Spook and Spookier code for stage-specific components of the ecdysone biosynthetic pathway in Diptera

Ecdysteroids regulate many key developmental events in arthropods including molting and metamorphosis. Recently, members of the Drosophila Halloween group of genes, that are required for embryonic viability and cuticle deposition, have been shown to code for several cytochrome P450 enzymes that cata...

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Bibliographic Details
Published in:Developmental biology 2006-10, Vol.298 (2), p.555-570
Main Authors: Ono, Hajime, Rewitz, Kim F., Shinoda, Tetsuro, Itoyama, Kyo, Petryk, Anna, Rybczynski, Robert, Jarcho, Michael, Warren, James T., Marqués, Guillermo, Shimell, Mary Jane, Gilbert, Lawrence I., O'Connor, Michael B.
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Bombyx mori
Cell Line
CYP
Cytochrome P-450 Enzyme System - genetics
Cytochrome P-450 Enzyme System - metabolism
Diptera
Diptera - genetics
Drosophila
Drosophila melanogaster - embryology
Drosophila melanogaster - genetics
Drosophila Proteins - genetics
Drosophila Proteins - metabolism
Ecdysone
Ecdysone - biosynthesis
Evolution, Molecular
Larva - growth & development
Lepidoptera
Microsomes - metabolism
Molecular Sequence Data
Molting
Mutant Proteins
Nuclear Proteins - genetics
p450
Pedigree
Phenotype
RNA, Messenger - metabolism
Sequence Homology, Amino Acid
Thorax - metabolism
Tissue Distribution
Transfection
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Summary:Ecdysteroids regulate many key developmental events in arthropods including molting and metamorphosis. Recently, members of the Drosophila Halloween group of genes, that are required for embryonic viability and cuticle deposition, have been shown to code for several cytochrome P450 enzymes that catalyze the terminal hydroxylation steps in the conversion of cholesterol to the molting hormone 20-hydroxyecdysone. These P450s are conserved in other insects and each is thought to function throughout development as the sole mediator of a particular biosynthetic step since, where analyzed, each is expressed at all stages of development and shows no closely related homolog in their respective genomes. In contrast, we show here that several dipteran genomes encode two novel, highly related, microsomal P450 enzymes, Cyp307A1 and Cyp307A2, that likely participate as stage-specific components of the ecdysone biosynthetic machinery. This hypothesis comes from the observation that Cyp307A1 is encoded by the Halloween gene spook ( spo), but unlike other Halloween class genes, Dm spo is not expressed during the larval stages. In contrast, Cyp307a2, dubbed spookier ( spok), is expressed primarily during larval stages within the prothoracic gland cells of the ring gland. RNAi mediated reduction in the expression of this heterochromatin localized gene leads to arrest at the first instar stage which can be rescued by feeding the larva 20E, E or ketodiol but not 7dC. In addition, spok expression is eliminated in larvae carrying mutations in molting defective ( mld), a gene encoding a nuclear zinc finger protein that is required for production of ecdysone during Drosophila larval development. Intriguingly, mld is not present in the Bombyx mori genome, and we have identified only one spook homolog in both Bombyx and Manduca that is expressed in both embryos and larva. These studies suggest an evolutionary split between Diptera and Lepidoptera in how the ecdysone biosynthetic pathway is regulated during development.
ISSN:0012-1606
1095-564X
DOI:10.1016/j.ydbio.2006.07.023