Carole Sidoti-de Fraisse scite author profile

Apoptosis, the process whereby cells activate an intrinsic death program, can be induced in HeLa cells by TNF-a treatment. The aims of the present study were (i) to examine the precise role and the origin of Reactive Oxygen Species (ROS) in the TNF-a-induced programmed cell death, (ii) to characterize and order the morphological and mitochondrial changes associated with this process and (iii) to link these events with the activation of caspases. Analyses were performed on TNF-a-treated cells in the presence of an anti-oxidant, or of a general caspase inhibitor. To assess the role of mitochondria in the cell death signal transduction, these studies were also realized on HeLa-variant cell lines lacking functional mitochondrial respiratory chain. We show that at least two separate signaling cascades, both mediated by Z-VAD-sensitive caspase(s), contribute to the TNF-a-induced apoptosis of HeLa cells. One signaling pathway involves an early mitochondriadependent ROS production, the other being ROSindependent.

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IL-4 inhibits apoptosis and prevents mitochondrial damage without inducing the switch to necrosis observed with caspase inhibitors

Lemaire

Andréau

Fraisse

et al. 1999

Cell Death Differ

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We previously demonstrated that the broad-spectrum caspase inhibitor, zVAD-fmk, totally deviated apoptosis to necrosis in B lymphocytes. We report here that, in contrast with zVAD-fmk, IL-4 protected B cells from spontaneous and from dexamethasone-induced apoptosis and actually maintained cell viability. This was assessed by morphological and biochemical criteria and accompanied by the maintenance of mitochondrial transmembrane potential (DCm) and elevated glutathione (GSH) levels. Under these conditions, zVAD-fmk also totally inhibited apoptosis in thymocytes, but it partly preserved cell viability with a parallel increase in the percentage of cells exhibiting high DCm and elevated GSH levels. Nevertheless, non-rescued cells were deviated to necrosis. Therefore, the pathway leading to either apoptosis or necrosis appears to involve common mitochondrial dysfunctions which could not be reversed by caspase inhibition, suggesting that the pharmacological inhibition of cell death should occur at an earlier stage.

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Carole Sidoti-de Fraisse

TNF-α activates at least two apoptotic signaling cascades

IL-4 inhibits apoptosis and prevents mitochondrial damage without inducing the switch to necrosis observed with caspase inhibitors

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