Litcius/Paper detail

Autocrine glutamate signaling drives cell competition in Drosophila

Carmo Castilho Soares, Alberto Rizzo, Marta Forés Maresma, Pascal Meier

2024Developmental Cell11 citationsDOIOpen Access PDF

Abstract

Cell competition is an evolutionarily conserved quality control process that eliminates suboptimal or potentially dangerous cells. Although differential metabolic states act as direct drivers of competition, how these are measured across tissues is not understood. Here, we demonstrate that vesicular glutamate transporter (VGlut) and autocrine glutamate signaling are required for cell competition and Myc-driven super-competition in the Drosophila epithelia. We find that the loss of glutamate-stimulated VGlut>NMDAR>CaMKII>CrebB signaling triggers loser status and cell death under competitive settings via the autocrine induction of TNF. This in turn drives TNFR>JNK activation, triggering loser cell elimination and PDK/LDH-dependent metabolic reprogramming. Inhibiting caspases or preventing loser cells from transferring lactate to their neighbors nullifies cell competition. Further, in a Drosophila model for premalignancy, Myc-overexpressing clones co-opt this signaling circuit to acquire super-competitor status. Targeting glutamate signaling converts Myc "super-competitor" clones into "losers," highlighting new therapeutic opportunities to restrict the evolution of fitter clones.

Topics & Concepts

Autocrine signallingBiologyCell biologyGlutamate receptorSignal transductionCellCell signalingParacrine signallingGeneticsCell cultureReceptorNeurobiology and Insect Physiology ResearchGenetics, Aging, and Longevity in Model OrganismsHippo pathway signaling and YAP/TAZ