- Alexander von Appen
- Jan Brugués
- Dye / Eaton
- Anne Grapin-Botton
- Stephan Grill
- Pierre Haas
- Alf Honigmann
- Meritxell Huch
- Wieland Huttner
- Anthony Hyman
- Elisabeth Knust
- Moritz Kreysing
- Rita Mateus
- Carl Modes
- Gene Myers
- André Nadler
- Jonathan Rodenfels
- Ivo Sbalzarini
- Andrej Shevchenko
- Jacqueline Tabler
- Dora Tang
- Pavel Tomancak
- Agnes Toth-Petroczy
- Jesse Veenvliet
- Christoph Zechner
- Marino Zerial
Our research concentrates on the evolutionarily conserved Crumbs (Crb) protein complex. crumbs encodes a large transmembrane protein, with 29 EGF-like repeats and four laminin A G-domain-like repeats in its extracellular domain. The small cytoplasmic domain of only 37 amino acids binds Stardust, a member of the membrane associated guanylate kinase (MAGUK) family. Stardust recruits two additional scaffolding proteins, DLin-7 and DPATJ, into the protein complex.
1) The Drosophila Crumbs protein complex is required for epithelial cell polarity in the embryo
The Crb protein complex is expressed in all epithelia derived from the ectoderm (epidermis, fore- and hindgut, Malpighian tubules, salivary glands), where it is localised in the subapical region apical to the zonula adherens.
A Drosophila embryo expressing a GFP-tagged Crumbs protein. Anterior is left, dorsal up [Sven Klose, unpublished].
2) The Drosophila Crumbs protein complex is required for photoreceptor morphogenesis
Photoreceptors develop from epithelial cells by a complex morphogenetic process. During this process and in adult photoreceptor cells, the Crumbs protein complex is localised in the stalk membrane, a region of the apical membrane between the rhabdomere and the zonula adherens, which corresponds topologically to the subapical region of epithelial cells. Loss of crumbs, stardust or DPATJ prevents the morphogenesis of the photoreceptor cells.
Cross-section through a Drosophila ommatidum. The apical membrane is subdivided into the most apical part, the rhabdomere (blue), a highly pleated membrane that contains the components of the light-induced signal transduction cascade, and the stalk (red), where the Crb complex is localized [Natalia Bulgakova, unpublished]
3) The Drosophila Crumbs protein complex prevents light-dependent retinal degeneration
crb, sdt and DLin-7 are essential to prevent light-induced retinal degeneration. This phenotype is reminiscent to that induced by mutations in one of the three human crumbs homologues, Crb1, which lead to Retinitis pigmentosa 12, a retinal dystrophy characterised by an early onset blindness. This similarity makes Drosophila an ideal model to study the cellular, molecular and genetic basis of this disease.
Cross-sections through a wild-type and a crb mutant eye kept in constant illumination for 7 days. Most mutant photoreceptor cells have degenerated [From: Johnson et al., 2002]
4) Differentiation and maintenance of polarity in zebrafish photoreceptor cells.
Photoreceptors develop from neuroepithelial cells. Their differentiation requires mechanisms to establish and maintain a pronounced apico-basal polarity. As in Drosophila photoreceptor cells, the vertebrate Crb protein complex is localized apical to the adherens junctions, on the inner segment. We are studying the role of members of the Crb complex in the zebrafish retina, in particular during formation and the maintenance of apico-basal polarity.
The retina of a zebrafish (72 hours post fertilization). Crb (green) is localized apical to the adherens junction (red). Nuclei are stained in blue [Marta Luz, unpublished].