Nerve growth factor expression response to induction agent booster dosing in transfected human embryonic kidney cells

To assess whether nerve growth factor (NGF) expression would respond to booster dosing with the inducing agent ponasterone A, human embryonic kidney cells (HEK-293) were transfected with human NGF cDNA. Cells were cultured for 5 days in media with or without ponasterone A. On day 5, controls received a ponasterone A media replacement, whereas experimental groups received ponasterone A booster media replacement. NGF protein expression bioactivity was assessed using a PC-12 cell bioassay and the concentration of secreted NGF was quantified using NGF enzyme-linked immunosorbent assay. Cells with and without ponasterone A were left for 5 days without changing the medium. On day 5, the supernatants were collected and flash-frozen for enzyme-linked immunosorbent assay. The ponasterone A-positive and -negative booster medium was replaced in the appropriate wells. Supernatants were collected from the wells at 2, 4, and 6 days after the booster dose and removal of original supernatant. The medium was flash-frozen for enzyme-linked immunosorbent assay (1.5 ml), and the remaining 500 mul was transferred to PC-12 cells seeded onto 12-well plates to determine NGF bioactivity. All experiments were performed in quadruplicate. NGF production was measured daily by enzyme-linked immunosorbent assay over a 6-day period after the ponasterone A booster to a maximal release of 1233 +/- 130 pg/ml at day 6 (11 days after original induction). Maximal NGF production per 10(3) cells was 2.5 +/- 0.61 pg at day 6. Bioactivity was determined by percentage differentiation (per 100 cells counted) at 26, 52, and 98 percent for ponasterone A-treated wells on 2, 4, and 6 days after booster dosing (7, 9, and 11 days after induction), respectively. PC-12 cell differentiation was not visualized in the ponasterone A-negative control wells. Human NGF-EcR-293 cells can inducibly secrete bioactive NGF when exposed to the induction agent ponasterone A. Furthermore, repeated bioactive NGF expression peaks beyond that previously demonstrated can be achieved using induction agent booster dosing, indicating the ability to regulate the system over an extended period.     

Growth and silk formation of silkworm larvae influenced by phytoecdysones

The fourth and fifth instar larvae of the silkworm were reared on artificial diets containing ponasterone A, ecdysterone, and inokosterone. The growth of the larvae and their silk glands, fibroin-synthesizing activity, and silk formation have been investigated. With a diet containing ponasterone A, the fourth instar larvae grew slowly and only a few larvae could ecdyse, while the growth of the fifth instar larvae was disturbed and they died with a darkening of the skin. Ponasterone A also inhibited the growth of the silk glands during the fifth instar. In contrast, the other two phytoecdysones did not greatly influence larval growth. The fourth instar larvae grew rapidly and their ecdysis was advanced with a diet which contained 10 μg of inokosterone/1 g of dry diet. The diet which contained 5 μg of ecdysterone or 10 μg of inokosterone/1 g of dry diet accelerated maturation, while that containing 10 or 20 μg of ecdysterone, or 40 μg of inokosterone, delayed maturation of the fifth instar larvae.Only phytoecdysones caused a decrease in growth of the silk glands in the early half of the instar, and a large amount of phytoecdysones accelerated their growth during the last part of the fifth instar. The fibroin-synthesizing activity was levelled up by feeding ecdysterone and inokosterone, and inokosterone appreciably stimulated activity. Assay of in vitro fibroin synthesis showed that ponasterone A competed with ecdysterone in a stimulative action. Silk formation was much lower in larvae fed the diet containing 5 μg of ecdysterone or 10 μg of inokosterone/1 g of dry diet and was far greater in larvae fed the diet containing 40 μg of inokosterone than in the controls.     

Ecdysteroid binding sites in gastrolith forming tissue and stomach during the molting cycle of crayfishProcambarus clarkii

Summary The distribution of ecdysteroid binding sites in the stomach and gastrolith disc tissue of cryafish (Procambarus clarkii) was examined in relation to the molting stage by thaw-mount autoradiography. The radiolabeled hormone analogue ponasterone A (25-deoxy-20-hydroxyecdysone) was used. Ecdysteroid binding sites were demonstrated only in certain molting stages, the small gastrolith period and the aftermolt stage. In gastrolith epithelium, ponasterone A binding sites first appeared in the cytoplasm, and then in the nuclei and cytoplasm. In the stomach epithelium, many nuclear binding sites were detectable during the period of gastrolith secretion. These periodical changes in specific ponasterone A binding when correlated with the molting stages clearly show that ecdysteroids may function as an initiator for gastrolith formation and reabsorption. The findings also suggest that ecdysteroids control calcium transport in the stomach epithelium. The time-related and functional differences of cytoplasmic and nuclear concentration of ecdysteroid receptors indicate the presence of cytoplasmic and nuclear receptors associated with specific actions.     

Effects of ingested phytoecdysteroids on the growth and development of two Lepidopterous larvae

The effects of ingested or injected 20-hydroxyecdysone on silkworm larvae (Bombyx mori) including death without moulting, death following completion of promoted moulting, death during promoted moulting (ecdysis inhibition) and inhibition in growth with and without effects on moulting, are dependent upon the concentration of exogenous hormone, the precise developmental stage of the treated larvae, and the duration of exposure to the exogenous ecdysteroid. Comparisons of 20-hydroxyecdysone with other phytoecdysteroids in the silkworm and pink bollworm, Pectinophora gossypiella, show a similar but more potent effect induced by ponasterone A, while cyasterone causes an ‘antiecdysone’ effect.     

Ecdysteroid binding sites in gastrolith forming tissue and stomach during the molting cycle of crayfish Procambarus clarkii.

The distribution of ecdysteroid binding sites in the stomach and gastrolith disc tissue of crayfish (Procambarus clarkii) was examined in relation to the molting stage by thaw-mount autoradiography. The radiolabeled hormone analogue ponasterone A (25-deoxy-20-hydroxyecdysone) was used. Ecdysteroid binding sites were demonstrated only in certain molting stages, the small gastrolith period and the aftermolt stage. In gastrolith epithelium, ponasterone A binding sites first appeared in the cytoplasm, and then in the nuclei and cytoplasm. In the stomach epithelium, many nuclear binding sites were detectable during the period of gastrolith secretion. These periodical changes in specific ponasterone A binding when correlated with the molting stages clearly show that ecdysteroids may function as an initiator for gastrolith formation and reabsorption. The findings also suggest that ecdysteroids control calcium transport in the stomach epithelium. The time-related and functional differences of cytoplasmic and nuclear concentration of ecdysteroid receptors indicate the presence of cytoplasmic and nuclear receptors associated with specific actions.     

Ponasterone A: a new ecdysteroid from the embryos and serum of brachyuran crustaceans

The apolar ecdysteroid present in the developing embryo of the blue crab, Callinectes sapidus Rathbun, is tentatively identified as ponasterone A (2 beta, 14 alpha, 20,22-pentahydroxy-5, beta-cholest-7-en-6-one) on the basis of chromatographic, immunological, and mass spectral evidence. The apolar ecdysteroid present in the serum of land crabs, Gecarcinus lateralis, in the late premolt stages of the intermolt cycle is also tentatively identified as ponasterone A on the basis of chromatographic and immunological evidence.     

Prothoracotropic action of ecdysone analogues in Bombyx mori

The prothoracotropic action of ecdysone analogues was examined, using the brainless, diapausing pupae of Bombyx mori with or without inclusion of prothoracic glands. The most effective of those hormones to stimulate prothoracic glands to secrete the moulting hormone was found to be cyasterone. The other analogues such as ponasterone A, ecdysterone, and inokosterone showed a lower activity with regard to prothoracotropic action. The female prothoracic glands were found to be more sensitive to the ecdysones than the male ones. The time lag from hormone injection to emergence indicated the dual actions of the injected ecdysones, directly on the target organs and indirectly on the prothoracic glands subsequent to secreting the moulting hormone.     

Effects of ecdysone analogues on development and metabolic activity of wing disks of the fleshfly, Sarcophaga peregrina,in vitro

Effects of ecdysone analogues on development and metabolic activities of Sarcophaga wing disks were studied in cultures. Development of disks was induced by ecdysterone, ponasterone A, and cyasterone in vitro, whereas rubrosterone was quite inactive in inducing development.As well as morphogenetic effects, a proper concentration (3 × 10^?5 M to 3 × 10^?7 M) was required to induce the incorporation of tritiated uridine, thymidine, and leucine into RNA, DNA, and protein, respectively. Higher concentration of the hormone was more favourable to development of disks and enhancement of RNA synthesis. However, the hormone at concentration higher than 2 × 10^?9 M seemed to be rather toxic to both development and metabolic activity.     

Ecdysteroid binding sites localized by autoradiography in the central nervous system of precommitment fifth-stadium Manduca sexta larvae

Summary Brains and subesophageal ganglia from day 3.5 fifth stadium larvae of Manduca sexta were incubated in vitro with 4 nM tritiated ponasterone A, a 20-hydroxyecdysone analog, to determine whether uptake and specific binding of ecdysteroids occur at a cellular level. These tissues, which were taken just prior to the commitment peak in the hemolymph-ecdysteroid titer, showed saturable uptake of ³H-ponasterone A after 40–60 min of incubation. Uptake was blocked by the addition of 400 nM unlabelled ponasterone A, or of 500 nM or 1000 nM 20-hydroxyecdysone. RH 5849, a synthetic 20-hydroxyecdysone agonist with a long half-life, for which ecdysteroid receptors have low affinity, also reduced ponasterone A uptake at a concentration of 10 M. Autoradiographs of 4 m sections of brains revealed distinct nuclear concentrations of silver grains over cell populations in the pars intercerebralis, pars lateralis, and ventral tritocerebrum. Nuclear labelling was also found in many small cells around the mushroom bodies and the neuropil, and between the inner and outer larval optic lobes. Nuclear labelling of cells in the subesophageal ganglion was observed in the fronto-medial and lateral regions, in small cells around the neuropil, and caudally in a few large neurons. In addition to cells with nuclear labelling, both brains and ganglia at this development stage contained cells with exclusively cytoplasmic or both nuclear and cytoplasmic labelling. None of these apparent binding sites were observed in the competition experiments, suggesting that the binding is specific.     

Action of brassinosteroids in the cotton leafworm Spodoptera littoralis.

The two native plant hormones 24-epibrassinolide and 24-epicastasterone showed 50% competition for binding at IC(50) of 1-3.6 microM with [(3)H]ponasterone A using cultured imaginal wing discs from last-instar larvae of the cotton leafworm, Spodoptera littoralis (Boisduval) (Lepidoptera: Noctuidae). However, culture of imaginal wing discs in different concentrations of brassinosteroids, even up to 100 microM, demonstrated no induction of evagination. In contrast, 20E and the non-steroidal agonist RH-5992 competed respectively about 23- and 42-fold more effectively with labeled ponasterone A, and their ability (EC(50)) to induce disc evagination in vitro was 158 and 87 nM, respectively. Injection of 10 microg of brassinosteroids in newly-moulted last-instar larvae did not cause mortality above controls; higher mortalities were scored when brassinosteroids were injected late in the last instar.     

High titers of ecdysteroids are associated with the secretory process of embryonic envelopes in the european lobster

The newly laid egg of the lobster Homarus gammarus is surrounded by a vitelline coat. Just after fertilization, a new subjacent envelope (2), originating from the cortical reaction, is deposited beneath the vitelline coat. In the course of embryonic development, five new coatings (envelopes 3 to 7) are secreted successively from the ectodermal embryonic cells. These will remain until hatching, freeing the mysis larva in concentric order without exuviation. The concentration of both the two major ecdysteroids (ponasterone A and 20-hydroxyecdysone) and their respective precursors (25-deoxyecdysone and ecdysone) were determined as a function of the secretory phase for three embryonic envelopes (2, 3 and 6). We determined that the secretory processes proceed in the presence of high titers of 20-hydroxyecdysone during the onset of envelope secretion and of ponasterone A in the last phase of secretion.     

CYP330A1 and CYP4C39 enzymes in the shore crab Carcinus maenas: sequence and expression regulation by ecdysteroids and xenobiotics

Cytochrome P450 enzymes (CYP enzymes) catalyse important metabolic reactions of exogenous and endogenous substrates, including steroid hormones. Here, we report the first two CYP sequences from the shore crab, Carcinus maenas. Two complete cDNAs isolated from crab hepatopancreas encode CYP enzymes named CYP330A1, the first member of a new family, and CYP4C39. CYP330A1 is closest related to members of the CYP2 family (37.3% identical to mouse CYP2J6) and CYP4C39 is most identical to crayfish CYP4C15 (59.5%). CYP330A1 gene expression was induced in hepatopancreas of male green intermoult crabs by ecdysone and ponasterone A, but also by benzo(a)pyrene and phenobarbital. CYP330A1 induction was not observed in red crabs. The present results indicate that the CYP330A1 enzyme may be involved in ecdysteroid metabolism, presumably catabolism, and in the detoxification of environmental pollutants. Ecdysteroids or xenobiotics did not affect CYP4C39 gene expression. The fact that both ecdysteroids and xenobiotics affect CYP330A1 gene expression indicates that mutual interactions between chemical exposures and endocrine functions may exist in the shore crab.     

8-O-acetylharpagide is not an ecdysteroid agonist

We have reinvestigated the activity of 8-O-acetylharpagide, an iridoid glucoside, as an ecdysteroid agonist. Elbrecht et al. (Insect Biochem. Mol. Biol. 26 (1996) 519) isolated a preparation of this compound from Ajuga reptans L. and ascribed ecdysteroid agonist activity on the basis of the induction of an ecdysteroid-like response in Drosophila melanogaster KcO cells, the displacement of [3H]ponasterone A from the Drosophila receptor and the activation of an ecdysteroid-regulated gene in a transactivation assay. We provide evidence that the agonist activity derives from contaminating ecdysteroids; A. reptans is a species rich in ecdysteroids. Purified 8-O-acetylharpagide is not active in the D. melanogaster B(II) cell bioassay, neither as an agonist nor as an antagonist, nor does it displace [3H]ponasterone A from dipteran or lepidopteran ecdysteroid receptor complexes.     

Development and characterization of a minimal inducible packaging cell line for simian immunodeficiency virus-based lentiviral vectors

Background

Lentiviral vectors allow gene transfer into non‐dividing cells. Further development of these vector systems requires stable packaging cell lines that enable adequate safety testing.

Methods

To generate a packaging cell line for vectors based on simian immunodeficiency virus (SIV), expression plasmids were constructed that contain the codon‐optimized gag‐pol gene of SIV and the gene for the G protein of vesicular stomatitis virus (VSV‐G) under the control of an ponasterone‐inducible promoter. Stable cell lines expressing these packaging constructs were established and characterized.

Results

The RT activity and vector titers of cell clones stably transfected with the inducible gag‐pol expession plasmid could be induced by ponasterone by more than a factor of 1000. One of these clones was subsequently transfected with the ponasterone‐inducible VSV‐G expression plasmid to generate packaging cells. Clones of the packaging cells were screened for vector production by infection with an SIV vector and subsequent induction by ponasterone. In the supernatant of selected ponasterone‐induced producer clones vector titers of more than 1×10⁵ transducing units/ml were obtained. Producer cell clones were stable for at least five months, as tested by vector production.

Conclusions

The packaging cells described should be suitable for most preclinical applications of SIV‐based vectors. By avoiding regions of high homology between the vector and the packaging constructs, the design of the SIV packaging cell line should reduce the risk of transfer of packaging genes to target cells and at the same time provide flexibility with respect to the SIV vector constructs that can be packaged. Copyright © 2002 John Wiley & Sons, Ltd.

     

The Isolation and Identification of Phytoecdysones from Dacrydium pierrei Hickel

Three crystals were isolated from the bark of Dacrydium pierrei Hickel and were identified by melting point spectral data (UV, IR, MS, NMR) and GC. Hplc. Crystal Ⅰ is β-ecdysone, Crystal Ⅱ is a jugasterone C. Crystal Ⅲ consists of ponasterone A (ⅢA) and a new phytoecdysone named dacryhainansterone (ⅢB). Total yield of three crystals is 0.4%.     

Magnetic DNA affinity purification of ecdysteroid receptor.

A new method for rapid purification to near homogeneity of the ecdysteroid receptor (EcdR) from Drosophila melanogaster nuclear extract is presented. In the first step of the purification procedure the EcdR molecules were radiolabelled with [3H]ponasterone A and the [3H]ponasterone A-EcdR complexes were chromatographed under very mild conditions on Fractogel EMD TMAE(s) ion-exchanger. A 23-fold purified receptor was obtained which can be stored in liquid N2 without loss of activity. The second step involved the use of a magnetic DNA affinity technique where the double stranded hsp 27 oligonucleotide containing EcdR binding sequence was biotin 5'-end labelled and bound to monodisperse superparamagnetic particles coated with streptavidin (Dynabeads M-280 Streptavidin) giving magnetic DNA affinity beads. The chromatographed EcdR-ponasterone A complexes were bound to the magnetic DNA affinity beads and by magnetic separation, wash and elution, a 29,000-fold enriched EcdR preparation was obtained within 1.5 h. This procedure can be applied for other EcdR sources with minor modifications.