Abstract
Regulation of cell junctions is crucial for the integrity of epithelial tissues and organs. Cell junctions also play roles in controlling cell proliferation for organ growth. Translationally controlled tumor protein (TCTP) is a conserved protein involved in growth control, but its role in cell junctions is unknown. Here we show that Drosophila Tctp directly interacts with the septate junction protein Coracle (Cora) to regulate epithelial integrity and organ growth. Tctp localizes together with Cora in the epidermis of the embryo. Loss of Cora reduces the level of Tctp in the epidermis but not vice versa. cora/+ or Tctp/+ single heterozygotes develop normally to adulthood. However, double heterozygotes for cora and Tctp mutations show severe disruption of epithelia causing synthetic lethality in the embryo. Double knockdown of Cora and Tctp in eye imaginal disc synergistically leads to disruption of the eye disc, resulting in a severe reduction or loss of eye and head. Conversely, double knockdown of Cora and Tctp in wing disc causes overgrowth as well as cell death. Inhibition of cell death under this condition causes hyperplastic growth of the wing disc. Tctp also shows direct and functional interaction with Cora-associated factors like Yurt and Na+/K+-ATPase. This study suggests that proper levels of Tctp and Cora are essential for the maintenance of the Cora complex and the integrity of epithelia. Our data also provide evidence that both Cora and Tctp are required to suppress overgrowth in developing wing.
Highlights
Growth regulation is crucial for normal development in all animals
Controlled tumor protein (TCTP) is an evolutionarily conserved protein family implicated in cancer
We show that Tctp localizes together with the FERM domain protein Coracle (Cora) at the basolateral septate junctions in some tissues
Summary
Growth regulation is crucial for normal development in all animals. The development of animal organs depends on proliferation, cell growth, and cell death. These cellular events are regulated by diverse signaling pathways. TCTP is a protein family that has emerged as a multifaceted regulator of tissue growth and survival [1, 2, 3]. Mammalian TCTP is involved in the regulation of cell growth, cell cycle, apoptosis, malignant transformation, and other cellular processes by interacting with diverse proteins, including p53 and BCL [8, 9, 10, 11]
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