Vijayakumar Maya, A., Neuhaus, L., Nogay, L., Singh, A., Heckmann, L., Grass, I., Büscher, J., Kierdorf, K., Classen, A.K. (2025). A JAK/STAT-Pdk1-S6K axis bypasses systemic growth restrictions to promote regeneration. Nat. Commun. 16(1): 10944.
FlyBase ID
FBrf0264132
Publication Type
Research paper
Abstract
Inflammation triggers systemic growth restrictions, a process well characterised in tumour cachexia. Whether inflammatory tissue damage also induces growth restrictions, and how regenerating tissue overcome them, is less explored. Using a tissue damage model in Drosophila, we identify metabolic and signaling adaptations that both induce and bypass systemic growth restrictions. Expression of eiger, the Drosophila TNF-α homolog, in imaginal discs causes systemic insulin restriction and insulin resistance, reducing protein translation and proliferation in peripheral tissues. Regenerating cells overcome this by upregulating Pdk1, which is necessary and sufficient to promote protein translation via an Insulin/Akt-independent mechanism. JAK/STAT acts upstream to elevate Pdk1, defining a JAK/STAT-Pdk1-S6K axis essential for regenerative proliferation. Regenerating cells also upregulate amino acid transporters and rely on mTORC1. Similar signatures in Ras[V12], scrib tumors indicate that tumors co-opt these pathways to sustain growth under insulin restriction. This physiological program thus integrates systemic nutrient mobilization and local metabolic reprogramming, with implications for tissue repair but also pathologies, such as chronic wounds and cancer.
