Mitochondria-Targeted Peptide Accelerates ATP Recovery and Reduces Ischemic Kidney Injury
Hazel H. Szeto,Shaoyi Liu,Yi Soong,Dunli Wu,Shaun Darrah,Feng Ying Cheng,Zhihong Zhao,Michael Ganger,Clara Y. Tow,Surya V. Seshan +9 more
TLDR
Treatment with SS-31 protected mitochondrial structure and respiration during early reperfusion, accelerated recovery of ATP, reduced apoptosis and necrosis of tubular cells, and abrogated tubular dysfunction, suggesting that it may protect against ischemic renal injury.Abstract:
The burst of reactive oxygen species (ROS) during reperfusion of ischemic tissues can trigger the opening of the mitochondrial permeability transition (MPT) pore, resulting in mitochondrial depolarization, decreased ATP synthesis, and increased ROS production. Rapid recovery of ATP upon reperfusion is essential for survival of tubular cells, and inhibition of oxidative damage can limit inflammation. SS-31 is a mitochondria-targeted tetrapeptide that can scavenge mitochondrial ROS and inhibit MPT, suggesting that it may protect against ischemic renal injury. Here, in a rat model of ischemia-reperfusion (IR) injury, treatment with SS-31 protected mitochondrial structure and respiration during early reperfusion, accelerated recovery of ATP, reduced apoptosis and necrosis of tubular cells, and abrogated tubular dysfunction. In addition, SS-31 reduced medullary vascular congestion, decreased IR-mediated oxidative stress and the inflammatory response, and accelerated the proliferation of surviving tubular cells as early as 1 day after reperfusion. In summary, these results support MPT as an upstream target for pharmacologic intervention in IR injury and support early protection of mitochondrial function as a therapeutic maneuver to prevent tubular apoptosis and necrosis, reduce oxidative stress, and reduce inflammation. SS-31 holds promise for the prevention and treatment of acute kidney injury.read more
Citations
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Mitochondrial therapy improves limb perfusion and myopathy following hindlimb ischemia.
Terence E. Ryan,Cameron A. Schmidt,Rick J. Alleman,Alvin M. Tsang,Thomas D. Green,P. Darrell Neufer,David Brown,Joseph M. McClung +7 more
TL;DR: Findings demonstrate an important link between ischemic tissue bioenergetics and limb blood flow and indicate that the mitochondria may be a pharmaceutical target for therapeutic intervention during critical limb ischemia.
Journal ArticleDOI
Protective effects of mitochondrion-targeted peptide SS-31 against hind limb ischemia-reperfusion injury.
TL;DR: The results demonstrate that SS-31 confers a protective effect in the mouse model of hind limb ischemia-reperfusion injury preventatively and therapeutically.
Journal ArticleDOI
Protective roles of bioactive peptides during ischemia-reperfusion injury: From bench to bedside
TL;DR: The mechanisms of action of peptides in reducing I/R injury are presented, as well as modification strategies to improve the functional properties of bioactive peptides are discussed.
Journal ArticleDOI
Rotenone ameliorates chronic renal injury caused by acute ischemia/reperfusion.
Wen Zhang,Yugen Sha,Ke Wei,Chunfeng Wu,Dan Ding,Yunwen Yang,Chunhua Zhu,Yue Zhang,Guixia Ding,Aihua Zhang,Zhanjun Jia,Songming Huang +11 more
TL;DR: It is suggested that inhibition of mitochondrial complex-1 activity by rotenone could retard the progression of AKI to CKD probably via protecting the mitochondrial function to some extent.
Journal ArticleDOI
Melatonin preconditioning is an effective strategy for mesenchymal stem cell‐based therapy for kidney disease
TL;DR: Current knowledge concerning the beneficial effects of melatonin preconditioning in MSC‐based therapy for kidney disease is discussed and the underlying mechanisms are discussed in a bid to improve the therapeutic effects of MSC-based therapy in kidney disease and accelerate translation to clinical application.
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