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The Novel Compound SUL-138 Counteracts Endothelial Cell and Kidney Dysfunction in Sepsis by Preserving Mitochondrial Function

Sepsis is defined as a dysregulated host response leading to organ dysfunction, which may ultimately result in the patient's death. Mitochondrial dysfunction plays a key role in developing organ dysfunction in sepsis. In this study, we explored the efficacy of the novel mitochondrial protective...

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Published in:	International journal of molecular sciences 2023-03, Vol.24 (7), p.6330
Main Authors:	Star, Bastiaan S, van der Slikke, Elisabeth C, van Buiten, Azuwerus, Henning, Robert H, Bouma, Hjalmar R
Format:	Article
Language:	English
Subjects:	AKI Analysis Animal models Animals Apoptosis Biopsy Blood Body temperature Cecum E-selectin Endothelial cells Endothelial Cells - metabolism Endothelium Hypoxia IL-1β Infection Inflammation Instrument industry Intercellular adhesion molecule 1 Interleukin 18 Interleukin 6 Interleukin-6 - metabolism Kidney - metabolism Kidney diseases Kidneys Lipopolysaccharides Lipopolysaccharides - metabolism Lipopolysaccharides - toxicity Membrane potential Membranes metabolism Mice Mitochondria Mitochondria - metabolism Mortality Multiple Organ Failure - metabolism Musculoskeletal system Oxidative stress Oxygen consumption Plasma levels Renal function Sepsis Sepsis - complications Sepsis - drug therapy Sepsis - metabolism SUL-138 Tumor Necrosis Factor-alpha - metabolism Tumor necrosis factor-α
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description	Sepsis is defined as a dysregulated host response leading to organ dysfunction, which may ultimately result in the patient's death. Mitochondrial dysfunction plays a key role in developing organ dysfunction in sepsis. In this study, we explored the efficacy of the novel mitochondrial protective compound, SUL-138, in sepsis models in HUVECs and mice. In LPS-challenged HUVECs, SUL-138 preserved mitochondrial membrane potential and oxygen consumption and limited mitochondrial oxidative stress, resulting in increased survival at 48 h. Further, SUL-138 dampened the LPS-induced expression of IL-1β, but not of NLRP3, and IL-18 in HUVECs. Sepsis in mice induced by cecal ligation and puncture (CLP) led to a lower mitochondrial membrane potential and increased levels of mitochondrial oxidative stress in the kidney, which SUL-138 limited. In addition, SUL-138 mitigated the CLP-induced increase in kidney dysfunction markers NGAL and urea. It dampened the rise in kidney expression of IL-6, IL-1β, and ICAM-1, but not TNF-α and E-selectin. Yet, SUL-138 limited the increase in plasma levels of IL-6 and TNF-α of CLP mice. These results demonstrate that SUL-138 supports mitochondrial function, resulting in a limitation of systemic inflammation and preservation of kidney function.
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Mitochondrial dysfunction plays a key role in developing organ dysfunction in sepsis. In this study, we explored the efficacy of the novel mitochondrial protective compound, SUL-138, in sepsis models in HUVECs and mice. In LPS-challenged HUVECs, SUL-138 preserved mitochondrial membrane potential and oxygen consumption and limited mitochondrial oxidative stress, resulting in increased survival at 48 h. Further, SUL-138 dampened the LPS-induced expression of IL-1β, but not of NLRP3, and IL-18 in HUVECs. Sepsis in mice induced by cecal ligation and puncture (CLP) led to a lower mitochondrial membrane potential and increased levels of mitochondrial oxidative stress in the kidney, which SUL-138 limited. In addition, SUL-138 mitigated the CLP-induced increase in kidney dysfunction markers NGAL and urea. It dampened the rise in kidney expression of IL-6, IL-1β, and ICAM-1, but not TNF-α and E-selectin. Yet, SUL-138 limited the increase in plasma levels of IL-6 and TNF-α of CLP mice. 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Mitochondrial dysfunction plays a key role in developing organ dysfunction in sepsis. In this study, we explored the efficacy of the novel mitochondrial protective compound, SUL-138, in sepsis models in HUVECs and mice. In LPS-challenged HUVECs, SUL-138 preserved mitochondrial membrane potential and oxygen consumption and limited mitochondrial oxidative stress, resulting in increased survival at 48 h. Further, SUL-138 dampened the LPS-induced expression of IL-1β, but not of NLRP3, and IL-18 in HUVECs. Sepsis in mice induced by cecal ligation and puncture (CLP) led to a lower mitochondrial membrane potential and increased levels of mitochondrial oxidative stress in the kidney, which SUL-138 limited. In addition, SUL-138 mitigated the CLP-induced increase in kidney dysfunction markers NGAL and urea. It dampened the rise in kidney expression of IL-6, IL-1β, and ICAM-1, but not TNF-α and E-selectin. Yet, SUL-138 limited the increase in plasma levels of IL-6 and TNF-α of CLP mice. 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subjects	AKI Analysis Animal models Animals Apoptosis Biopsy Blood Body temperature Cecum E-selectin Endothelial cells Endothelial Cells - metabolism Endothelium Hypoxia IL-1β Infection Inflammation Instrument industry Intercellular adhesion molecule 1 Interleukin 18 Interleukin 6 Interleukin-6 - metabolism Kidney - metabolism Kidney diseases Kidneys Lipopolysaccharides Lipopolysaccharides - metabolism Lipopolysaccharides - toxicity Membrane potential Membranes metabolism Mice Mitochondria Mitochondria - metabolism Mortality Multiple Organ Failure - metabolism Musculoskeletal system Oxidative stress Oxygen consumption Plasma levels Renal function Sepsis Sepsis - complications Sepsis - drug therapy Sepsis - metabolism SUL-138 Tumor Necrosis Factor-alpha - metabolism Tumor necrosis factor-α
title	The Novel Compound SUL-138 Counteracts Endothelial Cell and Kidney Dysfunction in Sepsis by Preserving Mitochondrial Function
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