Literature DB >> 25186179

The HMGB1-RAGE axis mediates traumatic brain injury-induced pulmonary dysfunction in lung transplantation.

Daniel J Weber1, Adam S A Gracon1, Matthew S Ripsch2, Amanda J Fisher3, Bo M Cheon2, Pankita H Pandya4, Ragini Vittal4, Maegan L Capitano5, Youngsong Kim2, Yohance M Allette2, Amanda A Riley6, Brian P McCarthy6, Paul R Territo6, Gary D Hutchins6, Hal E Broxmeyer5, George E Sandusky7, Fletcher A White3, David S Wilkes8.   

Abstract

Traumatic brain injury (TBI) results in systemic inflammatory responses that affect the lung. This is especially critical in the setting of lung transplantation, where more than half of donor allografts are obtained postmortem from individuals with TBI. The mechanism by which TBI causes pulmonary dysfunction remains unclear but may involve the interaction of high-mobility group box-1 (HMGB1) protein with the receptor for advanced glycation end products (RAGE). To investigate the role of HMGB1 and RAGE in TBI-induced lung dysfunction, RAGE-sufficient (wild-type) or RAGE-deficient (RAGE(-/-)) C57BL/6 mice were subjected to TBI through controlled cortical impact and studied for cardiopulmonary injury. Compared to control animals, TBI induced systemic hypoxia, acute lung injury, pulmonary neutrophilia, and decreased compliance (a measure of the lungs' ability to expand), all of which were attenuated in RAGE(-/-) mice. Neutralizing systemic HMGB1 induced by TBI reversed hypoxia and improved lung compliance. Compared to wild-type donors, lungs from RAGE(-/-) TBI donors did not develop acute lung injury after transplantation. In a study of clinical transplantation, elevated systemic HMGB1 in donors correlated with impaired systemic oxygenation of the donor lung before transplantation and predicted impaired oxygenation after transplantation. These data suggest that the HMGB1-RAGE axis plays a role in the mechanism by which TBI induces lung dysfunction and that targeting this pathway before transplant may improve recipient outcomes after lung transplantation.
Copyright © 2014, American Association for the Advancement of Science.

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Year:  2014        PMID: 25186179      PMCID: PMC5450936          DOI: 10.1126/scitranslmed.3009443

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  59 in total

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3.  High mobility group box-1 protein induces the migration and activation of human dendritic cells and acts as an alarmin.

Authors:  De Yang; Qian Chen; Huan Yang; Kevin J Tracey; Michael Bustin; Joost J Oppenheim
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Review 4.  HMGB1 and RAGE in inflammation and cancer.

Authors:  Gary P Sims; Daniel C Rowe; Svend T Rietdijk; Ronald Herbst; Anthony J Coyle
Journal:  Annu Rev Immunol       Date:  2010       Impact factor: 28.527

5.  Targeting TLR4 signaling by TLR4 Toll/IL-1 receptor domain-derived decoy peptides: identification of the TLR4 Toll/IL-1 receptor domain dimerization interface.

Authors:  Vladimir Y Toshchakov; Henryk Szmacinski; Leah A Couture; Joseph R Lakowicz; Stefanie N Vogel
Journal:  J Immunol       Date:  2011-03-14       Impact factor: 5.422

6.  Noninvasive measurement of cardiovascular function in mice with high-temporal-resolution small-animal PET.

Authors:  Michael C Kreissl; Hsiao-Ming Wu; David B Stout; Waldemar Ladno; Thomas H Schindler; Xiaoli Zhang; John O Prior; Mayumi L Prins; Arion F Chatziioannou; Sung-Cheng Huang; Heinrich R Schelbert
Journal:  J Nucl Med       Date:  2006-06       Impact factor: 10.057

7.  Neutralizing IL-17 prevents obliterative bronchiolitis in murine orthotopic lung transplantation.

Authors:  L Fan; H L Benson; R Vittal; E A Mickler; R Presson; A Jo Fisher; O W Cummings; K M Heidler; M R Keller; W J Burlingham; D S Wilkes
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Authors:  U Andersson; H Wang; K Palmblad; A C Aveberger; O Bloom; H Erlandsson-Harris; A Janson; R Kokkola; M Zhang; H Yang; K J Tracey
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Review 10.  Bench-to-bedside review: The inflammation-perpetuating pattern-recognition receptor RAGE as a therapeutic target in sepsis.

Authors:  Christian Bopp; Angelika Bierhaus; Stefan Hofer; Axel Bouchon; Peter P Nawroth; Eike Martin; Markus A Weigand
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  45 in total

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Journal:  Acta Pharmacol Sin       Date:  2017-08-03       Impact factor: 6.150

Review 2.  Respiratory mechanics in brain injury: A review.

Authors:  Antonia Koutsoukou; Maria Katsiari; Stylianos E Orfanos; Anastasia Kotanidou; Maria Daganou; Magdalini Kyriakopoulou; Nikolaos G Koulouris; Nikoletta Rovina
Journal:  World J Crit Care Med       Date:  2016-02-04

3.  Brain injury requires lung protection.

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Journal:  Ann Transl Med       Date:  2015-05

Review 4.  Danger signals in regulating the immune response to solid organ transplantation.

Authors:  Jamie L Todd; Scott M Palmer
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5.  Circulating mitochondria in deceased organ donors are associated with immune activation and early allograft dysfunction.

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6.  Circulating mitochondria in organ donors promote allograft rejection.

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Review 7.  Neuroimmunology of Traumatic Brain Injury: Time for a Paradigm Shift.

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8.  Early coagulation events induce acute lung injury in a rat model of blunt traumatic brain injury.

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10.  MicroRNA-142-3p Inhibits Chondrocyte Apoptosis and Inflammation in Osteoarthritis by Targeting HMGB1.

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