Litcius/Paper detail

Area postrema neurons mediate interleukin-6 function in cancer cachexia

Qingtao Sun, Daniëlle van de Lisdonk, Miriam Ferrer, Bruno Gegenhuber, Melody V. Wu, Youngkyu Park, David A. Tuveson, Jessica Tollkühn, Tobias Janowitz, Bo Li

2024Nature Communications40 citationsDOIOpen Access PDF

Abstract

Interleukin-6 (IL-6) has been long considered a key player in cancer cachexia. It is believed that sustained elevation of IL-6 production during cancer progression causes brain dysfunctions, which ultimately result in cachexia. However, how peripheral IL-6 influences the brain remains poorly understood. Here we show that neurons in the area postrema (AP), a circumventricular structure in the hindbrain, is a critical mediator of IL-6 function in cancer cachexia in male mice. We find that circulating IL-6 can rapidly enter the AP and activate neurons in the AP and its associated network. Peripheral tumor, known to increase circulating IL-6, leads to elevated IL-6 in the AP, and causes potentiated excitatory synaptic transmission onto AP neurons and AP network hyperactivity. Remarkably, neutralization of IL-6 in the brain of tumor-bearing mice with an anti-IL-6 antibody attenuates cachexia and the hyperactivity in the AP network, and markedly prolongs lifespan. Furthermore, suppression of Il6ra, the gene encoding IL-6 receptor, specifically in AP neurons with CRISPR/dCas9 interference achieves similar effects. Silencing Gfral-expressing AP neurons also attenuates cancer cachectic phenotypes and AP network hyperactivity. Our study identifies a central mechanism underlying the function of peripheral IL-6, which may serve as a target for treating cancer cachexia.

Topics & Concepts

Area postremaCachexiaCancer cachexiaInterleukin 1βFunction (biology)MedicineCancerNeuroscienceInterleukinCancer researchBiologyCell biologyInternal medicineCytokineCentral nervous systemNutrition and Health in AgingGDF15 and Related BiomarkersIntensive Care Unit Cognitive Disorders