Abstract
BACKGROUND: Notch pathway is an evolutionarily conserved, highly pleiotropic signaling system that governs diverse developmental processes. Its diverse functions are attributed to the intricate regulatory mechanisms that finely tune the pathway. While several known elements contribute to maintaining cellular homeostasis by modulating Notch signaling, many unidentified components likely play significant roles in its regulation, necessitating further exploration. METHODS: To identify novel regulators of Notch-intracellular domain (Notch-ICD), we carried out a yeast two-hybrid screen and identified Multiple Ankyrin repeat single KH domain containing protein (Mask) as an interacting partner of Notch-ICD. Physical interaction between these two proteins was further validated by co-immunoprecipitation experiments. Moreover, cellular studies using immunocytochemistry reveals that Mask plays important role in Notch turnover and protect from degradation. To inhibit lysosomal degradation, chloroquine was introduced in the food at a concentration of 1 mg/ml. RESULTS: Immunocytochemical analyses revealed that Notch and Mask co-localised within the same subcellular compartments. Different alleles of mask showed strong genetic interactions with Notch pathway components in transheterozygous combinations. Loss- and gain-of-function studies of Mask demonstrated that it plays a regulatory role in Notch signaling. Specifically, the absence of Mask results in downregulation of Notch target genes, although it does not significantly affect endogenous Notch protein levels. Our data suggest that Mask positively regulates Notch signaling by stabilizing Notch-ICD and protecting it from lysosomal degradation. Treatment with 1 mg/ml chloroquine can mitigate the Mask loss-mediated Notch intracellular domain degradation. This study presents a novel mode of Notch signaling regulation mediated by the Ankyrin repeat-containing protein Mask. CONCLUSION: Here we provide evidence that Mask physically binds with Notch-ICD and positively regulates Notch signaling pathway by protecting it from degradation. Mask genetically interacts with Notch and Notch pathway components and absence of Mask affects the Notch signaling pathway thus it may control the hyper activation of the signaling.