Background: The conserved cytokine-induced apoptosis inhibitor-1 (CIAPIN1) gene has been implicated in several processes, such as apoptosis, cell division, angiogenesis and Fe/S protein biogenesis. In this study, we identified the Drosophila CIAPIN1 homologue (D-CIAPIN1) and studied its role in ovarian development.
Results: We found that D-CIAPIN1 is conserved as it can complement the nonviability of the yeast CIAPIN1-deletion strain. Several D-CIAPIN1 alleles were identified, including one allele in which that codon encoding the highly conserved twin cysteine CX2 C motif is mutated, demonstrating for the first time the importance of this motif to protein function. We demonstrated D-CIAPIN1 is an essential gene required for ovarian development. We found that D-CIAPIN1 female mutants are sterile, containing rudimentary ovaries. We noted a decrease in follicle cell numbers in D-CIAPIN1 mutant egg chambers. We further demonstrated that the decrease in follicle cell numbers in D-CIAPIN1 mutants is due to a reduced mitotic index and enhanced cell death.
Conclusions: Our study reveals that D-CIAPIN1 is essential for egg chamber development and is required for follicle cell proliferation and survival.
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