Advertisement
JOURNAL ARTICLES
Patterning of the follicle cell epithelium along the anterior-posterior axis during Drosophila oogenesis
A. Gonzalez-Reyes, D. St Johnston
Development 1998 125: 2837-2846;

Summary

Gurken signals from the oocyte to the adjacent follicle cells twice during Drosophila oogenesis; first to induce posterior fate, thereby polarising the anterior-posterior axis of the future embryo and then to induce dorsal fate and polarise the dorsal-ventral axis. Here we show that Gurken induces two different follicle cell fates because the follicle cells at the termini of the egg chamber differ in their competence to respond to Gurken from the main-body follicle cells in between. By removing the putative Gurken receptor, Egfr, in clones of cells, we show that Gurken signals directly to induce posterior fate in about 200 cells, defining a terminal competence domain that extends 10–11 cell diameters from the pole. Furthermore, small clones of Egfr mutant cells at the posterior interpret their position with respect to the pole and differentiate as the appropriate anterior cell type. Thus, the two terminal follicle cell populations contain a symmetric prepattern that is independent of Gurken signalling. These results suggest a three-step model for the anterior-posterior patterning of the follicular epithelium that subdivides this axis into at least five distinct cell types. Finally, we show that Notch plays a role in both the specification and patterning of the terminal follicle cells, providing a possible explanation for the defect in anterior-posterior axis formation caused by Notch and Delta mutants.

REFERENCES

    1. Artavanis-Tsakonas S.,
    2. Matsuno K.,
    3. Fortini M.
    (1995) Notch signaling. Science 268, 225232
    OpenUrlAbstract/FREE Full Text
    1. Brower D.,
    2. Smith R.,
    3. Wilcox M.
    (1981) Differentiation within the gonads of Drosophila revealed by immunofluorescence. J. Embryol. Exp. Morph 63, 233242
    OpenUrlPubMedWeb of Science
    1. Clark I.,
    2. Giniger E.,
    3. Ruohola-Baker H.,
    4. Jan L.,
    5. Jan Y.
    (1994) Transient posterior localisation of a kinesin fusion protein reflects anteroposterior polarity of the Drosophila oocyte. Current Biology 4, 289300
    OpenUrlCrossRefPubMedWeb of Science
    1. Clifford R.,
    2. Schupbach T.
    (1989) Coordinately and differentially mutable activities of torpedo, the Drosophilamelanogaster homolog of the vertebrate EGF receptor gene. Genetics 123, 771787
    OpenUrlAbstract/FREE Full Text
    1. Fasano L.,
    2. Kerridge S.
    (1988) Monitoring positional information during oogenesis in adult Drosophila. Development 104, 245253
    OpenUrlAbstract
    1. González-Reyes A.,
    2. Elliott H.,
    3. St Johnston D.
    (1995) Polarization of both major body axes in Drosophila by gurken-torpedo signalling. Nature 375, 654658
    OpenUrlCrossRefPubMedWeb of Science
    1. González-Reyes A.,
    2. Elliott H.,
    3. St Johnston D.
    (1997) Oocyte determination and the origin of polarity in Drosophila: the role of the spindle genes. Development 124, 49274937
    OpenUrlAbstract
    1. González-Reyes A.,
    2. St Johnston D.
    (1994) Role of oocyte positioning in establishment of anterior-posterior polarity in Drosophila. Science 266, 639642
    OpenUrlAbstract/FREE Full Text
    1. Goode S.,
    2. Melnick M.,
    3. Chou T.-B.,
    4. Perrimon N.
    (1996) The neurogenic genes egghead and brainiac define a novel signaling pathway essential for epithelial morphogenesis during Drosophila oogenesis. Development 122, 38633879
    OpenUrlAbstract
    1. Grossniklaus U.,
    2. Bellen H. J.,
    3. Wilson C.,
    4. Gehring W. J.
    (1989) P-element-mediated enhancer detection applaied to the study of oogenesis in Drosophila. Development 107, 189200
    OpenUrlAbstract
    1. Koch E.,
    2. Spitzer R.
    (1983) Multiple effects of colchicine on oogenesis in Drosophila; Induced sterility and switch of potencial oocyte to nurse-cell developmental pathway. Cell Tissue Res 228, 2132
    OpenUrlPubMedWeb of Science
    1. Lane M.,
    2. Kalderon D.
    (1994) RNA localization along the anteroposterior axis of the Drosophila oocyte requires PKA-mediated signal transduction to direct normal microtubule organization. Genes Dev 8, 29862995
    OpenUrlAbstract/FREE Full Text
    1. Lee T.,
    2. Montell D.
    (1997) Multiple ras signals pattern the Drosophila ovarian follicle cells. Dev. Biol 185, 2533
    OpenUrlCrossRefPubMedWeb of Science
    1. Lehmann R.
    (1995) Cell-cell signaling, microtubules, and the loss of symmetry in the Drosophila oocyte. Cell 83, 353356
    OpenUrlCrossRefPubMedWeb of Science
    1. Lin H.,
    2. Spradling A.
    (1993) Germline stem cell division and egg chamber development in transplanted Drosophila germaria. Dev. Biol 159, 140152
    OpenUrlCrossRefPubMedWeb of Science
    1. Margolis J.,
    2. Spradling A.
    (1995) Identification and behavior of epithelial stem cells in the Drosophila ovary. Development 121, 37973807
    OpenUrlAbstract
    1. Micklem D.,
    2. Dasgupta R.,
    3. Elliott H.,
    4. Gergely F.,
    5. Davies C.,
    6. Brand A.,
    7. González-Reyes A.,
    8. St Johnston D.
    (1997) The magonashi gene is required for the polarisation of the oocyte and the formation of perpendicular axes in Drosophila. Current Biology 7, 468478
    OpenUrlCrossRefPubMedWeb of Science
    1. Montell D.,
    2. Rorth P.,
    3. Spradling A.
    (1992) slow border cells, a locus required for a developmentally regulated cell migration during oogenesis, encodes Drosophila C/EBP. Cell 71, 5162
    OpenUrlCrossRefPubMedWeb of Science
    1. Neuman-Silberberg F.,
    2. Schupbach T.
    (1993) The Drosophila dorsoventral patterning gene gurken produces a dorsally localized RNA and encodes a TGFlike protein. Cell 75, 165174
    OpenUrlCrossRefPubMedWeb of Science
    1. Neuman-Silberberg F.,
    2. Schupbach T.
    (1996) The Drosophila TGF-like protein Gurken: expression and cellular localisation during Drosophila oogenesis. Mech. Dev 59, 105113
    OpenUrlCrossRefPubMedWeb of Science
    1. Pokrywka N.,
    2. Stephenson E.
    (1995) Microtubules are a general component of mRNA localization systems in Drosophila oocytes. Dev. Biol 167, 363370
    OpenUrlCrossRefPubMedWeb of Science
    1. Pokrywka N. J.,
    2. Stephenson E. C.
    (1991) Microtubules mediate the localization of bicoid RNA during Drosophila oogenesis. Development 113, 5566
    OpenUrlAbstract
    1. Ray R. P.,
    2. Schupbach T.
    (1996) Intercellular signaling and the polarization of body axes during Drosophila oogenesis. Genes Dev 10, 17111723
    OpenUrlFREE Full Text
    1. Roth S.,
    2. Neuman-Silberberg F. S.,
    3. Barcelo G.,
    4. Schupbach T.
    (1995) cornichon and the EGF receptor signaling process are necessary for both anterior-posterior and dorsal-ventral pattern formation in Drosophila. Cell 81, 967978
    OpenUrlCrossRefPubMedWeb of Science
    1. Ruohola H.,
    2. Bremer K. A.,
    3. Baker D.,
    4. Sedlow J. R.,
    5. Jan L. Y.,
    6. Jan Y. N.
    (1991) Role of neurogenic genes in establishment of follicle cell fate and oocyte polarity during oogenesis in Drosophila. Cell 66, 433449
    OpenUrlCrossRefPubMedWeb of Science
    1. Schupbach T.
    (1987) Germ line and soma cooperate during oogenesis to establish the dorsoventral pattern of egg shell and embryo in Drosophila melanogaster. Cell 49, 699707
    OpenUrlCrossRefPubMedWeb of Science
    1. Shellenbarger D.,
    2. Mohler J.
    (1978) Temperature sensitive periods and autonomy of pleiotropic effects of l(1)Nts, a conditional Notch lethal in Drosophila. Dev. Biol 62, 432446
    OpenUrlCrossRefPubMedWeb of Science
    1. Simpson P.
    (1997) Notch signalling in development: on equivalence groups and asymmetric developmental potential. Curr. Op. Gen. Dev 7, 537542
    OpenUrlCrossRefPubMedWeb of Science
    1. St Johnston D.,
    2. Beuchle D.,
    3. Nusslein-Volhard C.
    (1991) staufen, a gene required to localize maternal RNAs in the Drosophila egg. Cell 66, 5163
    OpenUrlCrossRefPubMedWeb of Science
    1. Theurkauf W.,
    2. Smiley S.,
    3. Wong M.,
    4. Alberts B.
    (1992) Reorganization of the cytoskeleton during Drosophila oogenesis: implications for axis specification and intercellular transport. Development 115, 923936
    OpenUrlAbstract
    1. Xu T.,
    2. Caron L.,
    3. Fehon R.,
    4. Artavanis-Tsakonas S.
    (1992) The involvement of the Notch locus in Drosophila oogenesis. Development 115, 913922
    OpenUrlAbstract
    1. Xu T.,
    2. Rubin G.
    (1993) Analysis of genetic mosaics. Development 117, 12231237
    OpenUrlAbstract
Back to top

 Download PDF

Email
JOURNAL ARTICLES
Patterning of the follicle cell epithelium along the anterior-posterior axis during Drosophila oogenesis
A. Gonzalez-Reyes, D. St Johnston
Development 1998 125: 2837-2846;
del.icio.us logo Digg logo Reddit logo Twitter logo CiteULike logo Facebook logo Google logo Mendeley logo
Citation Tools
Alerts

Article navigation

Other journals from The Company of Biologists

Advertisement

Kathryn Virginia Anderson (1952-2020)

Developmental geneticist Kathryn Anderson passed away at home on 30 November 2020. Tamara Caspary, a former postdoc and friend, remembers Kathryn and her remarkable contribution to developmental biology.

Zooming into 2021

In a new Editorial, Editor-in-Chief James Briscoe and Executive Editor Katherine Brown reflect on the triumphs and tribulations of the last 12 months, and look towards a hopefully calmer and more predictable year.

Read & Publish participation extends worldwide

Over 60 institutions in 12 countries are now participating in our Read & Publish initiative. Here, James Briscoe explains what this means for his institution, The Francis Crick Institute. Find out more and view our full list of participating institutions.

Upcoming special issues

Imaging Development, Stem Cells and Regeneration
Submission deadline: 30 March 2021
Publication: mid-2021

The Immune System in Development and Regeneration
Guest editors: Florent Ginhoux and Paul Martin
Submission deadline: 1 September 2021
Publication: Spring 2022

Both special issues welcome Review articles as well as Research articles, and will be widely promoted online and at key global conferences.

Development presents...

Our successful webinar series continues into 2021, with early-career researchers presenting their papers and a chance to virtually network with the developmental biology community afterwards. Sign up to join our next session:

10 February
Time: 13:00 (GMT)
Chaired by: preLights