activity). We isolated 1-O-cis-cinnamoyl-β-D-glucopyranose (cis-CG) and identified it as the most important growth-inhibiting constituent in the crude extracts. We did not detect 6-O-(4′-hydroxy-2′-methylenebutyroyl)-1-O-cis-cinnamoyl-β-D-glucopyranose (cis-BCG) in S. prunifolia, though it is a major plant growth inhibitor in S. thunbergii together with cis-CG. We estimated the cis-CG content in S. prunifolia to be 3.84 mmol kg⁻¹ F.W. This amount is comparable to the cis-CG plus cis-BCG content in S. thunbergii (3.59 mmol kg⁻¹ F.W.). This indicates that S. prunifolia and S. thunbergii have equally high potential to inhibit plant growth, and cis-CG acts as the most important plant-growth inhibitor in S. prunifolia extracts.