Evaluation of Oxidative Stress and Metabolic Profile in a Preclinical Kidney Transplantation Model According to Different Preservation Modalities

Mrakic‐Sposta, Simona; Vezzoli, Alessandra; Cova, Emanuela; Elena, Ticcozzelli; Montorsi, Michela; Greco, Francesca; Sepe, Vincenzo; Benzoni, Ilaria; Meloni, Federica; Arbustini, Eloisa; Abelli, Massimo; Gussoni, M.

doi:10.3390/ijms24021029

IJMS

2023

DOI: 10.3390/ijms24021029

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Evaluation of Oxidative Stress and Metabolic Profile in a Preclinical Kidney Transplantation Model According to Different Preservation Modalities

Simona Mrakic‐Sposta

Alessandra Vezzoli

Emanuela Cova

et al.

Abstract: This study addresses a joint nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) spectroscopy approach to provide a platform for dynamic assessment of kidney viability and metabolism. On porcine kidney models, ROS production, oxidative damage kinetics, and metabolic changes occurring both during the period between organ retrieval and implantation and after kidney graft were examined. The 1H-NMR metabolic profile—valine, alanine, acetate, trimetylamine-N-oxide, glutathione, lactate, and t… Show more

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Cited by 5 publications

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Hypothermic machine perfusion of a donor kidney using an experimental dextran-40-based preservation solution and orthotopic transplantation (experimental study)

Shestakova,

Bogdanov,

Pavlov

et al. 2024

RJTAO

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Objective: to evaluate the efficacy of hypothermic machine perfusion (HMP) of a donor kidney obtained from a non-heartbeating (NHB) donor, using an experimental dextran-40-based preservation solution, in subsequent orthotopic transplantation in a rabbit model.Materials and methods. Twenty grey giant rabbits weighing 2,500–3,100 g, divided into donors (n = 10) and recipients (n = 10), were used in the study. After obtaining kidney from an NHB donor, ex vivo HMP of the left donor kidney using a dextran-40-based preservation solution was performed and peripheral vascular resistance (PVR) parameters were measured. This was followed by bilateral nephrectomy and orthotopic transplantation. The follow-up period was 12 days. Creatinine levels, urea levels, and glomerular filtration rate (GFR) were measured during follow-up.Results. During ex vivo HMP of donor kidneys from NHBs, PVR dropped progressively from 1.90 ± 0.27 mmHg/mL/min to 0.72 ± 0.09 mmHg/mL/min at p < 0.001. In the early post-transplant period (during the first 2 days after implantation), creatinine and urea levels were moderately elevated compared to normal. Creatinine and urea levels were 91.07 ± 11.49 μmol/L at p < 0.011 and 9.09 ± 1.06 mmol/L at p < 0.009 on day 2, respectively, but by day 12, they reverted to physiologic values, which were 77.17 ± 10.19 μmol/L at p < 0.019 and 4.88 ± 0.54 mmol/L at p < 0.022, respectively. These findings were correlated with GFR values, which ranged from 26.29 to 26.74 mL/min/1.72 m2 in mean values over the course of a 12-day follow-up period.Conclusion. Ex vivo HMP using dextran-40-based preservation solution has a positive effect on the kidney at 30 minutes of warm ischemia following asystole and achieves satisfactory graft function over 12 days of follow-up.

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Hypothermic machine perfusion of a donor kidney using an experimental dextran-40-based preservation solution and orthotopic transplantation (experimental study)

Shestakova,

Bogdanov,

Pavlov

et al. 2024

RJTAO

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Comprehensive molecular and cellular characterization of endoplasmic reticulum stress-related key genes in renal ischemia/reperfusion injury

Zhang,

Zheng,

et al. 2024

Front. Immunol.

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BackgroundRenal ischemia-reperfusion injury (RIRI) is an inevitable complication in the process of kidney transplantation and lacks specific therapy. The study aims to determine the underlying mechanisms of RIRI to uncover a promising target for efficient renoprotection.MethodFour bulk RNA-seq datasets including 495 renal samples of pre- and post-reperfusion were collected from the GEO database. The machine learning algorithms were utilized to ascertain pivotal endoplasmic reticulum stress genes. Then, we incorporated correlation analysis and determined the interaction pathways of these key genes. Considering the heterogeneous nature of bulk-RNA analysis, the single-cell RNA-seq analysis was performed to investigate the mechanisms of key genes at the single-cell level. Besides, 4-PBA was applied to inhibit endoplasmic reticulum stress and hence validate the pathological role of these key genes in RIRI. Finally, three clinical datasets with transcriptomic profiles were used to assess the prognostic role of these key genes in renal allograft outcomes after RIRI.ResultsIn the bulk-RNA analysis, endoplasmic reticulum stress was identified as the top enriched pathway and three endoplasmic reticulum stress-related genes (PPP1R15A, JUN, and ATF3) were ranked as top performers in both LASSO and Boruta analyses. The three genes were found to significantly interact with kidney injury-related pathways, including apoptosis, inflammatory response, oxidative stress, and pyroptosis. For oxidative stress, these genes were more strongly related to oxidative markers compared with antioxidant markers. In single-cell transcriptome, the three genes were primarily upregulated in endothelium, distal convoluted tubule cells, and collecting duct principal cells among 12 cell types of renal tissues in RIRI. Furthermore, distal convoluted tubule cells and collecting duct principal cells exhibited pro-inflammatory status and the highest pyroptosis levels, suggesting their potential as main effectors of three key genes for mediating RIRI-associated injuries. Importantly, inhibition of these key genes using 4-phenyl butyric acid alleviated functional and histological damage in a mouse RIRI model. Finally, the three genes demonstrated highly prognostic value in predicting graft survival outcomes.ConclusionThe study identified three key endoplasmic reticulum stress-related genes and demonstrated their prognostic value for graft survival, providing references for individualized clinical prevention and treatment of postoperative complications after renal transplantation.

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Treatment of Acute and Long-COVID, Diabetes, Myocardial Infarction, and Alzheimer’s Disease: The Potential Role of a Novel Nano-Compound—The Transdermal Glutathione–Cyclodextrin Complex

Yutani,

Venketaraman,

Sheren

2024

Antioxidants

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Oxidative stress (OS) occurs from excessive reactive oxygen species or a deficiency of antioxidants—primarily endogenous glutathione (GSH). There are many illnesses, from acute and post-COVID-19, diabetes, myocardial infarction to Alzheimer’s disease, that are associated with OS. These dissimilar illnesses are, in order, viral infections, metabolic disorders, ischemic events, and neurodegenerative disorders. Evidence is presented that in many illnesses, (1) OS is an early initiator and significant promotor of their progressive pathophysiologic processes, (2) early reduction of OS may prevent later serious and irreversible complications, (3) GSH deficiency is associated with OS, (4) GSH can likely reduce OS and restore adaptive physiology, (5) effective administration of GSH can be accomplished with a novel nano-product, the GSH/cyclodextrin (GC) complex. OS is an overlooked pathological process of many illnesses. Significantly, with the GSH/cyclodextrin (GC) complex, therapeutic administration of GSH is now available to reduce OS. Finally, rigorous prospective studies are needed to confirm the efficacy of this therapeutic approach.

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Evaluation of Oxidative Stress and Metabolic Profile in a Preclinical Kidney Transplantation Model According to Different Preservation Modalities

Cited by 5 publications

References 76 publications

Hypothermic machine perfusion of a donor kidney using an experimental dextran-40-based preservation solution and orthotopic transplantation (experimental study)

Hypothermic machine perfusion of a donor kidney using an experimental dextran-40-based preservation solution and orthotopic transplantation (experimental study)

Comprehensive molecular and cellular characterization of endoplasmic reticulum stress-related key genes in renal ischemia/reperfusion injury

Treatment of Acute and Long-COVID, Diabetes, Myocardial Infarction, and Alzheimer’s Disease: The Potential Role of a Novel Nano-Compound—The Transdermal Glutathione–Cyclodextrin Complex

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