Eric T. Choi scite author profile

There are multiple sources of reactive oxygen species (ROS) in the cell. As a major site of ROS production, mitochondria have drawn considerable interest because it was recently discovered that mitochondrial ROS (mtROS) directly stimulate the production of proinflammatory cytokines and pathological conditions as diverse as malignancies, autoimmune diseases, and cardiovascular diseases all share common phenotype of increased mtROS production above basal levels. Several excellent reviews on this topic have been published, but ever-changing new discoveries mandated a more up-to-date and comprehensive review on this topic. Therefore, we update recent understanding of how mitochondria generate and regulate the production of mtROS and the function of mtROS both in physiological and pathological conditions. In addition, we describe newly developed methods to probe or scavenge mtROS and compare these methods in detail. Thorough understanding of this topic and the application of mtROS-targeting drugs in the research is significant towards development of better therapies to combat inflammatory diseases and inflammatory malignancies.

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Early Hyperlipidemia Promotes Endothelial Activation via a Caspase-1-Sirtuin 1 Pathway

Yin

Sha

et al. 2015

ATVB

173

223

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Objective The role of receptors for endogenous metabolic danger signals-associated molecular patterns (DAMPs) has been characterized recently as bridging innate immune sensory systems for DAMPs to initiation of inflammation in bone marrow-derived cells such as macrophages. However, it remains unknown whether endothelial cells (ECs), the cell type with the largest numbers and the first vessel cell type exposed to circulating DAMPs in the blood, can sense hyperlipidemia. This report determined whether caspase-1 plays a role in ECs in sensing hyperlipidemia and promoting EC activation. Approach and Results Using biochemical, immunological, pathological and bone marrow transplantation methods together with the generation of new apoplipoprotein E (ApoE)−/−/caspase-1−/− double knock-out mice we made the following observations: 1) early hyperlipidemia induced caspase-1 activation in ApoE−/− mouse aorta; 2) caspase-1−/−/ApoE−/− mice attenuated early atherosclerosis; 3) caspase-1−/−/ApoE−/− mice had decreased aortic expression of pro-inflammatory cytokines and attenuated aortic monocyte recruitment; and 4) caspase-1−/−/ApoE−/− mice had decreased EC activation including reduced adhesion molecule expression and cytokine secretion. Mechanistically, oxidized lipids activated caspase-1 and promoted pyroptosis in ECs by a ROS mechanism. Caspase-1 inhibition resulted in accumulation of sirtuin 1 (Sirt1) in the ApoE−/− aorta, and Sirt1 inhibited caspase-1 upregulated genes via activator protein-1 (AP-1) pathway. Conclusions Our results demonstrate for the first time that early hyperlipidemia promotes EC activation before monocyte recruitment via a caspase-1-Sirt1-AP-1 pathway, which provides an important insight into the development of novel therapeutics for blocking caspase-1 activation as early intervention of metabolic cardiovascular diseases and inflammations.

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Anastomotic intimal hyperplasia: Mechanical injury or flow induced

Bassiouny¹,

White²,

Glagov³

et al. 1992

Journal of Vascular Surgery

382

192

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MICU1 Motifs Define Mitochondrial Calcium Uniporter Binding and Activity

et al. 2013

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SUMMARY Resting mitochondrial matrix Ca2+ is maintained through a MICU1-established threshold inhibition of MCU activity. It is not known how MICU1 interacts with MCU to establish this Ca2+ threshold for mitochondrial Ca2+ uptake and MCU activity. Here, we show that MICU1 localizes to the mitochondrial matrix side of the inner mitochondrial membrane and MICU1/MCU binding is determined by a MICU1 N-terminal polybasic domain and two interacting coiled-coil domains of MCU. Further investigation reveals MICU1 forms homo-oligomers, and this oligomerization is independent of the polybasic region. However the polybasic region confers MICU1 oligomeric binding to MCU and controls mitochondrial Ca2+ current (IMCU). Moreover, MICU1 EF-hands regulate MCU channel activity but do not determine MCU binding. Loss of MICU1 promotes MCU activation leading to oxidative burden and a halt to cell migration. These studies establish a molecular mechanism for MICU1 control of MCU-mediated mitochondrial Ca2+ accumulation, and dysregulation of this mechanism likely enhances vascular dysfunction.

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Type II endoleak after endovascular abdominal aortic aneurysm repair: a conservative approach with selective intervention is safe and cost-effective

Steinmetz¹,

Rubin²,

Sánchez³

et al. 2004

Journal of Vascular Surgery

170

130

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Eric T. Choi

Targeting mitochondrial reactive oxygen species as novel therapy for inflammatory diseases and cancers

Early Hyperlipidemia Promotes Endothelial Activation via a Caspase-1-Sirtuin 1 Pathway

Anastomotic intimal hyperplasia: Mechanical injury or flow induced

MICU1 Motifs Define Mitochondrial Calcium Uniporter Binding and Activity

Type II endoleak after endovascular abdominal aortic aneurysm repair: a conservative approach with selective intervention is safe and cost-effective

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