fc177, a Minor dec-1 Proprotein, Is Necessary to Prevent Ectopic Aggregation of the Endochorion During Eggshell Assembly in Drosophila

The Drosophila eggshell is a highly specialized extracellular matrix that forms between the oocyte and the surrounding epithelial follicle cells during late oogenesis. The dec-1 gene, which is required for proper eggshell assembly, produces three proproteins that are cleaved within the vitelline membrane layer to multiple derivatives. The different spatial distributions of the cleaved derivatives suggest that they play distinct roles in eggshell assembly. Using extant dec-1 mutations in conjunction with genetically engineered dec-1 transgenes, we show that, although all three dec-1 proproteins, fc106, fc125, and fc177, are required for female fertility, gross morphological abnormalities in the eggshell are observed only in the absence of fc177. The coalescence of the roof, pillar, and floor substructures of the tripartite endochorion suggested that quantitatively minor fc177 derivatives are necessary to prevent ectopic aggregation of endochorion proteins during the assembly process. Expression of a fc177 cDNA in dec-1 null mutants was sufficient to restore spaces within the endochorion layer. Fc177 may function as a scaffolding protein akin to those utilized in viral morphogenesis

Drosophila dec-1 Eggshell Proteins Are Differentially Distributed via a Multistep Extracellular Processing and Localization Pathway

In Drosophila the multilayered eggshell forms during late oogenesis between the oocyte and the overlaying follicle cells. Proper eggshell assembly requires wild-type dec-1 gene function. Alternatively spliced dec-1 transcripts encode three proproteins that are cleaved extracellularly in a stage-specific manner to at least five distinct derivatives. Using polyclonal antibodies raised against fusion proteins containing different regions of the dec-1 proteins, we have localized several dec-1 derivatives in the assembling and completed eggshell. Although all of the dec-1 derivatives are generated in the oocyte proximal vitelline membrane layer, they are differentially distributed in the mature egg. Some derivatives are gradually released from the vitelline membrane and become localized within distinct regions of the chorion, while others are taken up by the oocyte or become concentrated in the endochorionic spaces or cavities. The diverse distributions of the dec-1 derivatives suggest that each derivative plays a distinct role in eggshell assembly. These results also suggest that the vitelline membrane layer, by acting as a transient storage site, may control the availability of molecules active in eggshell assembly and by extension perhaps other follicle cell products important in early embryonic pattern formation