Role of Mitochondria-Derived Danger Signals Released After Injury in Systemic Inflammation and Sepsis

Sepsis is a major public health concern, with high mortality and morbidity, especially among patients undergoing trauma. It is characterized by a systemic inflammatory response syndrome (SIRS) occurring in response to infection. Although classically associated with pathogens, many patients with SIRS...

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Veröffentlicht in:	Antioxidants & redox signaling 2021-11, Vol.35 (15), p.1273-1290
Hauptverfasser:	Itagaki, Kiyoshi, Riça, Ingred, Konecna, Barbora, Kim, Hyo In, Park, Jinbong, Kaczmarek, Elzbieta, Hauser, Carl J
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Sprache:	eng
Schlagworte:	Animals Damage patterns Formyl peptides Forum Review Humans Immune response Infections Inflammation Inflammatory response Mitochondria Mitochondria - immunology Mitochondrial DNA Morbidity Mortality Pathogenesis Pathogens Patients Peptides Plasma levels Public health Sepsis Sepsis (Ed. Masao Kaneki)—Part A Sepsis - immunology Signal Transduction - immunology Systemic inflammatory response syndrome Systemic Inflammatory Response Syndrome - immunology Trauma
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creator	Itagaki, Kiyoshi Riça, Ingred Konecna, Barbora Kim, Hyo In Park, Jinbong Kaczmarek, Elzbieta Hauser, Carl J
description	Sepsis is a major public health concern, with high mortality and morbidity, especially among patients undergoing trauma. It is characterized by a systemic inflammatory response syndrome (SIRS) occurring in response to infection. Although classically associated with pathogens, many patients with SIRS do not have infection. The variability of the disease course cannot be fully explained by our current understanding of its pathogenesis. Thus, other factors are likely to play key roles in the development and progression of SIRS/sepsis. Circulating levels of damage-associated molecular patterns (DAMPs) seem to correlate with SIRS/sepsis morbidity and mortality. Of the known DAMPs, those of mitochondrial (mt) origin have been of particular interest, since their DNA (mtDNA) and formyl peptides (mtFPs) resemble bacterial DNA and peptides, and hence, when released, may be recognized as "danger signals." mtDAMPs released after tissue injury trigger immune responses similar to those induced by pathogens. Thus, they can result in systemic inflammation and organ damage, similar to that observed in SIRS/sepsis. We will discuss recent findings on the roles of mtDAMPs, particularly regarding the less recognized mtFPs, in the activation of inflammatory responses and development of SIRS/sepsis. There are no established methods to predict the course of SIRS/sepsis, but clinical studies reveal that plasma levels of mtDAMPs may correlate with the outcome of the disease. We propose that non-pathogen-initiated, mtDAMPs-induced SIRS/sepsis events need further studies aimed at early clinical recognition and better treatment of this disease.
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It is characterized by a systemic inflammatory response syndrome (SIRS) occurring in response to infection. Although classically associated with pathogens, many patients with SIRS do not have infection. The variability of the disease course cannot be fully explained by our current understanding of its pathogenesis. Thus, other factors are likely to play key roles in the development and progression of SIRS/sepsis. Circulating levels of damage-associated molecular patterns (DAMPs) seem to correlate with SIRS/sepsis morbidity and mortality. Of the known DAMPs, those of mitochondrial (mt) origin have been of particular interest, since their DNA (mtDNA) and formyl peptides (mtFPs) resemble bacterial DNA and peptides, and hence, when released, may be recognized as "danger signals." mtDAMPs released after tissue injury trigger immune responses similar to those induced by pathogens. Thus, they can result in systemic inflammation and organ damage, similar to that observed in SIRS/sepsis. We will discuss recent findings on the roles of mtDAMPs, particularly regarding the less recognized mtFPs, in the activation of inflammatory responses and development of SIRS/sepsis. There are no established methods to predict the course of SIRS/sepsis, but clinical studies reveal that plasma levels of mtDAMPs may correlate with the outcome of the disease. We propose that non-pathogen-initiated, mtDAMPs-induced SIRS/sepsis events need further studies aimed at early clinical recognition and better treatment of this disease.</description><identifier>ISSN: 1523-0864</identifier><identifier>EISSN: 1557-7716</identifier><identifier>DOI: 10.1089/ars.2021.0052</identifier><identifier>PMID: 33847158</identifier><language>eng</language><publisher>United States: Mary Ann Liebert, Inc</publisher><subject>Animals ; Damage patterns ; Formyl peptides ; Forum Review ; Humans ; Immune response ; Infections ; Inflammation ; Inflammatory response ; Mitochondria ; Mitochondria - immunology ; Mitochondrial DNA ; Morbidity ; Mortality ; Pathogenesis ; Pathogens ; Patients ; Peptides ; Plasma levels ; Public health ; Sepsis ; Sepsis (Ed. 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subjects	Animals Damage patterns Formyl peptides Forum Review Humans Immune response Infections Inflammation Inflammatory response Mitochondria Mitochondria - immunology Mitochondrial DNA Morbidity Mortality Pathogenesis Pathogens Patients Peptides Plasma levels Public health Sepsis Sepsis (Ed. Masao Kaneki)—Part A Sepsis - immunology Signal Transduction - immunology Systemic inflammatory response syndrome Systemic Inflammatory Response Syndrome - immunology Trauma
title	Role of Mitochondria-Derived Danger Signals Released After Injury in Systemic Inflammation and Sepsis
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