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Hydrogen Sulfide Confers Lung Protection During Mechanical Ventilation via Cyclooxygenase 2, 15-deoxy Δ12,14-Prostaglandin J2, and Peroxisome Proliferator-Activated Receptor Gamma

Spassov, Sashko G. ; Faller, Simone ; Hummel, Matthias ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2017

In: Critical Care Medicine Vol. 45, No. 8 ( 2017-08), p. e849-e857

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In: Critical Care Medicine, Ovid Technologies (Wolters Kluwer Health), Vol. 45, No. 8 ( 2017-08), p. e849-e857

Abstract: Hydrogen sulfide reduces ventilator-induced lung injury in mice. Here, we have examined the underlying mechanisms of hydrogen sulfide-mediated lung protection and determined the involvement of cyclooxygenase 2, 15-deoxy Δ 12,14 -prostaglandin J2, and peroxisome proliferator-activated receptor gamma in this response. Design: Randomized, experimental study. Setting: University medical center research laboratory. Subjects: C57BL/6 mice and in vitro cell catheters. Interventions: The effects of hydrogen sulfide were analyzed in a mouse ventilator-induced lung injury model in vivo as well as in a cell stretch model in vitro in the absence or presence of hydrogen sulfide. The physiologic relevance of our findings was confirmed using pharmacologic inhibitors of cyclooxygenase 2 and peroxisome proliferator-activated receptor gamma. Measurements and Main Results: Mechanical ventilation caused significant lung inflammation and injury that was prevented in the presence of hydrogen sulfide. Hydrogen sulfide-mediated protection was associated with induction of cyclooxygenase 2 and increases of its product 15-deoxy Δ 12,14 -prostaglandin J2 as well as cyclooxygenase 2/15-deoxy Δ 12,14 -prostaglandin J2-dependent activation of peroxisome proliferator-activated receptor gamma. Hydrogen sulfide-dependent effects were mainly observed in macrophages. Applied mechanical stretch to RAW 264.7 macrophages resulted in increased expression of interleukin receptor 1 messenger RNA and release of macrophage inflammatory protein-2. In contrast, incubation of stretched macrophages with sodium hydrosulfide prevented the inflammatory response dependent on peroxisome proliferator-activated receptor gamma activity. Finally, application of a specific peroxisome proliferator-activated receptor gamma inhibitor abolished hydrogen sulfide-mediated protection in ventilated animals. Conclusions: One hydrogen sulfide-triggered mechanism in the protection against ventilator-induced lung injury involves cyclooxygenase 2/15-deoxy Δ 12,14 -prostaglandin J2-dependent activation of peroxisome proliferator-activated receptor gamma and macrophage activity.

Type of Medium: Online Resource

ISSN: 0090-3493

URL: Article

DOI: 10.1097/CCM.0000000000002440

Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2017

detail.hit.zdb_id: 2034247-0

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Brain Damage With Heart Failure : Cardiac Biomarker Alterations and Gray Matter Decline

Mueller, Karsten ; Thiel, Friederike ; Beutner, Frank ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2020

In: Circulation Research Vol. 126, No. 6 ( 2020-03-13), p. 750-764

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In: Circulation Research, Ovid Technologies (Wolters Kluwer Health), Vol. 126, No. 6 ( 2020-03-13), p. 750-764

Abstract: Heart failure (HF) following heart damage leads to a decreased blood flow due to a reduced pump efficiency of the heart muscle. A consequence can be insufficient oxygen supply to the organism including the brain. While HF clearly shows neurological symptoms, such as fatigue, nausea, and dizziness, the implications for brain structure are not well understood. Few studies show regional gray matter decrease related to HF; however, the underlying mechanisms leading to the observed brain changes remain unclear. Objective: To study the relationship between impaired heart function, hampered blood circulation, and structural brain change in a case-control study. Methods and Results: Within a group of 80 patients of the Leipzig Heart Center, we investigated a potential correlation between HF biomarkers and the brain’s gray matter density (GMD) obtained by magnetic resonance imaging. We observed a significant positive correlation between cardiac ejection fraction and GMD across the whole frontal and parietal medial cortex reflecting the consequence of HF onto the brain’s gray matter. Moreover, we also obtained a relationship between GMD and the NT-proBNP (N-terminal prohormone of brain natriuretic peptide)—a biomarker that is used for screening, diagnosis, and prognosis of HF. Here, we found a significant negative correlation between NT-proBNP and GMD in the medial and posterior cingulate cortex but also in precuneus and hippocampus, which are key regions implicated in structural brain changes in dementia. Conclusions: We obtained significant correlations between brain structure and markers of heart failure including ejection fraction and NT-proBNP. A diminished GMD was found with decreased ejection fraction and increased NT-proBNP in wide brain regions including the whole frontomedian cortex as well as hippocampus and precuneus. Our observations might reflect structural brain damage in areas that are related to cognition; however, whether these structural changes facilitate the development of cognitive alterations has to be proven by further longitudinal studies.

Type of Medium: Online Resource

ISSN: 0009-7330 , 1524-4571

URL: Article

DOI: 10.1161/CIRCRESAHA.119.315813

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Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2020

detail.hit.zdb_id: 1467838-X

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