The mitochondrial permeability transition in cell death: a common mechanism in necrosis, apoptosis and autophagy

Lemasters, John J.; Nieminen, Anna‐Liisa; Qian, Ting; Trost, Lawrence C.; Elmore, Steven P.; Nishimura, Y; Crowe, Ruth A.; Cascio, Wayne E.; Bradham, Cynthia A.; Brenner, David A.; Herman, Brian

doi:10.1016/s0005-2728(98)00112-1

Cited by 1,251 publications

(859 citation statements)

References 109 publications

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“…As a matter of fact, a similar description of mitophagy preceding cell death was observed in mammals, where selective removal of mitochondria was reported to target nonfunctional organelles when the apoptotic programme was blocked at a postmitochondrial stage 14,[17][18][19] (after the release of apoptogenic factors from the organelles), or when mitochondria carry deleterious DNA mutations. 38 Whether this mitochondrial degradation results from direct lysosomal uptake 18,38 or from autophagosomal sequestration 15,17 is still unclear, but under these conditions, mitophagy would control the scavenging of damaged mitochondria.…”

Section: Discussionmentioning

confidence: 62%

“…Recent studies report that type II PCD (autophagy) could substitute for defective type I PCD (apoptosis), suggesting (i) that autophagy could be physiologically triggered by other means besides nutritional stress, and (ii) that autophagy could be an alternative to apoptosis. 14,15 It has therefore become essential to characterise the interactions (if any) between type I and type II PCD. During apoptosis, mitochondria are acknowledged as a central element; recently, some reports have suggested the involvement of mitochondria in autophagy also.…”

Section: Introductionmentioning

confidence: 99%

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Impairing the bioenergetic status and the biogenesis of mitochondria triggers mitophagy in yeast

et al. 2005

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Autophagy, a highly regulated programme found in almost all eukaryotes, is mainly viewed as a catabolic process that degrades nonessential cellular components into molecular building blocks, subsequently available for biosynthesis at a lesser expense than de novo synthesis. Autophagy is largely known to be regulated by nutritional conditions. Here we show that, in yeast cells grown under nonstarving conditions, autophagy can be induced by mitochondrial dysfunction. Electron micrographs and biochemical studies show that an autophagic activity can result from impairing the mitochondrial electrochemical transmembrane potential. Furthermore, mitochondrial damage-induced autophagy results in the preferential degradation of impaired mitochondria (mitophagy), before leading to cell death. Mitophagy appears to rely on classical macroautophagy machinery while being independent of cellular ATP collapse. These results suggest that in this case, autophagy can be envisioned either as a process of mitochondrial quality control, or as an ultimate cellular response triggered when cells are overwhelmed with damaged mitochondria.

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Section: Discussionmentioning

confidence: 62%

Section: Introductionmentioning

confidence: 99%

Impairing the bioenergetic status and the biogenesis of mitochondria triggers mitophagy in yeast

et al. 2005

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“…Prolonged opening of the PTP leads to the previously mentioned effects, exposes cytosol to the contents of the mitochondria, and culminates in cell death (Debatin et al, 2002;Newmeyer and Ferguson-Miller, 2003). Interestingly, mitochondrial permeability transition can lead to both apoptosis and necrosis (Lemasters et al, 1998). CKMT1 is located in the intermembrane space and also interacts with VDAC -ANT complexes (Marzo et al, 1998).…”

Section: Discussionmentioning

confidence: 99%

Ubiquitous mitochondrial creatine kinase downregulated in oral squamous cell carcinoma

et al. 2006

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In this study, we performed two-dimensional electrophoresis (2-DE) and matrix-assisted laser desorption/ionisation time of fly mass spectrometry to identify the protein(s) associated with the development of oral squamous cell carcinomas (OSCCs) by comparing patterns of OSCC-derived cell lines with normal oral keratinocytes (NOKs), and found that downregulation of ubiquitous mitochondrial creatine kinase (CKMT1) could be a good candidate. Decreased levels of CKMT1 mRNA and protein were detected in all OSCC-derived cell lines examined (n ¼ 9) when compared to those in primary normal oral keratinocytes. Although no sequence variation in the coding region of the CKMT1 gene with the exception of a nonsense mutation in exon 8 was identified in these cell lines, we found a frequent hypermethylation in the CpG island region. CKMT1 expression was restored by experimental demethylation. In addition, when we transfected CKMT1 into the cell lines, they showed an apoptotic phenotype but no invasiveness. In clinical samples, high frequencies of CKMT1 downregulation were detected by immunohistochemistry (19 of 52 (37%)) and quantitative real-time RT -PCR (21 of 50 (42%)). Furthermore, the CKMT1 expression status was significantly correlated with tumour differentiation (Po0.0001). These results suggest that the CKMT1 gene is frequently inactivated during oral carcinogenesis and that an epigenetic mechanism may regulate loss of expression, which may lead to block apoptosis.

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“…The mitochondrial permeability transition (MPT) refers to an increase in the permeability of the inner mitochondrial membrane caused by nonselective agents, in apoptotic and necrotic cells (Lemasters et al, 1998). This condition is associated with membrane depolarization and collapse of the transmembrane potential (⌬⌿m).…”

mentioning

confidence: 99%

Morphology of mitochondrial permeability transition: Morphometric volumetry in apoptotic cells

et al. 2004

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Here we report on the mitochondrial permeability transition (MPT), which refers to the morphology of mitochondria whose inner membrane has lost its selective permeability. In all types of apoptotic cells so far examined, we found outer mitochondrial membranes that had been ruptured. These mitochondria present a swollen matrix covered by an inner membrane herniating into the cytoplasm through the breached outer membrane. Similarly ruptured outer mitochondrial membranes have been reported in studies on mitochondrial fractions induced to undergo MPT, carried out by others. Our observations were made on five types of rat tissue cells and six different cultured cell lines in the early stages of apoptosis. Samples from the cell lines HL-60, HeLa, WEHI-164, and a special batch of PC-12 cells were subjected to various apoptogenic agents and analyzed morphometrically. Nonapoptotic companion cells with unaltered nuclear structure (CUNS) were also analyzed. The mitochondrial volume in m 3 and the volume fraction of the cytoplasm occupied by mitochondria in cells with typical nuclear signs of apoptosis and also in CUNS were evaluated. The volume of the mitochondria with ruptured membrane represents at least 69% (47-89%) of the total mitochondrial volume of the apoptotic cells. Thus, a considerable fraction of the cellular mitochondrial mass is or was in the state of permeability transition and probably involved in enhancement of the apoptotic program. In all samples, a fraction of the cells with normal nuclei possessed mitochondria with breached outer membranes as described above. In these cells, MPT occurred before the appearance of the typical nuclear phenotype of the apoptotic cells.

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The mitochondrial permeability transition in cell death: a common mechanism in necrosis, apoptosis and autophagy

Cited by 1,251 publications

References 109 publications

Impairing the bioenergetic status and the biogenesis of mitochondria triggers mitophagy in yeast

Impairing the bioenergetic status and the biogenesis of mitochondria triggers mitophagy in yeast

Ubiquitous mitochondrial creatine kinase downregulated in oral squamous cell carcinoma

Morphology of mitochondrial permeability transition: Morphometric volumetry in apoptotic cells

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