Abstract
Hepatic ischemia/reperfusion (I/R) injury is a leading cause of organ dysfunction and failure in numerous pathological and surgical settings. At the core of this issue lies mitochondrial dysfunction. Hence, strategies that prime mitochondria towards damage resilience might prove applicable in a clinical setting. A promising approach has been to induce a mitohormetic response, removing less capable organelles, and replacing them with more competent ones, in preparation for an insult. Recently, a soluble form of adenylyl cyclase (sAC) has been shown to exist within mitochondria, the activation of which improved mitochondrial function. Here, we sought to understand if inhibiting mitochondrial sAC would elicit mitohormesis and protect the liver from I/R injury. Wistar male rats were pretreated with LRE1, a specific sAC inhibitor, prior to the induction of hepatic I/R injury, after which mitochondria were collected and their metabolic function was assessed. We find LRE1 to be an effective inducer of a mitohormetic response based on all parameters tested, a phenomenon that appears to require the activity of the NAD+-dependent sirtuin deacylase (SirT3) and the subsequent deacetylation of mitochondrial proteins. We conclude that LRE1 pretreatment leads to a mitohormetic response that protects mitochondrial function during I/R injury.
Highlights
Ischemia/reperfusion (I/R) injury is common but multifactorial event in many surgical situations and, in some cases, in pathological conditions
As such, exploring the mitohormetic capacity is a novel avenue to numerous diseases where mitochondrial function is involved [14,29]
Of great interest to mitochondrial biology are: (1) a transmembrane adenylyl cyclases (AC), bound to the outer membrane which produces cAMP that does not permeate the mitochondrial membrane and does not affect oxidative phosphorylation (OXPHOS) and other matrix biochemical reactions [30] and (2) a soluble, free form present in the matrix that produces virtually all of the cAMP having effects in mitochondria [31]
Summary
Ischemia/reperfusion (I/R) injury is common but multifactorial event in many surgical situations and, in some cases, in pathological conditions It occurs when blood flow is restricted to at least part of an organ and is restored. Cells are further stressed due to a burst in oxygen availability and the rebalancing of pH, among other factors [1,2], leading to a burst in oxidative stress caused by reactive oxygen and nitrogen species (ROS and RNS, respectively) [3,4,5]. Another key initial player is intracellular calcium overload [5] and, later on, tissue inflammation
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