Regulation of proliferation and cell death is fundamental for organismal development and for restoring tissue homeostasis after biological stress. During the last years, several forms of regulated cell death have been discovered that share the loss of plasma membrane integrity as a common hallmark and that are collectively known as regulated necrosis (RN) pathways. During RN, plasma membrane damage is sensed by the cell by increases in the levels of intracellular calcium. Interestingly, cytosolic calcium influx can either lead to cell death or survival, given the versatile role of this ion in regulating multiple signaling processes. Among them, membrane repair enables the cells to tolerate the injury and, even in some conditions, survive. Here, we review calcium signaling in the context of RN pathways, with a focus on ferroptosis, a type of RN in which plasma membrane damage is elicited by the accumulation of oxidized lipids. In contrast, other forms of RN such as necroptosis and pyroptosis require dedicated pore-forming proteins for plasma membrane damage and cell death. We first focus on the current knowledge regarding the contribution of calcium to ferroptosis, and then illustrate the similarities and differences in calcium signaling with necroptosis and pyroptosis. Calcium signaling emerges as a key event in the cellular responses to membrane damage and in the regulation of cell death.
Keywords: Calcium signaling; Ferroptosis; Membrane permeabilization; Membrane repair mechanisms; Necroptosis; Pyroptosis.
Copyright © 2023 Elsevier Ltd. All rights reserved.