Fae Malone scite author profile

Ecdysteroids acting through multiple isoforms of the ecdysone receptor (EcR) initiate molting and metamorphosis of insects. Two isoforms of EcR, A (this paper) and B1 (Fujiwara et al., Insect Biochem. Mol. Biol. 25, 845-856, 1995), were isolated from the tobacco hornworm, Manduca sexta, and shown to be similar to the corresponding Drosophila EcR isoforms. The developmental profiles of both EcR-A and EcR-B1 (determined by both analysis of isoform-specific mRNAs and use of monoclonal antibodies that detect either EcR-B1 or all forms), however, were different in Manduca epidermis, which produces sequentially the larval, the pupal, and the adult cuticles. EcR-B1 predominated through the larval, pupal, and early developing adult stages with an upregulation early in each molt. By contrast, EcR-A was present only at the onset of new cuticle synthesis during the larval molt, but in the pupal and adult molts was upregulated slightly later than EcR-B1 during the commitment period and was present during the predifferentiative phase. Both isoforms appeared in the larval wing discs after pupal commitment and persisted through pupal differentiation. The mRNAs for both isoforms were directly induced in larval epidermis in vitro by 20-hydroxyecdysone, but EcR-B1 mRNA accumulated more rapidly, peaking at 3 hr. In the presence of a protein synthesis inhibitor, the accumulation of EcR-B1 mRNA was slower and its subsequent decline was prevented, but the accumulation of EcR-A mRNA was unaffected. Thus, in this polymorphic epidermis both isoforms appear in every molt, with EcR-B1 present during the commitment and predifferentiative phases and then at the onset of cuticle synthesis EcR-A prevails. Additionally, EcR-A is apparently associated with the switching and predifferentiative events necessary for a new synthetic program.

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**Identification and mRNA developmental profiles of two ultraspiracle isoforms in the epidermis and wings of*Manduca sexta***

Jindra

Malone

et al. 1997

Insect Molecular Biology

137

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cDNAs were isolated from Manduca sexta that encode two isoforms of an ultraspiracle (USP) homologue MsUSP-1 and MsUSP-2 with different N-terminal A/B regions. The MsUSP-1 cDNA predicts a protein with 97% and 45% amino acid identities in the DNA- and ligand-binding domains respectively to the Drosophila USP and 89% overall identity with Bombyx mori CF1 (an USP homologue). Northern blot hybridizations with probes specific to MsUSP-1 and MsUSP-2 showed transcripts of an approximately equal size (4.5 kb), but with diverse developmental profiles in Manduca epidermis during the two final larval instars and the onset of the adult moult. The MsUSP-1 mRNA was expressed during the intermoult periods, with higher levels around the time of the larval ecdyses and at the onset of wandering behaviour. In contrast, the MsUSP-2 mRNA was up-regulated at times of high ecdysteroid titre during the larval moults, when the MsUSP-1 mRNA disappeared. Together, these conversely regulated isoform mRNAs contribute to the constitutive expression profile of total MsUSP mRNA.

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Regulation of the Transcription Factor E75 by 20-Hydroxyecdysone and Juvenile Hormone in the Epidermis of the Tobacco Hornworm,Manduca sexta,during Larval Molting and Metamorphosis

Zhou

Hiruma

Jindra

et al. 1998

Developmental Biology

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The homolog of the ecdysteroid-induced transcription factor E75A in Drosophila melanogaster was cloned from the tobacco hornworm, Manduca sexta, and its developmental expression and hormonal regulation were analyzed. Both E75A and E75B mRNAs were found in the abdominal epidermis during both the larval and the pupal molts, with E75A appearing before E75B, coincident with the rise of ecdysteroid. Exposure of either fourth or fifth instar epidermis to 20E in vitro caused the rapid, transient induction of E75A RNA with a peak at 6 and 3 h, respectively, followed by maintenance at low levels until 24 h. Epidermis from fourth instar larvae with high endogenous juvenile hormone (JH) showed a 10-fold higher sensitivity to 20E (EC50 = 2 x 10(-8) M for fourth instar and 2 x 10(-7) M for fifth instar epidermis). The presence of the protein synthesis inhibitor anisomycin had no effect on the induction but prevented the decline, indicating that E75A RNA was directly induced by 20E, but its down-regulation depended on protein synthesis. Exposure of day 2 fifth instar epidermis to 20E in the presence of JH I, which prevents the 20E-induced pupal commitment, caused an increased accumulation of E75A RNA throughout the culture period although the temporal pattern was unaffected. These findings show for the first time that JH plays a role in 20E-induced early gene expression and suggest that the higher levels of E75A may be required for maintenance of larval commitment of this epidermis.

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Juvenile hormone modulates 20-hydroxyecdysone-inducible ecdysone receptor and ultraspiracle gene expression in the tobacco hornworm, Manduca sexta

Hiruma

Shinoda

Malone

et al. 1999

Development Genes and Evolution

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Insect molting and metamorphosis are orchestrated by ecdysteroids with juvenile hormone (JH) preventing the actions of ecdysteroids necessary for metamorphosis. During the molt and metamorphosis of the dorsal abdominal epidermis of the tobacco hornworm, Manduca sexta, the isoforms involved in the ecdysone receptor (EcR)/Ultraspiracle (USP) complex change with the most dramatic switch being the loss of USP-1 and the appearance of USP-2 during the larval and pupal molts. We show here that this switch in USP isoforms is mediated by high 20-hydroxyecdysone (20E) and that the presence of JH is necessary for the down-regulation of USP-1 mRNA. The decrease of USP-1 mRNA in day 2 fourth instar larval epidermis in vitro required exposure to a high concentration (10(-5) M) of 20E equivalent to the peak ecdysteroid concentration in vivo, whereas the increase of USP-2 mRNA occurred at lower concentrations (effective concentrations, EC50=6.3x10(-7) M). During the pupal molt of allatectomized larvae which lack JH, USP-2 mRNA increased normally with the increasing ecdysteroid titer, whereas USP-1 mRNA remained high until pupation. When day 2 fifth instar larval epidermis was exposed to 500 ng/ml 20E in the absence of JH to cause pupal commitment of the cells by 24 h, USP-1 RNA remained at its high preculture level for 12 h, then increased two- to threefold by 24 h. The increase was prevented by the presence of 1 microgram/ml JH I which also prevents the pupal commitment of the cells. By contrast, USP-2 mRNA increased steadily with the same EC50 as in fourth stage epidermis, irrespective of the presence or absence of JH. Under the same conditions, mRNAs for both EcR-B1 and EcR-A isoforms were up-regulated by 20E, each in its own time-dependent manner, similar to that seen in vivo. These initial mRNA increases were unaffected by the presence of JH I, but those seen after 12 h exposure to 20E were prevented by JH, indicating a difference in response between larvally and pupally committed cells. The presence of JH which maintained larval commitment of the cells also prolonged the half-life of the EcR proteins in these cells. These results indicate that both EcR and USP RNAs are regulated by 20E and can be modulated by JH in a complex manner with only that of USP-2 apparently unaffected.

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Fae Malone

Developmental Profiles and Ecdysteroid Regulation of the mRNAs for Two Ecdysone Receptor Isoforms in the Epidermis and Wings of the Tobacco Hornworm,Manduca sexta

**Identification and mRNA developmental profiles of two ultraspiracle isoforms in the epidermis and wings of*Manduca sexta***

Regulation of the Transcription Factor E75 by 20-Hydroxyecdysone and Juvenile Hormone in the Epidermis of the Tobacco Hornworm,Manduca sexta,during Larval Molting and Metamorphosis

Juvenile hormone modulates 20-hydroxyecdysone-inducible ecdysone receptor and ultraspiracle gene expression in the tobacco hornworm, Manduca sexta

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Fae Malone

Developmental Profiles and Ecdysteroid Regulation of the mRNAs for Two Ecdysone Receptor Isoforms in the Epidermis and Wings of the Tobacco Hornworm,Manduca sexta

Identification and mRNA developmental profiles of two ultraspiracle isoforms in the epidermis and wings ofManduca sexta

Regulation of the Transcription Factor E75 by 20-Hydroxyecdysone and Juvenile Hormone in the Epidermis of the Tobacco Hornworm,Manduca sexta,during Larval Molting and Metamorphosis

Juvenile hormone modulates 20-hydroxyecdysone-inducible ecdysone receptor and ultraspiracle gene expression in the tobacco hornworm, Manduca sexta

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**Identification and mRNA developmental profiles of two ultraspiracle isoforms in the epidermis and wings of*Manduca sexta***