Puffs and PCR: the in vivo dynamics of early gene expression during ecdysone responses in Drosophila

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Puffs and PCR: the in vivo dynamics of early gene expression during ecdysone responses in Drosophila

F Huet, C Ruiz and G Richards
Laboratoire de Genetique Moleculaire des Eucaryotes du CNRS, Unite 184 de Biologie Moleculaire et de Genie Genetique de l'INSERM, Faculte de Medecine, Strasbourg, France.

The steroid hormone ecdysone orchestrates insect development by regulating gene networks. In Drosophila the most detailed description of ecdysone action is the sequential activation of early and late puffs in the polytene chromosomes of the late larval salivary gland. A number of these early puffs (2B5, 74EF and 75B) contain complex transcription units (Broad-Complex, E74 and E75 respectively) encoding families of regulatory proteins which are expressed in most if not all tissues. In vitro, transcripts of the different isoforms of these early genes as well as the ecdysone receptor (EcR) present varying dose response characteristics (Karim and Thummel, 1992, EMBO J. 11, 4083-4093). We have developed an in vivo approach using a reverse transcription-polymerase chain reaction assay (RT-PCR) so as to visualise these transcripts in the RNA extracted from a single salivary gland. Using one salivary gland lobe for developmental puff staging and the sister lobe for RT-PCR, we have obtained precise developmental profiles for these transcripts and have extended our study to other tissues and stages where puffing studies were not possible. In the salivary gland we have characterised three distinct ecdysone responses. For the mid and late third larval instar responses our results confirm and extend the conclusions of the in vitro studies concerning the temporal expression of the early gene isoforms. The relatively brief prepupal response contains elements in common with each of the larval responses and all three can be explained by the profiles of the respective ecdysone peaks. Interestingly EcR transcripts respond differently during each response. The analysis of different tissues of the same animal reveals subtle differences in the timing of the ecdysone response and isoform expression and suggests that this may reflect tissue differences in the ecdysone profiles. As these molecules have homologues in vertebrates, our analysis may have general implications for the organisation of hormonal responses in vivo.
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				T. Kozlova and C. S. Thummel Spatial patterns of ecdysteroid receptor activation during the onset of Drosophila metamorphosis Development, January 4, 2002; 129(7): 1739 - 1750. [Abstract] [Full Text] [PDF]

				N. Renault, K. King-Jones, and M. Lehmann Downregulation of the tissue-specific transcription factor Fork head by Broad-Complex mediates a stage-specific hormone response Development, October 1, 2001; 128(19): 3729 - 3737. [Abstract] [Full Text] [PDF]

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				T Li and M Bender A conditional rescue system reveals essential functions for the ecdysone receptor (EcR) gene during molting and metamorphosis in Drosophila Development, January 7, 2000; 127(13): 2897 - 2905. [Abstract] [PDF]

				D. Sandstrom and L. Restifo Epidermal tendon cells require Broad Complex function for correct attachment of the indirect flight muscles in Drosophila melanogaster J. Cell Sci., January 11, 1999; 112(22): 4051 - 4065. [Abstract] [PDF]

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				B. Hall and C. Thummel The RXR homolog ultraspiracle is an essential component of the Drosophila ecdysone receptor Development, January 12, 1998; 125(23): 4709 - 4717. [Abstract] [PDF]

				J. C. Fletcher, P. P. D'Avino, and C. S. Thummel A steroid-triggered switch in E74 transcription factor isoforms regulates the timing of secondary-response gene�expression PNAS, April 29, 1997; 94(9): 4582 - 4586. [Abstract] [Full Text] [PDF]

				G. Lam, C Jiang, and C. Thummel Coordination of larval and prepupal gene expression by the DHR3 orphan receptor during Drosophila metamorphosis Development, January 5, 1997; 124(9): 1757 - 1769. [Abstract] [PDF]

				G Gonzy-Treboul, J A Lepesant, and J Deutsch Enhancer-trap targeting at the Broad-Complex locus of Drosophila melanogaster. Genes & Dev., May 1, 1995; 9(9): 1137 - 1148. [Abstract] [PDF]

				A. Andres and C. Thummel The Drosophila 63F early puff contains E63-1, an ecdysone-inducible gene that encodes a novel Ca(2+)-binding protein Development, January 8, 1995; 121(8): 2667 - 2679. [Abstract] [PDF]

				J. Fletcher and C. Thummel The Drosophila E74 gene is required for the proper stage- and tissue-specific transcription of ecdysone-regulated genes at the onset of metamorphosis Development, January 5, 1995; 121(5): 1411 - 1421. [Abstract] [PDF]

				J. Fletcher, K. Burtis, D. Hogness, and C. Thummel The Drosophila E74 gene is required for metamorphosis and plays a role in the polytene chromosome puffing response to ecdysone Development, January 5, 1995; 121(5): 1455 - 1465. [Abstract] [PDF]

				F Huet, C Ruiz, and G Richards Sequential gene activation by ecdysone in Drosophila melanogaster: the hierarchical equivalence of early and early late genes Development, January 4, 1995; 121(4): 1195 - 1204. [Abstract] [PDF]

				I. Emery, V Bedian, and G. Guild Differential expression of Broad-Complex transcription factors may forecast tissue-specific developmental fates during Drosophila metamorphosis Development, January 11, 1994; 120(11): 3275 - 3287. [Abstract] [PDF]

				T. Hock, T. Cottrill, J. Keegan, and D. Garza The E23 early gene of Drosophila encodes an ecdysone-inducible ATP-binding cassette transporter capable of repressing ecdysone-mediated gene activation PNAS, August 15, 2000; 97(17): 9519 - 9524. [Abstract] [Full Text] [PDF]