Cold stress–induced ferroptosis in liver sinusoidal endothelial cells determines liver transplant injury and outcomes

The outcome after liver transplantation has improved in recent years, which can be attributed to superior storage and transportation conditions of the organs, as well as better peri- and postoperative management and advancements in surgical techniques. Nevertheless, there is an increasing discrepancy between the need for organs and their availability. Consequently, the mortality rate on the waiting list is high and continues to rise. One way of counteracting this trend is to increase the use of “expanded criteria donors.” This means that more and more donors will be included, especially those who are older and having additional comorbidities (eg, steatosis). A major complication of any transplantation is the occurrence of ischemia/reperfusion injury (IRI), which often leads to liver dysfunction and failure. However, there have been various promising approaches to minimize IRI in recent years, but an effective and clinically applicable method to achieve a better outcome for patients after liver transplantation is still missing. Thereby, the so-called marginal organs are predominantly affected by IRI; thus, it is crucial to develop suitable and effective treatment options for patients. Recently, regulated cell death mechanisms, particularly ferroptosis, have been implicated to play a major role in IRI, including the liver. Therefore, inhibiting this kind of cell death modality presents a promising therapeutic approach for the management of this yet untreatable condition. Thus, this review provides an overview of the role of ferroptosis in liver IRI and transplantation and discusses possible therapeutic solutions based on ferroptosis inhibition to restrain IRI in marginal organs (especially steatosis and donation after circulatory death organs).

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SIRT4-mediated deacetylation of PRDX3 attenuates liver ischemia reperfusion injury by suppressing ferroptosis

Chen,

Yu,

Yang

et al. 2024

Preprint

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Liver ischemia-reperfusion injury (LIRI) is an important cause of the clinical prognosis of liver transplantation. Despite the diverse roles that Sirtuin 4 (SIRT4) plays in posttranslational modifications, its specific involvement in the onset and progression of LIRI remains unclear. The aim of this research was to investigate the influence of SIRT4 on the pathogenesis of LIRI. In this study, SIRT4 knockout and liver-specific overexpression mice and AML12 cells were used to investigate the possible role of SIRT4 in LIRI. Here, we showed that SIRT4 expression was downregulated in mice with LIRI or AML12 cells exposed to H/R injury and in the liver tissue of liver transplant patients. SIRT4 deletion led to the exacerbation of liver injury and ferroptosis; conversely, liver-specific SIRT4 overexpression in mice produced the opposite results. Furthermore, the ferroptosis inhibitor ferrostatin-1 counteracted the exacerbation of liver injury and ferroptosis caused by SIRT4 knockout. Mechanistically, SIRT4 interacted with Peroxiredoxins (PRDX3) and deacetylated it at lysine 92, leading to the inhibition of PRDX3 hyper-oxidation and ferroptosis. Furthermore, the protective effect of SIRT4 on LIRI was dependent on the deacetylation of PRDX3 at K92. Finally, we developed a liver-targeted Lipid nanoparticles (LNP)-sirt4 mRNA that alleviated liver I/R injury and ferroptosis in mice. Taken together, these results indicate that the SIRT4‒PRDX3 axis plays a key role in the progression of LIRI and may be a therapeutic target for the treatment of LIRI.

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Cold stress–induced ferroptosis in liver sinusoidal endothelial cells determines liver transplant injury and outcomes

Cited by 4 publications

References 66 publications

Chronic cold stress promotes inflammation and ER stress via inhibiting GLP-1R signaling, and exacerbates the risk of ferroptosis in the liver and pancreas

Chronic cold stress promotes inflammation and ER stress via inhibiting GLP-1R signaling, and exacerbates the risk of ferroptosis in the liver and pancreas

Ferroptosis Inhibition: A Key Opportunity for the Treatment of Ischemia/Reperfusion Injury in Liver Transplantation

SIRT4-mediated deacetylation of PRDX3 attenuates liver ischemia reperfusion injury by suppressing ferroptosis

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