Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.

Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.

Central nervous system and visual dysfunction is an unfortunate consequence of systemic hypoxia in the setting of cardiopulmonary disease, including infection with SARS-CoV-2, high-altitude cerebral edema and retinopathy and other conditions. Hypoxia-induced inflammatory signaling may lead to retina...

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Main Authors: Louise A Mesentier-Louro, Barbara Rangel, Laurel Stell, M Ali Shariati, Roopa Dalal, Abinaya Nathan, Ke Yuan, Vinicio de Jesus Perez, Yaping Joyce Liao
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2021-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0246681
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spelling doaj-1059a0f8835b4a44be824b8fa065c14c2021-03-19T05:30:51ZengPublic Library of Science (PLoS)PLoS ONE1932-62032021-01-01163e024668110.1371/journal.pone.0246681Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.Louise A Mesentier-LouroBarbara RangelLaurel StellM Ali ShariatiRoopa DalalAbinaya NathanKe YuanVinicio de Jesus PerezYaping Joyce LiaoCentral nervous system and visual dysfunction is an unfortunate consequence of systemic hypoxia in the setting of cardiopulmonary disease, including infection with SARS-CoV-2, high-altitude cerebral edema and retinopathy and other conditions. Hypoxia-induced inflammatory signaling may lead to retinal inflammation, gliosis and visual disturbances. We investigated the consequences of systemic hypoxia using serial retinal optical coherence tomography and by assessing the earliest changes within 24h after hypoxia by measuring a proteomics panel of 39 cytokines, chemokines and growth factors in the plasma and retina, as well as using retinal histology. We induced severe systemic hypoxia in adult C57BL/6 mice using a hypoxia chamber (10% O2) for 1 week and rapidly assessed measurements within 1h compared with 18h after hypoxia. Optical coherence tomography revealed retinal tissue edema at 18h after hypoxia. Hierarchical clustering of plasma and retinal immune molecules revealed obvious segregation of the 1h posthypoxia group away from that of controls. One hour after hypoxia, there were 10 significantly increased molecules in plasma and 4 in retina. Interleukin-1β and vascular endothelial growth factor were increased in both tissues. Concomitantly, there was significantly increased aquaporin-4, decreased Kir4.1, and increased gliosis in retinal histology. In summary, the immediate posthypoxic period is characterized by molecular changes consistent with systemic and retinal inflammation and retinal glial changes important in water transport, leading to tissue edema. This posthypoxic inflammation rapidly improves within 24h, consistent with the typically mild and transient visual disturbance in hypoxia, such as in high-altitude retinopathy. Given hypoxia increases risk of vision loss, more studies in at-risk patients, such as plasma immune profiling and in vivo retinal imaging, are needed in order to identify novel diagnostic or prognostic biomarkers of visual impairment in systemic hypoxia.https://doi.org/10.1371/journal.pone.0246681
collection DOAJ
language English
format Article
sources DOAJ
author Louise A Mesentier-Louro
Barbara Rangel
Laurel Stell
M Ali Shariati
Roopa Dalal
Abinaya Nathan
Ke Yuan
Vinicio de Jesus Perez
Yaping Joyce Liao
spellingShingle Louise A Mesentier-Louro
Barbara Rangel
Laurel Stell
M Ali Shariati
Roopa Dalal
Abinaya Nathan
Ke Yuan
Vinicio de Jesus Perez
Yaping Joyce Liao
Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.
PLoS ONE
author_facet Louise A Mesentier-Louro
Barbara Rangel
Laurel Stell
M Ali Shariati
Roopa Dalal
Abinaya Nathan
Ke Yuan
Vinicio de Jesus Perez
Yaping Joyce Liao
author_sort Louise A Mesentier-Louro
title Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.
title_short Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.
title_full Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.
title_fullStr Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.
title_full_unstemmed Hypoxia-induced inflammation: Profiling the first 24-hour posthypoxic plasma and central nervous system changes.
title_sort hypoxia-induced inflammation: profiling the first 24-hour posthypoxic plasma and central nervous system changes.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2021-01-01
description Central nervous system and visual dysfunction is an unfortunate consequence of systemic hypoxia in the setting of cardiopulmonary disease, including infection with SARS-CoV-2, high-altitude cerebral edema and retinopathy and other conditions. Hypoxia-induced inflammatory signaling may lead to retinal inflammation, gliosis and visual disturbances. We investigated the consequences of systemic hypoxia using serial retinal optical coherence tomography and by assessing the earliest changes within 24h after hypoxia by measuring a proteomics panel of 39 cytokines, chemokines and growth factors in the plasma and retina, as well as using retinal histology. We induced severe systemic hypoxia in adult C57BL/6 mice using a hypoxia chamber (10% O2) for 1 week and rapidly assessed measurements within 1h compared with 18h after hypoxia. Optical coherence tomography revealed retinal tissue edema at 18h after hypoxia. Hierarchical clustering of plasma and retinal immune molecules revealed obvious segregation of the 1h posthypoxia group away from that of controls. One hour after hypoxia, there were 10 significantly increased molecules in plasma and 4 in retina. Interleukin-1β and vascular endothelial growth factor were increased in both tissues. Concomitantly, there was significantly increased aquaporin-4, decreased Kir4.1, and increased gliosis in retinal histology. In summary, the immediate posthypoxic period is characterized by molecular changes consistent with systemic and retinal inflammation and retinal glial changes important in water transport, leading to tissue edema. This posthypoxic inflammation rapidly improves within 24h, consistent with the typically mild and transient visual disturbance in hypoxia, such as in high-altitude retinopathy. Given hypoxia increases risk of vision loss, more studies in at-risk patients, such as plasma immune profiling and in vivo retinal imaging, are needed in order to identify novel diagnostic or prognostic biomarkers of visual impairment in systemic hypoxia.
url https://doi.org/10.1371/journal.pone.0246681
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