2016
DOI: 10.3389/fnagi.2016.00308
|View full text |Cite
|
Sign up to set email alerts
|

The Protective Role of Mitochondrial Ferritin on Erastin-Induced Ferroptosis

Abstract: Ferroptosis, a newly identified form of regulated cell death, is characterized by overwhelming iron-dependent accumulation of lethal lipid reactive oxygen species (ROS). Preventing cellular iron overload by reducing iron uptake and increasing iron storage may contribute to inhibit ferroptosis. Mitochondrial ferritin (FtMt) is an iron-storage protein that is located in the mitochondria, which has a significant role in modulating cellular iron metabolism. Recent studies showed that FtMt played inhibitory effects… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1
1

Citation Types

1
172
0
2

Year Published

2017
2017
2024
2024

Publication Types

Select...
8
1

Relationship

0
9

Authors

Journals

citations
Cited by 237 publications
(189 citation statements)
references
References 35 publications
1
172
0
2
Order By: Relevance
“…As can be seen in Figure 3d, 20 h treatment with 20 μM erastin leads to a significant reduction in {Δψ m / NAD(p)H} ratio of MDA231 while this ratio was unaltered in MCF7 cells. Figure 3e shows that erastin treatment is accompanied by a significant increase in ROS generation in MDA231 cells (and not in MCF7 cells) which concurs with earlier published studies on the mechanism of action for this small molecule drug (38,39,41). Together, this result points to the fact that {Δψ m /NAD(p)H} ratio is a reliable indicator of drug sensitivity and in this particular example, the changes in this metric might be associated with the excessive ROS generated by erastin in MDA231 cells.…”
Section: {δψ M /Nad(p)h} Ratiometry Reveals Potential In Sensing Drugsupporting
confidence: 91%
See 1 more Smart Citation
“…As can be seen in Figure 3d, 20 h treatment with 20 μM erastin leads to a significant reduction in {Δψ m / NAD(p)H} ratio of MDA231 while this ratio was unaltered in MCF7 cells. Figure 3e shows that erastin treatment is accompanied by a significant increase in ROS generation in MDA231 cells (and not in MCF7 cells) which concurs with earlier published studies on the mechanism of action for this small molecule drug (38,39,41). Together, this result points to the fact that {Δψ m /NAD(p)H} ratio is a reliable indicator of drug sensitivity and in this particular example, the changes in this metric might be associated with the excessive ROS generated by erastin in MDA231 cells.…”
Section: {δψ M /Nad(p)h} Ratiometry Reveals Potential In Sensing Drugsupporting
confidence: 91%
“…After confirming that these two cells have similar rotenone sensitivity, we next asked if the {Δψ m /NAD(p)H} ratio can reliably report differential drug sensitivity between these two cell lines. Toward this, we chose a small molecule drug, erastin that has been earlier shown to cause cytotoxicity only in cancer cells with mutations in Rasoncogene (36)(37)(38)(39)(40). MDA231 cells have been reported to display Ras-mutations while MCF7 cells are known to have wild-type Ras.…”
Section: {δψ M /Nad(p)h} Ratiometry Reveals Potential In Sensing Drugmentioning
confidence: 99%
“…A unifying mechanism potentially linking developmental VitE deficiency with many of the metabolic perturbations reported herein – all of which may perturb brain function – is ferroptosis, a process of non-apoptotic programmed cell death [51] that involves several key features observed in our E− larvae, most critically: 1) enhanced enzymatic lipid peroxidation [52], especially due to excessive ARA metabolism via 5- [53] and 15-lipooxygenase [54] activities (Figure 6A-B; including 5- and 15-HETE; 5-oxo-ETE [55]); 2) glutathione depletion [56] (Figure 7); and 3) mitochondrial dysfunction [57] (Figure 10). We also found E− larvae had increased levels of glutamate (p< 0.001; Supplementary Table 1) relative to E+ larvae, which could signify glutamate toxicity, another metabolic perturbation associated with ferroptosis [53] via inhibition of the cellular cysteine/glutamate antiporter system X c - [51].…”
Section: Discussionmentioning
confidence: 99%
“…Elevated mitochondrial iron causes oxidative stress, impairs mitochondrial function and leads to neuronal death (Munoz et al, 2016). Sequestering mitochondrial iron by overexpression of mitochondrial ferritin protects neuronal cells from multiple mitochondrial toxins in vitro (Shi et al, 2010;Wang et al, 2016;You et al, 2016).…”
Section: A C C E P T E D Accepted Manuscriptmentioning
confidence: 99%