Anastasis Drives Senescence and Non-Cell Autonomous Neurodegeneration in the Astrogliopathy Alexander Disease

Abstract

Anastasis is a recently described process in which cells recover after late-stage apoptosis activation. The functional consequences of anastasis for cells and tissues are not clearly understood. UsingDrosophila, rat and human cells and tissues, including analyses of both males and females, we present evidence that glia undergoing anastasis in the primary astrogliopathy Alexander disease subsequently express hallmarks of senescence. These senescent glia promote non-cell autonomous death of neurons by secreting interleukin family cytokines. Our findings demonstrate that anastasis can be dysfunctional in neurologic disease by inducing a toxic senescent population of astroglia.SIGNIFICANCE STATEMENTUnder some conditions cells otherwise destined to die can be rescued just before death in a process called anastasis, or “rising from the dead.” The fate and function of cells undergoing a near death experience is not well understood. Here, we find that in models and patient cells from Alexander disease, an important brain disorder in which glial cells promote neuronal dysfunction and death, anastasis of astrocytic glia leads to secretion of toxic signaling molecules and neurodegeneration. These studies demonstrate a previously unexpected deleterious consequence of rescuing cells on the brink of death and suggest therapeutic strategies for Alexander disease and related disorders of glia.