Septic Shock Sera Containing Circulating Histones Induce Dendritic Cell–Regulated Necrosis in Fatal Septic Shock Patients

Raffray, L.; Douchet, Isabelle; Augusto, Jean-François; Youssef, J.G.; Contin‐Bordes, Cécile; Richez, Christophe; Duffau, Pierre; Truchetet, Marie-Élise; Moreau, Jean-François; Cazanave, Charles; Leroux, Lionel; Mourrissoux, Gaelle; Camou, Fabrice; Clouzeau, Benjamin; Jeannin, Pascale; Delneste, Yves; Gabinski, C.; Guisset, Olivier; Lazaro, Estibaliz; Blanco, Patrick

doi:10.1097/ccm.0000000000000879

Cited by 31 publications

(31 citation statements)

References 41 publications

(48 reference statements)

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“…More recently, circulating histones have been implicated as mediators of endothelial and organ dysfunction in sepsis (38), and several clinical studies have demonstrated their relevance to critical illness. Histones and their parent nucleosomes have been implicated in cardiac dysfunction (4,5), renal injury (12), and dendritic cell necrosis (24). In adults with trauma, nucleosome levels correlated with trauma severity scores, with histone levels correlating with Sequential Organ Failure Assessment scores and subsequent lung injury (2), consistent with our findings in this PARDS cohort.…”

Section: Discussionsupporting

confidence: 80%

“…In five studies (3 adult sepsis, 1 adult aspiration ARDS, and 1 pediatric sepsis), nucleosome or histone levels have been demonstrated to be higher in nonsurvivors (4,12,24,40,41). In a cohort of septic adults (n ϭ 19), elevated histone H4 on day 1 predicted increased mortality at days 28 and 90 (12).…”

Section: Discussionmentioning

confidence: 99%

“…Normally located within the nucleus, nucleosomes released into the circulation act as damage-associated molecular patterns (DAMP), and have been shown to be toxic to multiple cell types (2,12,24), offering a novel mechanism linking diverse inciting insults with subsequent lung injury and organ failure. However, whether nucleosomes are associated with PARDS development or progression is unknown.…”

mentioning

confidence: 99%

“…Recent studies in adult ARDS have implicated circulating nucleosomes, the histone/DNA complexes resulting from nuclear chromatin degradation released after cellular damage, as potentially pathogenic in sepsis (4,12,24,38), aspiration (41), and trauma-related ARDS (2). Normally located within the nucleus, nucleosomes released into the circulation act as damage-associated molecular patterns (DAMP), and have been shown to be toxic to multiple cell types (2,12,24), offering a novel mechanism linking diverse inciting insults with subsequent lung injury and organ failure.…”

mentioning

confidence: 99%

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Circulating nucleosomes are associated with mortality in pediatric acute respiratory distress syndrome

Yehya

Thomas

Margulies

2016

American Journal of Physiology-Lung Cellular and Molecular Phys

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Nucleosome levels were not associated with either Berlin (P ϭ 0.845) or PALICC (P ϭ 0.886) oxygenation categories, nor with etiology of PARDS (P ϭ 0.527). Nucleosomes were correlated with increasing numbers of nonpulmonary organ failures (P ϭ 0.009 for trend), and were higher in patients whose PaO 2 /FiO 2 worsened (P ϭ 0.012) over the first 72 h of PARDS. In regression analysis, nucleosome levels were independently associated with mortality after adjusting for either age, severity of illness score, number of nonpulmonary organ failures, vasopressor score, or Pa O 2 /FiO 2 (all P Ͻ 0.05). In conclusion, plasma nucleosome levels in early PARDS were associated with increased mortality, correlated with number of nonpulmonary organ failures, and preceded worsening oxygenation. The potential utility of this biomarker for prognostication, risk stratification, and mechanistic insight should be investigated further.acute respiratory distress syndrome; ARDS; pediatric acute respiratory distress syndrome; PARDS; nucleosomes MECHANISMS UNDERLYING pediatricacute respiratory distress syndrome (PARDS) remain elusive. While PARDS was historically defined by adult ARDS criteria (6, 25), it possesses a distinct epidemiologic, comorbidity, and outcome profile, prompting the Pediatric Acute Lung Injury Consensus Conference (PALICC) to develop pediatric-specific definitions in 2015 (23). Among other differences, the PALICC definition of PARDS uses oxygenation index (OI), rather than Pa O 2 /Fi O 2 , for risk stratification, despite the inconsistent relationship between oxygenation and outcome (1, 31). Common to both adult (35, 36) and pediatric (13, 39) ARDS is the significance of nonpulmonary organ failures as a predictor of poor outcome. While several investigations have focused on the systemic inflammatory response and the associated neutrophil activation and cytokine release (9, 36), the pathogenic mechanisms invoked remain incomplete for explaining the development of lung injury and multisystem organ failure (MSOF).Recent studies in adult ARDS have implicated circulating nucleosomes, the histone/DNA complexes resulting from nuclear chromatin degradation released after cellular damage, as potentially pathogenic in sepsis (4, 12, 24, 38), aspiration (41), and trauma-related ARDS (2). Normally located within the nucleus, nucleosomes released into the circulation act as damage-associated molecular patterns (DAMP), and have been shown to be toxic to multiple cell types (2,12,24), offering a novel mechanism linking diverse inciting insults with subsequent lung injury and organ failure. However, whether nucleosomes are associated with PARDS development or progression is unknown.Rapid identification of children with PARDS who are most at risk of a poor outcome is essential for accurate risk stratification in clinical trials, as it allows redirection of aggressive interventions toward the sickest cohort. Unlike adult ARDS, few studies address the utility of biomarkers in PARDS. The reduced incidence of PARDS [12.8 per 100,000 person-ye...

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Section: Discussionsupporting

confidence: 80%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Circulating nucleosomes are associated with mortality in pediatric acute respiratory distress syndrome

Yehya

Thomas

Margulies

2016

American Journal of Physiology-Lung Cellular and Molecular Phys

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“…We are now also waiting for the development of effective antihistone strategies to verify that this polycation is indeed the major "virulence factor" but maybe that histone does not function on its own, but in synergy with additional agonists. The following recent publications on histone and sepsis are worth reading [51][52][53][54][55][56][57][58][59][60][61].…”

Section: "Miracle Histones": Is It a Breakthrough In Sepsis Research?mentioning

confidence: 99%

Synergistic Aspects to Explain the Pathophysiology of Sepsis and Septic Shock-An Opinion

Koren¹,

Ginsburg²

2015

J Infect Dis Ther

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Inhibition of regulated cell death by cell-penetrating peptides

Krautwald

Dewitz

Fändrich

et al. 2016

Cell. Mol. Life Sci.

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Development of the means to efficiently and continuously renew missing and non-functional proteins in diseased cells remains a major goal in modern molecular medicine. While gene therapy has the potential to achieve this, substantial obstacles must be overcome before clinical application can be considered. A promising alternative approach is the direct delivery of non-permeant active biomolecules, such as oligonucleotides, peptides and proteins, to the affected cells with the purpose of ameliorating an advanced disease process. In addition to receptor-mediated endocytosis, cell-penetrating peptides are widely used as vectors for rapid translocation of conjugated molecules across cell membranes into intracellular compartments and the delivery of these therapeutic molecules is generally referred to as novel prospective protein therapy. As a broad coverage of the enormous amount of published data in this field is unrewarding, this review will provide a brief, focused overview of the technology and a summary of recent studies of the most commonly used protein transduction domains and their potential as therapeutic agents for the treatment of cellular damage and the prevention of regulated cell death.

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Septic Shock Sera Containing Circulating Histones Induce Dendritic Cell–Regulated Necrosis in Fatal Septic Shock Patients

Abstract: The study demonstrates a differential mechanism of dendritic cell death in patients with septic shock that is dependent on the severity of the disease.

Cited by 31 publications

References 41 publications

Circulating nucleosomes are associated with mortality in pediatric acute respiratory distress syndrome

Circulating nucleosomes are associated with mortality in pediatric acute respiratory distress syndrome

Synergistic Aspects to Explain the Pathophysiology of Sepsis and Septic Shock-An Opinion

Inhibition of regulated cell death by cell-penetrating peptides

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