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Target Concepts:
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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two antithetic terms, hypoxia and
hyperoxia
, i.e., insufficient and excess oxygen availability with respect to needs, are thought to trigger opposite responses in cells and tissues. This review aims at summarizing the molecular and cellular mechanisms underlying hypoxia and
hyperoxia
in brain and cerebral tissue, a context that may prove to be useful for characterizing not only several clinically relevant aspects, but also aspects related to the evolution of oxygen transport and use by the tissues. While the response to acute hypoxia/
hyperoxia
presumably recruits only a minor portion of the potentially involved cell machinery, focusing into chronic conditions, instead, enables to take into consideration a wider range of potential responses to oxygen-linked stress, spanning from metabolic to genic. We will examine how various brain subsystems, including energetic metabolism, oxygen sensing, recruitment of pro-survival pathways as protein kinase B (Akt), mitogen-activated protein kinases (MAPK), neurotrophins (BDNF), erythropoietin (Epo) and its receptors (EpoR),
neuroglobin
(Ngb), nitric oxide (NO), carbon monoxide (CO), deal with chronic hypoxia and
hyperoxia
to end-up with the final outcomes, oxidative stress and brain damage. A more complex than expected pattern results, which emphasizes the delicate balance between the severity of the stress imposed by hypoxia and
hyperoxia
and the recruitment of molecular and cellular defense patterns. While for certain functions the expectation that hypoxia and
hyperoxia
should cause opposite responses is actually met, for others it is not, and both emerge as dangerous treatments.
...
PMID:Comparative Response of Brain to Chronic Hypoxia and Hyperoxia. 2888 Feb 6
