Literature DB >> 30720464

Circulating heparan sulfate fragments mediate septic cognitive dysfunction.

Joseph A Hippensteel1, Brian J Anderson2, James E Orfila3, Sarah A McMurtry1, Robert M Dietz4, Guowei Su5, Joshay A Ford1, Kaori Oshima1, Yimu Yang1, Fuming Zhang6, Xiaorui Han6, Yanlei Yu6, Jian Liu5, Robert J Linhardt6, Nuala J Meyer2, Paco S Herson3,7, Eric P Schmidt1,8.   

Abstract

Septic patients frequently develop cognitive impairment that persists beyond hospital discharge. The impact of sepsis on electrophysiological and molecular determinants of learning is underexplored. We observed that mice that survived sepsis or endotoxemia experienced loss of hippocampal long-term potentiation (LTP), a brain-derived neurotrophic factor-mediated (BDNF-mediated) process responsible for spatial memory formation. Memory impairment occurred despite preserved hippocampal BDNF content and could be reversed by stimulation of BDNF signaling, suggesting the presence of a local BDNF inhibitor. Sepsis is associated with degradation of the endothelial glycocalyx, releasing heparan sulfate fragments (of sufficient size and sulfation to bind BDNF) into the circulation. Heparan sulfate fragments penetrated the hippocampal blood-brain barrier during sepsis and inhibited BDNF-mediated LTP. Glycoarray approaches demonstrated that the avidity of heparan sulfate for BDNF increased with sulfation at the 2-O position of iduronic acid and the N position of glucosamine. Circulating heparan sulfate in endotoxemic mice and septic humans was enriched in 2-O- and N-sulfated disaccharides; furthermore, the presence of these sulfation patterns in the plasma of septic patients at intensive care unit (ICU) admission predicted persistent cognitive impairment 14 days after ICU discharge or at hospital discharge. Our findings indicate that circulating 2-O- and N-sulfated heparan sulfate fragments contribute to septic cognitive impairment.

Entities:  

Keywords:  Extracellular matrix; Glycobiology; Neuroscience; growth factors

Mesh:

Substances:

Year:  2019        PMID: 30720464      PMCID: PMC6436867          DOI: 10.1172/JCI124485

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  27 in total

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3.  Interleukin-1β causes long-term potentiation deficiency in a mouse model of septic encephalopathy.

Authors:  Y Imamura; H Wang; N Matsumoto; T Muroya; J Shimazaki; H Ogura; T Shimazu
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4.  The pulmonary endothelial glycocalyx regulates neutrophil adhesion and lung injury during experimental sepsis.

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Journal:  Neuron       Date:  1994-01       Impact factor: 17.173

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8.  The impact of IL-1 modulation on the development of lipopolysaccharide-induced cognitive dysfunction.

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10.  Fibroblast Growth Factor Signaling Mediates Pulmonary Endothelial Glycocalyx Reconstitution.

Authors:  Yimu Yang; Sarah M Haeger; Matthew A Suflita; Fuming Zhang; Kyrie L Dailey; James F Colbert; Joshay A Ford; Mario A Picon; Robert S Stearman; Lei Lin; Xinyue Liu; Xiaorui Han; Robert J Linhardt; Eric P Schmidt
Journal:  Am J Respir Cell Mol Biol       Date:  2017-06       Impact factor: 6.914
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Review 8.  Surface charge, glycocalyx, and blood-brain barrier function.

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Review 10.  The Gut-Lung Axis in Systemic Inflammation. Role of Mesenteric Lymph as a Conduit.

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