AI Article Synopsis
- Research identifies Drosophila Ptp61F as a critical regulator of organ size, linking various biological pathways including Hippo, TOR, and actomyosin.
- Loss of Ptp61F contributes to tumor formation and increases body size by enhancing intestinal tumor growth and stem cell activity.
- The study highlights Ptp61F's role in cell shape regulation and reveals that the human equivalent, PTPN2, can replace its function in Drosophila.
Article Abstract
Precise organ size control is fundamental for all metazoans, but how organ size is controlled in a three-dimensional (3D) way remains largely unexplored at the molecular level. Here, we screen and identify Drosophila Ptp61F as a pivotal regulator of organ size that integrates the Hippo pathway, TOR pathway, and actomyosin machinery. Pathologically, Ptp61F loss synergizes with Ras to induce tumorigenesis. Physiologically, Ptp61F depletion increases body size and drives neoplastic intestinal tumor formation and stem cell proliferation. Ptp61F also regulates cell contractility and myosin activation and controls 3D cell shape by reducing cell height and horizontal cell size. Mechanistically, Ptp61F forms a complex with Expanded (Ex) and increases endosomal localization of Ex and Yki. Furthermore, we demonstrate that PTPN2, the conserved human ortholog of Ptp61F, can functionally substitute for Ptp61F in Drosophila. Our work defines Ptp61F as an essential determinant that controls 3D organ size under both physiological and pathological conditions.
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| http://dx.doi.org/10.1016/j.celrep.2022.111640 | DOI Listing |
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